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1
RAINARD, PASCAL. "Complement factor B and the alternative pathway of complement activation in bovine milk." Journal of Dairy Research 69, no. 1 (February 2002): 1–12. http://dx.doi.org/10.1017/s0022029901005337.
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The contribution of the alternative pathway of complement activation to the capacity of normal milk to deposit C3 fragments on bacteria was tested by attempting to block C3 deposition with antibodies to the alternative pathway component factor B (fB). Factor B was purified and antibodies of the IgY class, which does not activate mammalian complement, were obtained from the egg yolk of immunized laying hens. These antibodies specifically inhibited the deposition of C3. This inhibition and the absence of deposition of C4 demonstrated that C3 deposition in normal milk resulted from the activation of the alternative pathway. Antibodies raised in rabbit were used to develop an ELISA for measuring fB concentrations in milk. The mean concentration of fB was 2·06 μg/ml (±0·18, SEM), 0·57% of the mean value found in serum (360 μg/ml). This proportion was comparable to that of serum albumin (0·63% of serum value) but less than the proportion of C3 in milk (2·71%). Nevertheless, fB was apparently not a limiting factor for the functioning of the alternative pathway, since addition of purified fB to normal milk did not improve C3 deposition. In serum, mild heat-treatment (56 °C for 3 min or 50 °C for 45 min) blocked the alternative pathway and destroyed fB, as shown by loss of antigenicity in ELISA. In milk, mild heat-treatment did not abrogate C3 deposition, and fB was protected, retaining its functionality and antigenicity. Heating at 56 °C for at least 45 min was necessary to completely inhibit C3 deposition in normal milk.
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Wang, Fengying, Xiaozhong Li, Xueming Zhu, Qing Chen, Lu Jiang, and Ziqiang Zhu. "Renal Tubular Complement 3 Deposition in Children with Primary Nephrotic Syndrome." BioMed Research International 2018 (May 30, 2018): 1–9. http://dx.doi.org/10.1155/2018/4386438.
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Background. This study aimed to investigate the clinical significance of complement 3 (C3) deposition in renal tubules of children with primary nephrotic syndrome (PNS). Methods. The clinical and pathological characteristics of PNS were retrospectively reviewed in 99 PNS pediatric patients, who were divided into the C3 deposition and the non-C3 deposition groups. Results. A total of 39 patients (39.39%) had renal tubule C3 deposition. In the C3 deposition group, the ratios of urine N-acetylglucosaminidase/creatinine (UNAG/Cr), urine β2 microglobulin/creatinine (Uβ2MG/Cr), and urine transferrin/creatinine (UTRF/Cr) were significantly higher than those of the non-C3 deposition group. The patients of the C3 deposition group had lower serum total protein and albumin, higher cholesterol and D-dimer (DD), lower proportion of CD3+CD8+ cells, and higher proportion of CD19+CD23+ cells. The number of the patients with interstitial fibrosis, renal cell vacuolar degeneration, renal tubular immunoglobulin deposition, and severe tubulointerstitial injury in the C3 deposition group was higher than that of the non-C3 deposition group. The C3 deposition intensity was positively correlated with the number of recurrences. Conclusion. PNS pediatric patients with C3 deposition in renal tubules have more severe disease condition, tubulointerstitial injury, and recurrence suggesting a worse long-term prognosis.
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Zhang, Mason X., Tristan T. Brandhorst, Thomas R. Kozel, and Bruce S. Klein. "Role of Glucan and Surface Protein BAD1 in Complement Activation by Blastomyces dermatitidisYeast." Infection and Immunity 69, no. 12 (December 1, 2001): 7559–64. http://dx.doi.org/10.1128/iai.69.12.7559-7564.2001.
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ABSTRACT Our previous studies showed that Blastomyces dermatitidis yeast activates the human complement system, leading to deposition of opsonic complement fragments onto the yeast surface. This report examines the influence of altered surface expression of glucan or BAD1 protein (formerly WI-1) on the yeast's ability to activate and bind C3. Compared to the wild type, a glucan-deficient mutant yeast delayed initiation of C3 deposition and reduced C3-binding capacity by 50%. Linkage of baker's-yeast β-glucan to the glucan-deficient yeast restored initial C3 deposition kinetics to the wild-type level and partially restored C3-binding capacity, suggesting that β-glucan is an initiator of complement activation and a C3 acceptor. The role of BAD1 in B. dermatitidis yeast-complement interaction was also assessed.BAD1 knockout yeast initiated faster C3 deposition and increased C3-binding capacity compared to the wild-type yeast or aBAD1-reconstituted yeast, suggesting either a lack of an intrinsic ability in BAD1 or an inhibitory role of BAD1 in complement activation and binding. However, both complement activation and the capacity for C3 binding by the wild-type yeast were enhanced in normal human serum supplemented with an anti-BAD1 monoclonal antibody (MAb) or in immune sera from blastomycosis patients. Microscopic analysis revealed that more initial C3-binding sites were formed on yeast in the presence of both naturally occurring complement initiators and exogenous anti-BAD1 MAb, suggesting that anti-BAD1 antibody enhanced the ability of B. dermatitidis yeast to interact with the host complement system. Thus, glucan and BAD1 have distinctly different regulatory effects on complement activation by B. dermatitidis.
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Ren, Bing, Alexander J. Szalai, Susan K. Hollingshead, and David E. Briles. "Effects of PspA and Antibodies to PspA on Activation and Deposition of Complement on the Pneumococcal Surface." Infection and Immunity 72, no. 1 (January 2004): 114–22. http://dx.doi.org/10.1128/iai.72.1.114-122.2004.
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ABSTRACT Streptococcus pneumoniae infection is a frequent cause of pneumonia, otitis media, meningitis, and septicemia. Pneumococcal surface protein A (PspA) is an important virulence factor on the pathogen surface, and it is known to interfere with complement activation. In this study, flow cytometry was used to study the effects of PspA and antibodies to PspA on the deposition of complement C3 on the surface of a capsular type 3 strain, WU2, and its PspA− mutant, JY1119. Using naive mouse serum as a complement source, measurable deposition of C3 was observed within 4 min on PspA− pneumococci, and the amount of surface-bound C3 accumulated rapidly as the amount of serum was increased. In contrast, very little C3 was deposited on the PspA+ strain. In nonimmune mouse serum, the classical pathway was the dominant activation pathway triggered by PspA− pneumococci. Accordingly, EGTA blocked almost all of the complement activation. Moreover, a significant amount of C3 was still deposited on the PspA− strain when serum from factor B-deficient mice was used. This deposition was not observed on the PspA+ pneumococci, indicating that PspA may inhibit complement deposition via the classical pathway. Furthermore, under the conditions we tested, PspA also inhibited C3 deposition when the classical pathway was initiated by antibodies to capsular polysaccharide. Antibodies to PspA could overcome the anticomplementary effect of PspA, allowing for increased complement activation and C3 deposition onto PspA+ bacteria.
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Park, Seohyun, Hyung Woo Kim, Jung Tak Park, Tae Ik Chang, Ea Wha Kang, Dong-Ryeol Ryu, Tae-Hyun Yoo, et al. "Relationship between complement deposition and the Oxford classification score and their combined effects on renal outcome in immunoglobulin A nephropathy." Nephrology Dialysis Transplantation 35, no. 12 (August 3, 2019): 2103–37. http://dx.doi.org/10.1093/ndt/gfz161.
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Abstract Background Complement activation has been highlighted in immunoglobulin (Ig) A nephropathy pathogenesis. However, whether the complement system can affect the downstream phenotype of IgA nephropathy remains unknown. Herein, we investigated the association of mesangial C3 deposition with the Oxford classification and their joint effects on worsening kidney function. Methods We investigated 453 patients with biopsy-proven IgA nephropathy. C3 deposition was defined as an immunofluorescence intensity of C3 ≥2+ within the mesangium. The subjects were classified according to the combination of C3 deposition and Oxford classification lesions. The primary endpoint was a composite of ≥30% decline in the estimated glomerular filtration rate or an increase in proteinuria ≥3.5 g/g during follow-up. Results Among the Oxford classification lesions, mesangial hypercellularity (M1), segmental glomerulosclerosis (S1) and tubulointerstitial fibrosis (T1–2) and crescentic lesion significantly correlated with C3 deposition. During a median follow-up of 33.0 months, the primary endpoint occurred more in patients with M1, S1, T1–2 and mesangial C3 deposition than in those without. In individual multivariable-adjusted Cox analyses, the presence of M1, S1, T1–2 and C3 deposition was significantly associated with higher risk of reaching primary endpoint. In the combined analyses of C3 deposition and the Oxford classification lesions, the hazard ratios for the composite outcome were significantly higher in the presence of C3/M1, C3/S1 and C3/crescent than in the presence of each lesion alone. Conclusions Complement deposition can strengthen the significance of the Oxford classification, and the presence of both components portends a poorer prognosis in IgA nephropathy.
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Ståhl, Anne-lie, Fariba Vaziri-Sani, Stefan Heinen, Ann-Charlotte Kristoffersson, Karl-Henrik Gydell, Reem Raafat, Alberto Gutierrez, Ortraud Beringer, Peter F. Zipfel, and Diana Karpman. "Factor H dysfunction in patients with atypical hemolytic uremic syndrome contributes to complement deposition on platelets and their activation." Blood 111, no. 11 (June 1, 2008): 5307–15. http://dx.doi.org/10.1182/blood-2007-08-106153.
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AbstractAtypical hemolytic uremic syndrome (aHUS) may be associated with mutations in the C-terminal of factor H (FH). FH binds to platelets via the C-terminal as previously shown using a construct consisting of short consensus repeats (SCRs) 15 to 20. A total of 4 FH mutations, in SCR15 (C870R) and SCR20 (V1168E, E1198K, and E1198Stop) in patients with aHUS, were studied regarding their ability to allow complement activation on platelet surfaces. Purified FH-E1198Stop mutant exhibited reduced binding to normal washed platelets compared with normal FH, detected by flow cytometry. Washed platelets taken from the 4 patients with aHUS during remission exhibited C3 and C9 deposition, as well as CD40-ligand (CD40L) expression indicating platelet activation. Combining patient serum/plasma with normal washed platelets led to C3 and C9 deposition, CD40L and CD62P expression, aggregate formation, and generation of tissue factor-expressing microparticles. Complement deposition and platelet activation were reduced when normal FH was preincubated with platelets and were minimal when using normal serum. The purified FH-E1198Stop mutant added to FH-deficient plasma (complemented with C3) allowed considerable C3 deposition on washed platelets, in comparison to normal FH. In summary, mutated FH enables complement activation on the surface of platelets and their activation, which may contribute to the development of thrombocytopenia in aHUS.
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Blok, Vanessa T., Mohamed R. Daha, Odette Tijsma, Claire L. Harris, B. Paul Morgan, Gert Jan Fleuren, and Arko Gorter. "A Bispecific Monoclonal Antibody Directed Against Both the Membrane-Bound Complement Regulator CD55 and the Renal Tumor-Associated Antigen G250 Enhances C3 Deposition and Tumor Cell Lysis by Complement." Journal of Immunology 160, no. 7 (April 1, 1998): 3437–43. http://dx.doi.org/10.4049/jimmunol.160.7.3437.
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Abstract Tumor cells may inhibit the induction of a complement-mediated inflammatory response through overexpression of membrane-bound regulators of complement activation. Therefore, it is of interest to determine the most efficient approach to block these membrane-bound complement regulators on tumor cells. In the present study, we first generated a bispecific mAb directed against both CD55, using the functional blocking mAb MBC1, and the highly expressed HLA class I molecule as a model for a tumor-associated Ag, using the mAb W6/32. Tumor cells opsonized with bispecific mAb W6/32*MBC1, then exposed to complement and subsequently stained for C3 deposition, were assessed by flow cytometric analysis. We found that opsonization with W6/32*MBC1 resulted in a 92% enhancement of C3 deposition on renal tumor cells as compared with opsonization with W6/32 alone and a 17% enhancement of the C3 deposition as compared with incubation with a mixture of both parental mAb. Based on these results, we developed a bispecific mAb recognizing both CD55 and the relatively low expressed renal tumor-associated Ag G250. Increasing concentrations of the bispecific mAb G250*MBC1 resulted in a 25 to 400% increase in C3 deposition on renal tumor cells as compared with C3 deposition in the presence of the parental mAb G250 alone. G250*MBC1 enhanced C3 deposition by 21% in comparison with a mixture of both parentals. Furthermore, opsonization of tumor cells with G250*MBC1 rendered these cells more sensitive to complement-mediated lysis. In conclusion, the bispecific mAb G250*MBC1 induces deposition of C3 and tumor cell lysis more efficiently than G250 alone.
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Gates, Marcellene A., and Thomas R. Kozel. "Differential Localization of Complement Component 3 within the Capsular Matrix of Cryptococcus neoformans." Infection and Immunity 74, no. 6 (June 2006): 3096–106. http://dx.doi.org/10.1128/iai.01213-05.
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ABSTRACT The polysaccharide capsule of Cryptococcus neoformans is a powerful activator of the complement system. The goal of the present study was to assess serum and cellular variables that influence the sites for C3 binding within the capsular matrix. Confocal microscopy using fluorophore-labeled polyclonal anti-C3 and anticapsular monoclonal antibodies and rosetting of fluorescent microspheres coated with anti-C3 were used to identify sites of C3 binding relative to the capsular edge. The results showed that the source of serum was a major variable influencing localization of C3. C3 bound at or very near the capsular edge in the case of human serum. C3 deposition was further from the capsule edge with guinea pig and rat sera; in the case of mouse serum, there was no binding of C3 in the outer region of the capsule. Addition of human C3 to mouse serum led to deposition of the C3 at the capsular edge, indicating that distinct properties of mouse and human C3 account for the differential localization of C3. Finally, the density of the capsular matrix was an important variable in determining sites for C3 deposition. Yeast cells with a high concentration of polysaccharide near the capsule edge supported deposition of mouse C3 at or near the capsular edge, whereas cells with a low matrix density showed deposition well beneath the edge. Taken together, these results indicate that the spatial deposition of C3 within the capsular matrix is a complex process that is influenced by the serum source and the density of the capsular matrix.
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Wozencraft, A. O., G. Sayers, and J. M. Blackwell. "Macrophage type 3 complement receptors mediate serum-independent binding of Leishmania donovani. Detection of macrophage-derived complement on the parasite surface by immunoelectron microscopy." Journal of Experimental Medicine 164, no. 4 (October 1, 1986): 1332–37. http://dx.doi.org/10.1084/jem.164.4.1332.
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In this study, direct visual evidence for local opsonization of L. donovani by macrophage (M phi)-derived complement components was obtained using immunoelectron microscopy. C3 deposition was detected on the surface of both promastigotes and amastigotes after 20 min serum-free incubation with murine resident peritoneal M phi (RPM), followed by fixation and incubation first with specific antibody directed against C3 and then with gold-labelled protein A. Gold deposition was not observed around either form of the parasite if the anti-C3 antibody was omitted. For promastigotes, the degree of C3 deposition under serum-free conditions was comparable with that observed in the presence of an exogenous (serum) source of C3, but did not result in the same severe damage to the parasite as did the latter. Addition of sodium salicyl hydroxamate, which prevents covalent binding of C3 to activator surfaces, abrogated promastigote binding. Hence, although the anti-C3 antibody did not distinguish between native C3 and its breakdown product iC3b, these data support our earlier conclusion that promastigote binding to the CR3 of murine RPM is complement dependent. For amastigotes, gold deposition and binding to murine RPM were not eliminated by sodium salicyl hydroxamate. The presence of normal mouse serum resulted in increased gold deposition, but did not mediate either enhanced binding to M phi or damage to the amastigote. These data suggest that a proportion of C3 binding to the amastigote surface may be via noncovalent linkages, and that the C3 bound may not be in the correct form to mediate binding to CR3.
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Cook, H. Terence. "C3 glomerulopathy." F1000Research 6 (March 10, 2017): 248. http://dx.doi.org/10.12688/f1000research.10364.1.
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C3 glomerulopathy is a recently defined entity that encompasses a group of kidney diseases caused by abnormal control of complement activation with deposition of complement component C3 in glomeruli leading to variable glomerular inflammation. Before the recognition of the unique pathogenesis of these cases, they were variably classified according to their morphological features. C3 glomerulopathy accounts for roughly 1% of all renal biopsies. Clear definition of this entity has allowed a better understanding of its pathogenesis and clinical course and is likely to lead to the design of rational therapies over the next few years.
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Hindmarsh, Elizabeth J., and Rory M. Marks. "Complement Activation Occurs on Subendothelial Extracellular Matrix In Vitro and Is Initiated by Retraction or Removal of Overlying Endothelial Cells." Journal of Immunology 160, no. 12 (June 15, 1998): 6128–36. http://dx.doi.org/10.4049/jimmunol.160.12.6128.
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Abstract Vascular endothelium is continuously exposed to plasma complement, which could generate a potent proinflammatory signal if activated on the vascular wall. Normal endothelium, however, expresses an anti-inflammatory phenotype, which includes resistance to complement fixation. As activated endothelium converts to a proinflammatory phenotype, we investigated the effect of cytokines on endothelial susceptibility to complement fixation. Cytokine-treated HUVEC were exposed to human serum as a source of complement, and C3 deposition was quantified. IL-1β and TNF-α in combination with IFN-γ markedly increased endothelial C3 deposition; however, immunofluorescence microscopy revealed that the endothelial cells had retracted, and that bound C3 was concentrated not on cells but in areas of exposed subendothelial extracellular matrix (ECM). Studies with cell-free ECM indicated that complement activation required only ECM exposure and was independent of cellular activation. C3 deposition on ECM was reproduced by reconstituting the alternative pathway, which generated a stable C3 convertase on ECM, but not on endothelial cells. C3b and iC3b were identified on ECM exposed to purified alternative pathway components and serum, respectively. In conditions associated with endothelial disruption, exposure of subendothelial ECM could induce complement fixation and contribute to inflammation and vascular damage.
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Heeringa, Saskia F., and Clemens D. Cohen. "Kidney Diseases Caused by Complement Dysregulation: Acquired, Inherited, and Still More to Come." Clinical and Developmental Immunology 2012 (2012): 1–6. http://dx.doi.org/10.1155/2012/695131.
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Inherited and acquired dysregulation of the complement alternative pathway plays an important role in multiple renal diseases. In recent years, the identification of disease-causing mutations and genetic variants in complement regulatory proteins has contributed significantly to our knowledge of the pathogenesis of complement associated glomerulopathies. In these diseases defective complement control leading to the deposition of activated complement products plays a key role. Consequently, complement-related glomerulopathies characterized by glomerular complement component 3 (C3) deposition in the absence of local immunoglobulin deposits are now collectively described by the term “C3 glomerulopathies.” Therapeutic strategies for reestablishing complement regulation by either complement blockade with the anti-C5 monoclonal antibody eculizumab or plasma substitution have been successful in several cases of C3 glomerulopathies. However, further elucidation of the underlying defects in the alternative complement pathway is awaited to develop pathogenesis-specific therapies.
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Skuk, Daniel, and Jacques P. Tremblay. "Complement Deposition and Cell Death after Myoblast Transplantation." Cell Transplantation 7, no. 5 (September 1998): 427–34. http://dx.doi.org/10.1177/096368979800700501.
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One of the problems limiting myoblast transplantation (MT) is the early death of the transplanted cells. Because complement can be fixed by myoblasts in vitro, and because it has the capacity to induce cell lysis, its possible role in the early death of transplanted myoblasts was investigated. CD1 mice and Macaca mulata monkeys were used as recipients for MT. In some mice, C3 was depleted before MT using Cobra Venom Factor. Mice were sacrificed during the first hour and up to 3 days after MT. Monkeys were biopsied 1 to 4 h after MT. Myoblast necrosis was assessed by the presence of intracellular calcium. Complement deposition was demonstrated by immunohistochemistry with anti-C3 and anti-C5b-9 neoantigen antibodies. In mice, C3 deposition was observed in damaged muscle fibers and in regions containing necrosed myoblasts. Complement depletion did not diminish the proportion of necrosed cells. In monkeys, only a small percentage of transplanted myoblasts showed C3 or C5b-9 deposition, mostly intracellular. Complement activation seems not to be implicated in directly damaging the transplanted cells, but seems secondary to cellular death. Taking into account its chemotactic functions, complement could be implicated in the migration of neutrophils and macrophages into the clusters of transplanted cells. © 1998 Elsevier Science Inc.
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Sabharwal, Vishakha, Sanjay Ram, Marisol Figueira, In Ho Park, and Stephen I. Pelton. "Role of Complement in Host Defense against Pneumococcal Otitis Media." Infection and Immunity 77, no. 3 (January 12, 2009): 1121–27. http://dx.doi.org/10.1128/iai.01148-08.
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ABSTRACT Strategies to limit complement deposition on Streptococcus pneumoniae are established as virulence features for invasive disease, but their role in respiratory tract infection requires further analysis. We evaluated complement C3 protein deposition on discordant S. pneumoniae isolates of the same serotype (6A) and their capacity to cause nasopharyngeal (NP) colonization and experimental otitis media (EOM) in an animal model. We compared C3 binding to five 6A isolates from asymptomatic NP carriers with five 6A strains that caused invasive disease, and we observed less C3 (∼10-fold less fluorescence) binding to invasive isolates. We selected two high-level C3-binding carriage and two low-level C3-binding invasive 6A isolates for further study. In the EOM model, 11/12 (92%) ears challenged with a low-level C3-binding 6A strain became infected. Only 2/8 (25%) ears challenged with the discordant high-level C3-binding 6A isolate developed disease (P = 0.005). Results with the second discordant 6A isolate pair were comparable. Cobra venom factor (CoVF) treatment, which depletes C3 and consumes complement, restored virulence of the high-level C3-binding strain; 8/8 (100%) ears in CoVF-treated animals developed EOM compared to only 25% of ears in naïve animals (P = 0.007). These studies demonstrate the critical role for complement evasion in pneumococcal EOM. Colonization with carriage isolates that bound high levels of C3 caused EOM in fewer animals compared to low-level C3-binding invasive strains. Thus, limiting C3 deposition on the surface of S. pneumoniae correlates with increased incidence of EOM following NP colonization and barotrauma in the animal model.
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Taylor, Ronald P., Andrew W. Pawluczkowycz, Margaret A. Lindorfer, and John W. Waitumbi. "Hematin Promotes Complement Alternative Pathway-Mediated Deposition of C3 Activation Fragments on Human Erythrocytes: Potential Implications for the Pathogenesis of Anemia in Malaria." Blood 110, no. 11 (November 16, 2007): 839. http://dx.doi.org/10.1182/blood.v110.11.839.839.
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Abstract Childhood malaria caused by Plasmodium falciparum (pf) is often characterized by severe anemia at low parasite burdens; the mechanism(s) responsible for this pathology remain to be defined. We have reported that erythrocyte (E) CR1, the immune adherence receptor specific for C3b, is reduced during anemia in childhood malaria, suggesting a possible role for complement in E destruction. Intravascular lysis of infected E by pf leads to release of E breakdown products hemoglobin and hematin, which have inflammatory properties. Free hematin can bind to E, and we find that in serum and in whole blood anti-coagulated with lepirudin, moderate concentrations of hematin activate the alternative pathway of complement and promote deposition of C3 activation and breakdown products on E. We documented C3 deposition by flow cytometry, and additional fluorescence microscopy studies revealed that most of the deposited C3 fragments are located in close juxtaposition to CR1. Western blots confirmed that the C3 fragments are indeed covalently bound to the E, and immunoprecipitation experiments indicated that a fraction of the deposited C3 is covalently bound to CR1. The degree of C3 fragment deposition is directly correlated with E CR1 levels, both within a given donor’s E population and when E from different donors are compared. E opsonized with complement in the presence of hematin form rosettes with Raji cells, through interaction with CR2, the C3dg receptor expressed on several types of B cells including splenic marginal zone B cells. Thus, hematin-mediated complement activation and C3 fragment deposition on E may promote accelerated splenic (or liver) clearance of the youngest E, which have the most CR1, leading to sudden onset of anemia along with reduction of mean CR1 on surviving E. A monoclonal antibody specific for C3b, mAb 3E7, previously demonstrated to inhibit the alternative pathway of complement, completely blocks the C3 fragment deposition reaction. Use of this monoclonal antibody in non-human primate models of malaria may provide insight into mechanisms of erythrocyte destruction and thus aid in the development of therapies based on inhibiting the alternative pathway of complement.
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Bjornson, A. B., P. I. Magnafichi, R. D. Schreiber, and H. S. Bjornson. "Opsonization of bacteroides by the alternative complement pathway reconstructed from isolated plasma proteins." Journal of Experimental Medicine 165, no. 3 (March 1, 1987): 777–98. http://dx.doi.org/10.1084/jem.165.3.777.
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Opsonization of clinical isolates of B. fragilis and B. thetaiotaomicron with the six isolated proteins of the alternative complement pathway under physiological conditions resulted in considerable C3 deposition on the bacterial surfaces. The time course of C3 deposition was similar to that observed in EGTA-serum; however, the magnitude of C3 deposition was twofold greater in EGTA-serum. Opsonization of the bacteria with the isolated alternative pathway proteins failed to promote adherence, uptake, or killing by polymorphonuclear leukocytes, whereas opsonization of the bacteria with EGTA-serum facilitated these events. The difference in opsonic capacity of isolated proteins and EGTA-serum was not related to the quantitative difference in C3 deposition, because repeated opsonization of the bacteria with isolated proteins resulting in C3 deposition comparable to that observed in EGTA-serum only minimally increased adherence of the bacteria to polymorphonuclear leukocytes. SDS-PAGE and autoradiographic analysis of C3 extracted from bacteria opsonized with isolated proteins or EGTA-serum using methylamine and SDS demonstrated that the predominant form of C3 bound by ester bonds under both sets of conditions was iC3b. A low molecular weight C3 cleavage fragment was detected in extracts from bacteria opsonized with isolated proteins, but it accounted for only a minor fraction of the bound C3. The results of our study demonstrate that the early phase of opsonization involving activation of the alternative pathway by B. fragilis and B. thetaiotaomicron and resultant C3 deposition on the bacterial surfaces does not require auxiliary serum factors, but the effector phase of opsonization of these bacteria involving recognition of bacteria-bound C3 by polymorphonuclear leukocytes and the induction of phagocytosis and intracellular killing is dependent on such factors. Natural IgM antibodies serve as auxiliary factors is opsonization of B. thetaiotaomicron by the alternative pathway, whereas additional serum factors are required for alternative pathway-mediated opsonization of B. fragilis.
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Ständer, Sascha, Maike M. Holtsche, Enno Schmidt, Christoph M. Hammers, Detlef Zillikens, Ralf J. Ludwig, and Khalaf Kridin. "Presence of Cutaneous Complement Deposition Distinguishes between Immunological and Histological Features of Bullous Pemphigoid—Insights from a Retrospective Cohort Study." Journal of Clinical Medicine 9, no. 12 (December 3, 2020): 3928. http://dx.doi.org/10.3390/jcm9123928.
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The practical implications of complement deposition in direct immunofluorescence (DIF) microscopy and its influence on the disease phenotype are poorly understood. We aimed to investigate whether the presence of complement deposition in DIF microscopy gives rise to differences in the morphological, immunological, and histological characteristics of patients with BP (bullous pemphigoid). We performed a retrospective study encompassing patients with BP in a specialized tertiary referral center. Logistic regression model was utilized to identify variables independently associated with complement deposition. The study included 233 patients with BP, of whom 196 (84.1%) demonstrated linear C3 deposition along the dermal-epidermal junction (DEJ) in DIF analysis. BP patients with C3 deposition had higher mean (SD) levels (645.2 (1418.5) vs. 172.5 (243.9) U/mL; p < 0.001) and seropositivity rate (86.3% vs.64.9%; p = 0.002) of anti-BP180 NC16A and less prevalent neutrophilic infiltrate in lesional skin specimens (29.8% vs. 52.4%; p = 0.041). C3 deposition was found positively associated with the detection of anti-BP180 NC16A autoantibodies (OR, 4.25; 95% CI, 1.38–13.05) and inversely associated with the presence of neutrophils in lesional skin (OR, 3.03; 95% CI, 1.09–8.33). To conclude, complement deposition influences the immunological and histological features of BP. These findings are in line with experimental data describing the pathogenic role of complement in BP.
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Ohishi, K., M. Kanoh, H. Shinomiya, Y. Hitsumoto, and S. Utsumi. "Complement activation by cross-linked B cell-membrane IgM." Journal of Immunology 154, no. 7 (April 1, 1995): 3173–79. http://dx.doi.org/10.4049/jimmunol.154.7.3173.
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Abstract The B cell membrane IgM (mIgM) occurs in a monomeric form incapable of activating C. However, when cross-linked by a polyvalent ligand, mIgM may activate C by assuming a polymeric structure like secreted IgM. This possibility was tested with CR2- lymphoma cells, which did not activate C spontaneously. When CR2-deficient mIgM(lambda)+ Ramos cells were treated with F(ab')2 goat anti-lambda, then exposed to human serum, a marked C3 deposition took place, as examined by the flow cytometry. Similarly, C3 deposition on mIgM(kappa)+, mIgD(kappa)+ P32 cells was induced by F(ab')2 of either anti-kappa or anti-mu. Anti-delta was without effect, but the C3 deposition resulting from anti-kappa was markedly enhanced after mIgD was modulated by anti-delta. The mIgM-cross-linked cells bound C1q, and C3 deposition on these cells was abrogated by depletion of C1q, but not Factor B nor D, from serum. The C1-binding step of the mIgM-mediated C activation was inhibited by monomeric Fab' of polyclonal anti-mu containing a blocking Ab to the hemolytic activity of human IgM Forssman Ab. A large proportion of C3 deposits on mIgM-cross-linked cells was found to be associated with mIgM in the form of C3dg or C3d. These results demonstrate that cross-linked mIgM indeed triggers the classical pathway of C.
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Malik, Talat H., Daniel P. Gitterman, Deborah P. Lavin, Hannah J. Lomax-Browne, E. Christina Hiemeyer, Linda B. Moran, Katharina Boroviak, et al. "Gain-of-function factor H–related 5 protein impairs glomerular complement regulation resulting in kidney damage." Proceedings of the National Academy of Sciences 118, no. 13 (March 22, 2021): e2022722118. http://dx.doi.org/10.1073/pnas.2022722118.
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Genetic variation within the factor H–related (FHR) genes is associated with the complement-mediated kidney disease, C3 glomerulopathy (C3G). There is no definitive treatment for C3G, and a significant proportion of patients develop end-stage renal disease. The prototypical example is CFHR5 nephropathy, through which an internal duplication within a single CFHR5 gene generates a mutant FHR5 protein (FHR5mut) that leads to accumulation of complement C3 within glomeruli. To elucidate how abnormal FHR proteins cause C3G, we modeled CFHR5 nephropathy in mice. Animals lacking the murine factor H (FH) and FHR proteins, but coexpressing human FH and FHR5mut (hFH-FHR5mut), developed glomerular C3 deposition, whereas mice coexpressing human FH with the normal FHR5 protein (hFH-FHR5) did not. Like in patients, the FHR5mut had a dominant gain-of-function effect, and when administered in hFH-FHR5 mice, it triggered C3 deposition. Importantly, adeno-associated virus vector-delivered homodimeric mini-FH, a molecule with superior surface C3 binding compared to FH, reduced glomerular C3 deposition in the presence of the FHR5mut. Our data demonstrate that FHR5mut causes C3G by disrupting the homeostatic regulation of complement within the kidney and is directly pathogenic in C3G. These results support the use of FH-derived molecules with enhanced C3 binding for treating C3G associated with abnormal FHR proteins. They also suggest that targeting FHR5 represents a way to treat complement-mediated kidney injury.
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Rosas, Á L., R. S. MacGill, J. D. Nosanchuk, T. R. Kozel, and A. Casadevall. "Activation of the Alternative Complement Pathway by Fungal Melanins." Clinical and Vaccine Immunology 9, no. 1 (January 2002): 144–48. http://dx.doi.org/10.1128/cdli.9.1.144-148.2002.
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ABSTRACT Melanins are complex biological pigments formed by the oxidative polymerization of phenolic and/or indolic compounds. These pigments have been implicated in the pathogenesis of some microbial infections, malignancies, degenerative disorders, and autoimmune diseases. Recent studies have demonstrated that melanins have antigenic and anti-inflammatory properties. These findings led us to further explore the interaction of melanins with the immune system. Melanin particles (“ghosts”) were isolated from in vitro-melanized Cryptococcus neoformans cells and Aspergillus niger conidia and then incubated in normal human serum containing 125I-labeled complement C3. The results demonstrated deposition of C3 fragments onto the melanin ghosts as early as 1 min after incubation, with maximum deposition occurring after 12 min for C. neoformans-derived melanin ghosts and after 25 min for A. niger-derived melanin ghosts. The blocking of classical pathway activation did not affect the kinetics or total deposition of C3 onto the melanin ghosts, indicating that melanins activate complement through the alternative pathway. Immunofluorescence analysis of lungs from BALB/c mice injected intratracheally with C. neoformans-derived melanin ghosts demonstrated deposition of C3 fragments onto the ghosts. Small granulomas were also observed surrounding the ghosts. However, melanization of the C. neoformans cell wall did not alter the kinetics or total deposition of C3 fragments onto the fungal cells. The finding that melanin surfaces can activate the complement system suggests a potential mechanism for the pathogenesis of some degenerative and/or autoimmune processes that involve melanized cells as well as another potential role for melanin in the virulence of melanin-producing microorganisms.
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Tofferi, J., S. Peng, and C. M. Moratz. "C3b-Independent Complement Activation in Ischemia/Reperfusion Mesenteric Tissue Injury in Autoimmune Prone (B6.MRL/lpr) Mice." ISRN Immunology 2012 (September 16, 2012): 1–9. http://dx.doi.org/10.5402/2012/702858.
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Complement plays a critical role in the development of tissue injury in systemic lupus erythematosus. The B6.MRL/lpr mouse, an autoimmune prone mouse, exhibits accelerated and intensified tissue injury in the ischemia/reperfusion (IR) model. It has been demonstrated in nonautoimmune mice that inhibition of complement attenuates inflammatory tissue injury in IR models. The role of complement is not as clear in the B6.MRL/lpr strain. B6.MRL/lpr-C3 deficient animals are susceptible to injury, but long-term use of C3 inhibitors in B6.MRL/lpr-C3 competent animals restrained the development of nephritis. To clarify the role of complement in the B6.MRL/lpr strain, initial and midpathway inhibitors were evaluated. C1 inhibition attenuated tissue injury, thrombin deposition, and C5a generation in the B6.MRL/lpr strain. Downstream of C1 inhibition of C3 activation by administration of cobra venom factor suppressed IR injury in immune competent mice, but was not as effective in B6.MRL/lpr mice. C3 levels in both strains were decreased after cobra venom factor treatment; however, C5a generation, thrombin deposition, and tissue injury were observed in the B6.MRL/lpr strain. These studies suggest that in the B6.MRL/lpr autoimmune prone strain C1 activation leads to C3-dependent and C3-independent pathways of complement activation.
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Mener, Amanda, Connie M. Arthur, Seema R. Patel, and Sean R. Stowell. "C3 Modulates RBC Antigen to Negatively Regulate Antibody Response." Blood 128, no. 22 (December 2, 2016): 22. http://dx.doi.org/10.1182/blood.v128.22.22.22.
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Abstract Background:Red blood cell (RBC) transfusion can result in the development of alloantibodies that can make it difficult to find compatible RBCs for future transfusions and increase the risk of hemolytic transfusion reactions. Despite the consequences of RBC alloimmunization, the factors that regulate this process remain relatively unknown. Recent studies suggest that complement deposition on an antigen surface can significantly enhance the immune response to foreign antigen. As many anti-RBC alloantibodies fix complement and RBCs otherwise lack known adjuvants, early antibody-mediated complement deposition may serve as a key regulator that enhances antibody production. To test this, we employed the KEL RBC model system, which employs RBCs that transgenically express the human KEL antigen specifically on RBCs (KEL RBCs). Using this system, we examined the immunological consequence of KEL RBC exposure following transfusion into C57BL/6 wild-type (WT) or complement component 3 (C3) knockout (KO) recipients. Methods: KEL RBCs were transfused into WT or C3 KO recipients, followed by serum collection on days 3, 5, 7, 14, and 21 post-transfusion. Antibody development in WT or C3 KO recipients was examined by flow crossmatch, where serum was incubated with KEL RBCs followed by antibody detection with fluorescently-tagged secondary anti-IgM and anti-IgG antibodies using flow cytometry. To determine the impact of complement deposition on the level of detectable antigen on the RBC surface, RBCs were labeled with the lipophilic dye, DiI, prior to transfusion and then sampled 1, 2, 3, 5, 7 and 9 days post-transfusion. The level of detectable KEL antigen, complement deposition, KEL RBC survival and antibody bound to the RBC surface was measured by flow cytometry. To examine the effect of complement deposition on the level of KEL protein in the RBC membrane post-transfusion, RBCs stroma was isolated at various time points post transfusion, followed by western blot analysis for the KEL protein. Results: While KEL RBCs induced robust anti-KEL antibody formation and C3 deposition in WT recipients, similar exposure to KEL RBCs in C3 KO recipients actually resulted in an unexpected increase in IgM and IgG anti-KEL antibodies when compared to WT recipients. To determine the consequence of C3 deposition, we examined the potential impact of antibody engagement and complement fixation on KEL antigen levels. Consistent with a potential role for complement in directly impacting KEL antigen availability to the immune system, KEL RBCs transferred into WT recipients experienced a decrease in the level of detectable KEL antigen over time that paralleled the development of anti-KEL antibodies and C3 deposition. In contrast, C3 KO recipients failed to experience the same degree of KEL antigen reduction despite the development of significant anti-KEL antibodies over this same time period. Western blot analysis of RBCs post-transfusion revealed that loss of detectable KEL antigen on the RBC surface paralleled a complete lack of detectable KEL antigen in RBC membranes, indicating that C3 may actually facilitate the removal of KEL from the RBC surface. Conclusion: These results suggest an unexpected role for C3 in negatively regulating antibody responses following RBC transfusion. The impact of C3 on the developing alloantibody response strongly suggests that C3-mediated loss of antigen over time likely reduces antigen availability to the immune system, thereby facilitating the inhibition of antibody production over time. These results not only provide novel insight into potential impact of antigen modulation on the development of an immune response to a RBC alloantigen, but also suggest a completely unexpected role for complement in negatively regulating alloantibody production. In doing so, these results suggest that unique differences in complement activity and overall activation following RBC alloantigen exposure between individuals may represent a previously unrecognized factor that influences alloantibody formation following RBC transfusion. Disclosures No relevant conflicts of interest to declare.
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Melin, Merit, Krzysztof Trzciński, Seppo Meri, Helena Käyhty, and Merja Väkeväinen. "The Capsular Serotype of Streptococcus pneumoniae Is More Important than the Genetic Background for Resistance to Complement." Infection and Immunity 78, no. 12 (September 20, 2010): 5262–70. http://dx.doi.org/10.1128/iai.00740-10.
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ABSTRACT The polysaccharide capsule of Streptococcus pneumoniae inhibits phagocytic killing by innate immune mechanisms. Certain serotypes are associated with invasive disease while others with a nasopharyngeal carriage. The invasiveness of serotypes may partly be explained by ability to resist deposition of complement (C3) on the bacterial surface and consequent opsonophagocytic killing. In our previous studies, we observed that clinical isolates of serotypes 1 and 5, which are rarely detected in asymptomatic carriage, were resistant to complement deposition and opsonophagocytosis, whereas serotypes 6B and 23F, both common in carriage, were more sensitive to deposition of C3 and opsonophagocytic killing. However, presence of significant variation in C3 deposition between isolates of the same serotype indicated that factors other than the capsule also affect complement resistance. To distinguish the relative effect of the capsular serotype and other virulence factors on C3 deposition, we compared capsule-switched mutants prepared in genetic backgrounds of pneumococcal strains TIGR4, 603, and 618. Clinical isolates which had the same multilocus sequence type but expressed different serotypes were also compared. We found that the serotype had a significant impact on complement resistance and that the more resistant the strain was to complement, the higher was the concentration of polysaccharide-specific antibodies required for opsonophagocytic killing. Comparison of strains expressing the same capsular polysaccharides in the different genetic backgrounds and various capsular mutants of the same strain suggests that while the genotype affects complement resistance, the serotype is the most important determinant. Differences between serotypes were more significant than the differences between strains.
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Domínguez, Mercedes, Inmaculada Moreno, Margarita López-Trascasa, and Alfredo Toraño. "Complement Interaction with Trypanosomatid Promastigotes in Normal Human Serum." Journal of Experimental Medicine 195, no. 4 (February 18, 2002): 451–59. http://dx.doi.org/10.1084/jem.20011319.
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In normal human serum (NHS), axenic promastigotes of Crithidia, Phytomonas, and Leishmania trigger complement activation, and from 1.2 to 1.8 × 105 C3 molecules are deposited per promastigote within 2.5 min. In Leishmania, promastigote C3 binding capacity remains constant during in vitro metacyclogenesis. C3 deposition on promastigotes activated through the classical complement pathway reaches a 50% maximum after ∼50 s, and represents >85% of total C3 bound. In C1q- and C2-deficient human sera, promastigotes cannot activate the classical pathway (CP) unless purified C1q or C2 factors, respectively, are supplemented, demonstrating a requirement for CP factor in promastigote C3 opsonization. NHS depleted of natural anti-Leishmania antibodies cannot trigger promastigote CP activation, but IgM addition restores C3 binding. Furthermore, Leishmania binds natural antibodies in ethylenediaminetetracetic acid (EDTA)-treated NHS; after EDTA removal, promastigote-bound IgM triggers C3 deposition in natural antibody-depleted NHS. Serum collectins and pentraxins thus do not participate significantly in NHS promastigote C3 opsonization. Real-time kinetic analysis of promastigote CP-mediated lysis indicates that between 85–95% of parasites are killed within 2.5 min of serum contact. These data indicate that successful Leishmania infection in man must immediately follow promastigote transmission, and that Leishmania evasion strategies are shaped by the selective pressure exerted by complement.
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Giacomin, Paul R., Hui Wang, David L. Gordon, Marina Botto, and Lindsay A. Dent. "Loss of Complement Activation and Leukocyte Adherence as Nippostrongylus brasiliensis Develops within the Murine Host." Infection and Immunity 73, no. 11 (November 2005): 7442–49. http://dx.doi.org/10.1128/iai.73.11.7442-7449.2005.
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ABSTRACTComplement activation and C3 deposition on the surface of parasitic helminths may be important for recruitment of leukocytes and for damage to the target organism via cell-mediated mechanisms. Inhibition of complement activation would therefore be advantageous to parasites, minimizing damage and enhancing migration through tissues. The aim of this study was to determine ex vivo if complement activation by, and leukocyte adherence to, the nematodeNippostrongylus brasiliensischange as the parasite matures and migrates through the murine host. Pathways of activation of complement and the mechanism of adherence of leukocytes were also defined using sera from mice genetically deficient in either C1q, factor B, C1q and factor B, C3, or C4. Substantive deposition of C3 and adherence of eosinophil-rich leukocytes were seen with infective-stage (L3) but not with lung-stage (L4) larvae. Adult intestinal worms had low to intermediate levels of both C3 and leukocyte binding. For L3 and adult worms, complement deposition was principally dependent on the alternative pathway. For lung-stage larvae, the small amount of C3 detected was dependent to similar degrees on both the lectin and alternative pathways. The classical pathway was not involved for any of the life stages of the parasite. These results suggest that in primary infections, the infective stage ofN. brasiliensisis vulnerable to complement-dependent attack by leukocytes. However, within the first 24 h of infection,N. brasiliensisacquires the ability to largely avoid complement-dependent immune responses.
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Chaikof, Elliot L., Edward W. Merrill, Allan D. Callow, Raymond J. Connolly, Sylvie L. Verdon, and Karen Ramberg. "PEO enhancement of platelet deposition, fibrinogen deposition, and complement C3 activation." Journal of Biomedical Materials Research 26, no. 9 (September 1992): 1163–68. http://dx.doi.org/10.1002/jbm.820260906.
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Roumenina, Lubka T., Mathieu Jablonski, Christophe Hue, Jacques Blouin, Jordan D. Dimitrov, Marie-Agnes Dragon-Durey, Mathieu Cayla, et al. "Hyperfunctional C3 convertase leads to complement deposition on endothelial cells and contributes to atypical hemolytic uremic syndrome." Blood 114, no. 13 (September 24, 2009): 2837–45. http://dx.doi.org/10.1182/blood-2009-01-197640.
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Abstract Complement is a major innate immune defense against pathogens, tightly regulated to prevent host tissue damage. Atypical hemolytic uremic syndrome (aHUS) is characterized by endothelial damage leading to renal failure and is highly associated with abnormal alternative pathway regulation. We characterized the functional consequences of 2 aHUS-associated mutations (D254G and K325N) in factor B, a key participant in the alternative C3 convertase. Mutant proteins formed high-affinity C3-binding site, leading to a hyperfunctional C3 convertase, resistant to decay by factor H. This led to enhanced complement deposition on the surface of alternative pathway activator cells. In contrast to native factor B, the 2 mutants bound to inactivated C3 and induced formation of functional C3-convertase on iC3b-coated surface. We demonstrated for the first time that factor B mutations lead to enhanced C3-fragment deposition on quiescent and adherent human glomerular cells (GEnCs) and human umbilical vein endothelial cells (HUVECs), together with the formation of sC5b-9 complexes. These results could explain the occurrence of the disease, since excessive complement deposition on endothelial cells is a central event in the pathogenesis of aHUS. Therefore, risk factors for aHUS are not only mutations leading to loss of regulation, but also mutations, resulting in hyperactive C3 convertase.
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Li, Jie, David T. Glover, Alexander J. Szalai, Susan K. Hollingshead, and David E. Briles. "PspA and PspC Minimize Immune Adherence and Transfer of Pneumococci from Erythrocytes to Macrophages through Their Effects on Complement Activation." Infection and Immunity 75, no. 12 (October 8, 2007): 5877–85. http://dx.doi.org/10.1128/iai.00839-07.
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ABSTRACT Pneumococcal surface protein A (PspA) and PspC are important virulence factors. Their absence has been shown to allow improved clearance of pneumococci from the blood of mice and to decrease pneumococcal virulence. In the presence of antibody and complement, pneumococci attach to erythrocytes in a process called immune adherence (IA), which facilitates their delivery to, and eventual phagocytosis by, macrophages. It is not known, however, if PspA and PspC affect IA. Using PspA and/or PspC isogenic mutants and complement-deficient mouse sera, we demonstrated that absence of PspA allows greater deposition of C1q and thus increased classical-pathway-mediated C3 deposition. In the absence of both PspA and PspC, there is also a major increase in C1q-independent C3 deposition through the alternative pathway. The latter was observed even though absence of PspC alone did not have a major effect on alternative-pathway-dependent complement deposition. The enhanced complement C3 deposition realized in the absence of PspA alone and in the absence of PspA and PspC resulted in both greatly increased IA to human erythrocytes and improved transfer of pneumococci from erythrocytes to phagocytes. These data provide new insight into how PspA and PspC act in synergy to protect pneumococci from complement-dependent clearance during invasive infection.
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Harboe, Morten, Christina Johnson, Stig Nymo, Karin Ekholt, Camilla Schjalm, Julie K. Lindstad, Anne Pharo, et al. "Properdin binding to complement activating surfaces depends on initial C3b deposition." Proceedings of the National Academy of Sciences 114, no. 4 (January 9, 2017): E534—E539. http://dx.doi.org/10.1073/pnas.1612385114.
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Two functions have been assigned to properdin; stabilization of the alternative convertase, C3bBb, is well accepted, whereas the role of properdin as pattern recognition molecule is controversial. The presence of nonphysiological aggregates in purified properdin preparations and experimental models that do not allow discrimination between the initial binding of properdin and binding secondary to C3b deposition is a critical factor contributing to this controversy. In previous work, by inhibiting C3, we showed that properdin binding to zymosan and Escherichia coli is not a primary event, but rather is solely dependent on initial C3 deposition. In the present study, we found that properdin in human serum bound dose-dependently to solid-phase myeloperoxidase. This binding was dependent on C3 activation, as demonstrated by the lack of binding in human serum with the C3-inhibitor compstatin Cp40, in C3-depleted human serum, or when purified properdin is applied in buffer. Similarly, binding of properdin to the surface of human umbilical vein endothelial cells or Neisseria meningitidis after incubation with human serum was completely C3-dependent, as detected by flow cytometry. Properdin, which lacks the structural homology shared by other complement pattern recognition molecules and has its major function in stabilizing the C3bBb convertase, was found to bind both exogenous and endogenous molecular patterns in a completely C3-dependent manner. We therefore challenge the view of properdin as a pattern recognition molecule, and argue that the experimental conditions used to test this hypothesis should be carefully considered, with emphasis on controlling initial C3 activation under physiological conditions.
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Panicker, Sandip, Ju Shi, Eileen Rose, Sami Hussain, Susan Tom, William Strober, Steven R. Sloan, Graham Parry, and Nancy Stagliano. "TNT009, a Classical Complement Pathway Specific Inhibitor, Prevents Complement Dependent Hemolysis Induced By Cold Agglutinin Disease Patient Autoantibodies." Blood 122, no. 21 (November 15, 2013): 42. http://dx.doi.org/10.1182/blood.v122.21.42.42.
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Abstract Cold agglutinin disease (CAD) is an autoimmune hemolytic anemia in which autoantibodies bind to red blood cells (RBC) at temperatures below 37°C, resulting in activation of the classical complement pathway (CCP). CCP activation leads to hemolysis either intravascularly, by formation of the membrane attack complex, or extravascularly, when C3/C4 fragment deposition onto the RBC surface results in sequestration by the reticuloendothelial system. Here we describe the in vitro and in vivo activity of TNT003 and TNT009, inhibitors of a serine protease specific to the CCP, in pre-clinical models of CAD. TNT003 is a mouse monoclonal IgG2a antibody with sub-nanomolar affinity. TNT009 is the humanized form (IgG4) of TNT003 and retains affinity and specificity to its target. In vitro assays using IgM-sensitized sheep RBC and human or non-human primate (NHP) serum showed that TNT003 and TNT009 potently inhibited antibody-mediated hemolysis in a concentration dependent manner. Additionally, TNT003 and TNT009 inhibited CCP-mediated production of the anaphylatoxins C4a, C3a, and C5a. Flow cytometry analysis showed that both antibodies also prevented C3 fragment deposition on the RBC surface. Activity was proportional to the amount of serum used, and at 80% human or NHP serum, TNT003 completely inhibited hemolysis with an IC50 of ∼13 µg/mL. Using an ELISA-based assay, TNT003 inhibited C5b-9 deposition driven by the CCP but not by the alternative (CAP) or lectin (CLP) pathways. These data suggest that TNT003 and TNT009 are specific and potent inhibitors of the CCP. To demonstrate the utility of a CCP inhibitor in disease, we tested the ability of TNT003 and TNT009 to inhibit the CCP in ex vivo hemolysis assays using CAD patient autoantibodies. Type O- RBC were incubated in the presence of CAD plasma to sensitize the cells with autoantibody. RBC were then washed and 25% normal human serum (NHS) added as a source of complement. Thirteen of the seventeen CAD samples tested (76%) mediated C3 fragment deposition on the RBC surface as determined by flow cytometry. TNT003 significantly inhibited C3 fragment deposition by all patient samples that deposited complement (88 ± 2.6% inhibition, n = 13) with an average IC50 of 4.7 ± 0.4 µg/mL. One patient sample induced complement-dependent hemolysis of ∼50% of the RBC upon addition of NHS. In a concentration dependent manner, TNT003 and TNT009, but not control IgG, completely inhibited CAD autoantibody-mediated hemolysis (Fig. 1), as well as C4a, C3a and C5a generation. We further characterized each patient sample to determine cold agglutinin titer. We found that cold agglutinin titer correlated with the percent RBC staining positive for cell surface C3 fragments (R2 = 0.3566; p < .01; n = 17 samples; Fig. 2).Figure 1TNT003 and TNT009 inhibit CAD autoantibody-mediated hemolysisFigure 1. TNT003 and TNT009 inhibit CAD autoantibody-mediated hemolysisFigure 2Cold agglutinin titers correlate with C3 fragment deposition on RBCFigure 2. Cold agglutinin titers correlate with C3 fragment deposition on RBC Extravascular hemolysis of C3 fragment-coated RBC by liver macrophages is believed to be the primary mechanism of RBC destruction in CAD. We therefore tested the hypothesis that CAD patient plasma-induced C3 fragment deposition on RBC would promote phagocytosis by the monocytic cell line THP-1. We found that RBC sensitized in CAD plasma and exposed to NHS were engulfed in an FcgR-independent mechanism by THP-1 cells. RBC phagocytosis was significantly inhibited if NHS exposure occurred in the presence of TNT003 (100 µg/mL), but not a control IgG. The selective CCP inhibitory activity of TNT003 was evaluated in vivo in cynomolgus monkeys. TNT003 administered as a single IV injection at 30 mg/kg resulted in a Cmax of ∼330 µg/mL and detectable serum TNT003 thru ≥72 hours. Using an ELISA-based assay, we observed specific inhibition (≥95%) of the CCP for ≥72 hours. In contrast, CAP activity was modestly and transiently inhibited for 4 - 8 hours. At Cmax, endogenous C4a levels were reduced by >90% and returned to baseline levels by ≥96 hours. Serum samples containing TNT003 showed complete (100%) inhibition of hemolysis and C3 fragment deposition in vitro. CCP activity was completely restored to baseline after TNT003 concentrations fell below a predictable, threshold level. Collectively, these data indicate that TNT003 and TNT009 are potent and specific inhibitors of CCP activity and C3 fragment deposition in vitro and in vivo. These findings support the preclinical development of TNT009 for the treatment of CCP-mediated diseases including CAD. Disclosures: Panicker: True North Therapeutics, Inc.: Employment, Equity Ownership. Shi:True North Therapeutics, Inc.: Employment, Equity Ownership. Rose:True North Therapeutics, Inc.: Employment, Equity Ownership. Hussain:True North Therapeutics, Inc.: Employment, Equity Ownership. Tom:True North Therapeutics, Inc.: Employment, Equity Ownership. Strober:True North Therapeutics, Inc.: Employment. Sloan:True North Therapeutics, Inc.: Consultancy. Parry:True North Therapeutics, Inc.: Employment, Equity Ownership. Stagliano:True North Therapeutics, Inc.: Employment, Equity Ownership, Membership on an entity’s Board of Directors or advisory committees.
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Risitano, Antonio M., Patrizia Ricci, Caterina Pascariello, Maddalena Raia, Christoph Q. Schmidt, Yingxue Li, Edimara S. Reis, et al. "Novel Complement Modulators for Paroxysmal Nocturnal Hemoglobinuria: Peptide and Protein Inhibitors of C3 Convertase Prevent Both Surface C3 Deposition and Subsequent Hemolysis of Affected Erythrocytes in Vitro." Blood 120, no. 21 (November 16, 2012): 370. http://dx.doi.org/10.1182/blood.v120.21.370.370.
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Abstract Abstract 370 Paroxysmal nocturnal hemoglobinuria (PNH) is a complex hematological disorder characterized by the expansion of blood cells deficient in the surface complement inhibitors CD55 and CD59; affected erythrocytes suffer from uncontrolled complement activation on their surface, and subsequent membrane attack complex (MAC)-mediated intravascular hemolysis. The anti-C5 antibody eculizumab has proven effective in controlling intravascular hemolysis in vivo, leading to remarkable clinical benefit in almost all PNH patients. Yet, we have demonstrated that persistent C3 activation occurring during eculizumab treatment may lead to progressive C3 deposition on affected erythrocyte and subsequent C3-mediated extravascular hemolysis, possibly limiting the hematological benefit of anti-C5 treatment (Risitano et al, Blood 2009). Thus, upstream inhibition of the complement cascade seems an appropriate strategy to improve the results of current anti-complement treatment; indeed, we have recently documented that the CD21/factor H (FH) fusion protein TT30 efficiently prevents both hemolysis and C3 deposition of PNH erythrocytes (Risitano et al, Blood 2012). Here we used the same in vitro model to evaluate two novel complement inhibitors that both act at the level of C3 convertases. Cp30 is an analog of the peptidic inhibitor compstatin, which is a 13-residue disulphide-bridged peptide that selectively binds to C3 and its activate fragment C3b. Compstatin and its analogues thereby prevent the initiation, amplification and terminal damage of the complement cascade via all its major pathways (classical, alternative, and mannose/lectin). Cp30 is one of the analogues developed to increase potency and stability of compstatin. Mini-FH, on the other hand, is an engineered 43kDa protein that combines the regulatory and surface-recognition activities of FH while showing increased affinity for the opsonins C3b, iC3b and C3d. Indeed, mini-FH retained both convertase decay acceleration and cofactor activities typical of endogenous human FH, resulting in a potent and selective inhibition of activation and amplification of the complement alternative pathway, without affecting the classical and the mannose/lectin pathway. Erythrocytes from PNH patients were washed and incubated in ABO-matched sera and exposed to pH-lowering to activate the alternative pathway, both in absence and presence of Cp30, mini-FH, and appropriate controls. Assessment of hemolysis and of C3 activation and deposition on PNH erythrocytes was performed by flow cytometry analyses of erythrocytes using anti-C3 and anti-CD59 antibodies, as previously described (Risitano et al Blood 2012). In absence of inhibitors, >90% of PNH erythrocytes lysed within 24 hours of incubation. Cp30 demonstrated a dose-dependent inhibition of hemolysis, with an IC50 of 4 μM and full inhibition at 8 μM. Cp30 also prevented deposition of any C3 fragment on the surface of surviving PNH erythrocyte. Similarly, mini-FH also showed dose-dependent inhibition of hemolysis, with an IC50 of 0.05 μM and full inhibition at 0.1 μM. Notably, both full-length fH and fH SCR1-4 were much less efficient in preventing hemolysis and C3 deposition (IC50 ∼ 0.5 μM; full inhibition >1 μM), supporting the higher potency of the engineered protein mini-FH. As expected, mini-FH also prevented surface deposition of C3 fragments on PNH erythrocytes. In conclusion, we confirm that inhibition of early phases of complement activation efficiently prevents hemolysis of PNH erythrocytes and their opsonization with C3 fragments in vitro. This effect may be obtained using either broad or pathway-specific inhibitors of C3 convertase, namely Cp30 and mini-FH, respectively. Thus, both strategies promise to prevent in vivo both MAC-mediated intravascular and C3-mediated extravascular hemolysis; however, according to their effect on specific complement pathways, they likely entail distinct patterns of potential risks. Our study provides the rationale for future translational plans to investigate the risk-to-benefit of these novel complement modulators in PNH. Disclosures: Risitano: Alexion: Membership on an entity's Board of Directors or advisory committees, Research Funding.
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Simovic, Milomir O., Michael J. Falabella, Tuan D. Le, Jurandir J. DalleLucca, and Yansong Li. "Decay-Accelerating Factor Creates an Organ-Protective Phenotype after Hemorrhage in Conscious Rats." International Journal of Molecular Sciences 23, no. 21 (November 5, 2022): 13563. http://dx.doi.org/10.3390/ijms232113563.
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Preclinical and clinical studies have shown that traumatic hemorrhage (TH) induces early complement cascade activation, leading to inflammation-associated multiple-organ dysfunction syndrome (MODS). Several previous studies have demonstrated the beneficial effects of complement inhibition in anesthetized (unconscious) animal models of hemorrhage. Anesthetic agents profoundly affect the immune response, microcirculation response, and coagulation patterns and thereby may confound the TH research data acquired. However, no studies have addressed the effect of complement inhibition on inflammation-driven MODS in a conscious model of hemorrhage. This study investigated whether early administration of decay-accelerating factor (CD55/DAF, a complement C3/C5 inhibitor) alleviates hemorrhage-induced organ damage and how DAF modulates hemorrhage-induced organ damage. DAF was administered to unanesthetized male Sprague Dawley rats subjected to pressure-controlled hemorrhage followed by a prolonged (4 h) hypotensive resuscitation with or without lactated Ringer’s (LR). We assessed DAF effects on organ protection, tissue levels of complement synthesis and activation, T lymphocyte infiltration, fluid resuscitation requirements, and metabolic acidosis. Hemorrhage with (HR) or without (H) LR resuscitation resulted in significantly increased C3, C5a, and C5b-9 deposition in the lung and intestinal tissues. HR rats had significantly higher tissue levels of complement activation/deposition (particularly C5a and C5b-9 in the lung tissues), a higher but not significant amount of C3 and C5b-9 pulmonary microvascular deposition, and relatively severe injury in the lung and intestinal tissues compared to H rats. DAF treatment significantly reduced tissue C5b-9 formation and C3 deposition in the H or HR rats and decreased tissue levels of C5a and C3 mRNA in the HR rats. This treatment prevented the injury of these organs, improved metabolic acidosis, reduced fluid resuscitation requirements, and decreased T-cell infiltration in lung tissues. These findings suggest that DAF has the potential as an organ-protective adjuvant treatment for TH during prolonged damage control resuscitation.
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Lapidot, Rotem, Mario Ramirez, Dayeun Lee, Ingrid L. Scully, Bradford D. Gessner, and stephen pelton. "1000. Serotype 3 pneumococci evade activation of the classical complement pathway." Open Forum Infectious Diseases 8, Supplement_1 (November 1, 2021): S591. http://dx.doi.org/10.1093/ofid/ofab466.1194.
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Abstract Background Complement classical pathway (CCP) activation is the major mechanism leading to opsonophagocytic pneumococcal killing. Following immunization with 13-valent pneumococcal conjugate vaccine (PCV13), opsonophagocytic titers are lowest against serotype 3 among the 13 vaccine serotypes. Post licensure surveillance indicated early declines in serotype 3 invasive pneumococcal disease (IPD) were not sustained over time Methods Using flow cytometry, we measured C3 and C4 deposition on serotype 3 strains from children with IPD or nasopharyngeal [NP] carriage, and analyzed by clade. C4 deposition is an indicator of CCP, while C3 deposition is common to all complement pathways. We measured C3/C4 deposition on serotype 3 pneumococcal strains incubated with antibody depleted complement alone or with complement and the following antibodies: mouse monoclonal anti-capsular IgG or IgM, rabbit polyclonal serotype 3 antisera (IgG + IgM) [RPS3A] and RPS3A combined with anti-rabbit IgM, which blocks IgM function, leaving only polyclonal IgG Results Serotype 3 strains demonstrated high variability in C3 binding when incubated with complement alone. RPS3A (containing both IgM+IgG) and monoclonal IgM activated CCP in all strains. Anti- serotype 3 monoclonal IgG and polyclonal IgG demonstrated absent or limited CCP activation; but activated alternative pathway in some strains. When analyzing complement deposition by clade, a lower proportion of clade II NP serotype 3 strains bound C3 when incubated with complement or monoclonal IgG, compared to clade Ia NP strains. Differences between clade Ia and II IPD strains were not apparent. Conclusion Serotype 3 strains did not demonstrate activation of the CCP in the presence IgG and varied in C3 deposition. Pneumococcal strains that evade CCP activation may be less sensitive to opsonophagocytosis. Our findings suggest a mechanism by which serotype 3 carriage and disease may persist despite immunization with conjugate vaccine containing serotype 3 polysaccharide. Disclosures Rotem Lapidot, MD MSCI, Pfizer (Consultant, Grant/Research Support, Advisor or Review Panel member) Mario Ramirez, PhD, GlaxoSmithKline (Advisor or Review Panel member)Merck Sharp & Dohme (Advisor or Review Panel member)Pfizer (Speaker’s Bureau) Ingrid L. Scully, PhD, Pfizer (Employee, Shareholder) Bradford D. Gessner, MD, MPH, Pfizer Inc. (Employee) stephen pelton, MD, Merck Vaccines (Advisor or Review Panel member, Research Grant or Support)Pfizer, Inc. (Consultant, Advisor or Review Panel member, Research Grant or Support)Sanofi pasteur (Advisor or Review Panel member, Research Grant or Support, DSMB)Seqirus (Consultant)
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Matsumoto, M., F. Yamashita, K. Iida, M. Tomita, and T. Seya. "Purification and characterization of a human membrane protein that activates the alternative complement pathway and allows the deposition of homologous complement C3." Journal of Experimental Medicine 181, no. 1 (January 1, 1995): 115–25. http://dx.doi.org/10.1084/jem.181.1.115.
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A human myeloid cell subline, P39+, is found to be a target for human complement (C) via the alternative pathway and to allow the deposition of multiple C3 fragments on its membranes, though expressing the complement regulatory proteins decay-accelerating factor and membrane cofactor protein. The parent cell line, P39-, which is phenotypically similar to the P39+ subline, does not allow the deposition of homologous C3 fragments. In this study, we established a monoclonal antibody, M161 Ab, which reacted with P39+ but not P39- cells. This Ab recognized a 43-kD protein in P39+ cell lysate transblotted onto nitrocellulose. Using this Ab as a probe, we purified the 43-kD protein, namely, M161 antigen (Ag). M161 Ag had a basic isoelectric point (pI), 9.3-9.4 by chromatofocusing, and was precipitated as an insoluble material at the pI point. The purified M161 Ag was a single-chain protein and did not possess N- or O-linked carbohydrates. When the purified M161 Ag was transblotted onto nitrocellulose and incubated with Mg(2+)-EGTA serum, human C3 fragments were efficiently deposited on M161 Ag. The major species of the deposited C3 fragments was C3b. Furthermore, the C3 fragments bound to the M161 Ag were detached by 1 M hydroxylamine, suggesting that a covalent ester linkage sustains M161 Ag-C3b interaction. NH2-terminal amino acid analysis revealed that M161Ag is a novel membrane protein. Hence, it appeared that M161 Ag is a potent activator of human alternative complement pathway on human cells that activates homologous C3 and allows the deposition of C3b on itself. Thus, under some conditions, homeostasis of complement is maintained even on human cells, not only by the complement regulatory proteins, but also by membrane C3-activating molecules on which C3b is deposited.
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Santi, P., K. A. Joiner, C. H. Hammer, M. M. Frank, and R. Tosi. "A complement-resistant HeLa cell line (T638) is blocked at the step of C3 deposition." Journal of Immunology 138, no. 10 (May 15, 1987): 3385–91. http://dx.doi.org/10.4049/jimmunol.138.10.3385.
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Abstract A complement-resistant line of HeLa cells (T638) was derived by serial passage of complement-susceptible HeLa cells in anti-beta 2-microglobulin (b2m) antiserum and complement. The T638 line maintained stable complement resistance when passed for an additional 1500 generations in the absence of antiserum and complement. T638 cells expressed equivalent levels of cell-associated b2m as did the parent HeLa cell line. Furthermore, T638 cells were resistant to killing by complement and anti-HeLa antiserum with specificity for molecules other than b2m. These results indicate that the resistance of T638 cells does not simply reflect loss of anti-b2m binding antigens. We next investigated the mechanism of resistance of T638 cells to complement-mediated killing. Antibody-sensitized HeLa and T638 cells both consumed CH50 activity completely from normal human serum; cytotoxicity was not mediated via the alternative complement pathway. HeLa and T638 cells caused equivalent utilization of C4 from normal human serum in the presence of antibody. Consumption of C2, greater with T638 than with HeLa cells during incubation in serum, was complete when cells bearing purified C1 and limited C4 were incubated with C2. T638 cells bound more 3H-C4 than HeLa cells during incubation in serum, but binding of 3H-C3 by T638 cells was fourfold to fivefold less than by HeLa cells. Finally, we investigated the rate of decay in the capacity of C142 on HeLa and T638 to cleave and deposit 3H-C3. The T1/2 for decay of C142-mediated binding of 3H-C3 on HeLa was 3.9 min, whereas minimal C3 deposition was detected on T638 cells at all time points. These results show that T638 cells evade complement-mediated lysis despite activating early components of the classical complement pathway. The mechanism of resistance is a failure to form an effective C3 convertase.
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Pedersen, Henrik, Rasmus K. Jensen, Annette G. Hansen, Trine A. F. Gadeberg, Steffen Thiel, Nick S. Laursen, and Gregers R. Andersen. "A C3-specific nanobody that blocks all three activation pathways in the human and murine complement system." Journal of Biological Chemistry 295, no. 26 (May 6, 2020): 8746–58. http://dx.doi.org/10.1074/jbc.ra119.012339.
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The complement system is a tightly controlled proteolytic cascade in the innate immune system, which tags intruding pathogens and dying host cells for clearance. An essential protein in this process is complement component C3. Uncontrolled complement activation has been implicated in several human diseases and disorders and has spurred the development of therapeutic approaches that modulate the complement system. Here, using purified proteins and several biochemical assays and surface plasmon resonance, we report that our nanobody, hC3Nb2, inhibits C3 deposition by all complement pathways. We observe that the hC3Nb2 nanobody binds human native C3 and its degradation products with low nanomolar affinity and does not interfere with the endogenous regulation of C3b deposition mediated by Factors H and I. Using negative stain EM analysis and functional assays, we demonstrate that hC3Nb2 inhibits the substrate–convertase interaction by binding to the MG3 and MG4 domains of C3 and C3b. Furthermore, we notice that hC3Nb2 is cross-reactive and inhibits the lectin and alternative pathway in murine serum. We conclude that hC3Nb2 is a potent, general, and versatile inhibitor of the human and murine complement cascades. Its cross-reactivity suggests that this nanobody may be valuable for analysis of complement activation within animal models of both acute and chronic diseases.
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Michelfelder, Stefan, Friedericke Fischer, Astrid Wäldin, Kim V. Hörle, Martin Pohl, Juliana Parsons, Ralf Reski, et al. "The MFHR1 Fusion Protein Is a Novel Synthetic Multitarget Complement Inhibitor with Therapeutic Potential." Journal of the American Society of Nephrology 29, no. 4 (January 15, 2018): 1141–53. http://dx.doi.org/10.1681/asn.2017070738.
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The complement system is essential for host defense, but uncontrolled complement system activation leads to severe, mostly renal pathologies, such as atypical hemolytic uremic syndrome or C3 glomerulopathy. Here, we investigated a novel combinational approach to modulate complement activation by targeting C3 and the terminal pathway simultaneously. The synthetic fusion protein MFHR1 links the regulatory domains of complement factor H (FH) with the C5 convertase/C5b-9 inhibitory fragment of the FH-related protein 1. In vitro, MFHR1 showed cofactor and decay acceleration activity and inhibited C5 convertase activation and C5b-9 assembly, which prevented C3b deposition and reduced C3a/C5a and C5b-9 generation. Furthermore, this fusion protein showed the ability to escape deregulation by FH-related proteins and form multimeric complexes with increased inhibitory activity. In addition to substantially inhibiting alternative and classic pathway activation, MFHR1 blocked hemolysis mediated by serum from a patient with aHUS expressing truncated FH. In FH−/− mice, MFHR1 administration augmented serum C3 levels, reduced abnormal glomerular C3 deposition, and ameliorated C3 glomerulopathy. Taking the unique design of MFHR1 into account, we suggest that the combination of proximal and terminal cascade inhibition together with the ability to form multimeric complexes explain the strong inhibitory capacity of MFHR1, which offers a novel basis for complement therapeutics.
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Fuhrman, S. A., and K. A. Joiner. "Toxoplasma gondii: mechanism of resistance to complement-mediated killing." Journal of Immunology 142, no. 3 (February 1, 1989): 940–47. http://dx.doi.org/10.4049/jimmunol.142.3.940.
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Abstract Tachyzoites of the obligate intracellular protozoan Toxoplasma gondii are resistant to lysis in non-immune human serum. We have examined the mechanism of this serum resistance in RH and P strain organisms, which differ markedly in virulence, but are equally resistant to serum killing. Rapid, but limited, activation of the alternative complement pathway occurred in non-immune human serum, with deposition of equivalent amounts of C3 on the two strains. C component C3 bound covalently to parasite acceptor molecules via an ester linkage. The predominant form of C3 was iC3b which cannot participate in formation of a lytic C5b-9 complex. Multiple membrane constituents of the tachyzoite of T. gondii may serve as acceptors for the limited amount of C3 deposited during incubation in non-immune serum. When tachyzoites were presensitized with the lytic anti-p30 mAb 7B8, new amide-linked C3-acceptor complexes formed. Nearly equivalent C3 binding but a threefold enhancement of 125I-C9 binding occurred when mAb 7B8 pre-sensitized tachyzoites were compared to native organisms. These results indicate that tachyzoites of T. gondii are serum resistant because of failure to activate C efficiently. Presensitization with a lytic mAb alters the site of complement deposition and augments C5b-9 formation.
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Ong, Gaik Lin, Purvin B. Shah, and M. Jules Mattes. "Rabbit Complement Lyses Tumor Cells Without Massive C3 Deposition." Immunological Investigations 25, no. 3 (January 1996): 215–29. http://dx.doi.org/10.3109/08820139609059304.
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Schwendinger, M. G., M. Spruth, J. Schoch, M. P. Dierich, and W. M. Prodinger. "A novel mechanism of alternative pathway complement activation accounts for the deposition of C3 fragments on CR2-expressing homologous cells." Journal of Immunology 158, no. 11 (June 1, 1997): 5455–63. http://dx.doi.org/10.4049/jimmunol.158.11.5455.
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Abstract Complement receptor type 2 (CD21, CR2), the receptor for the C3 fragment C3dg, activates complement via the alternative pathway and also serves as a preferential acceptor site for C3 fragments. The molecular basis for this phenomenon, which has recently been demonstrated for B lymphocytes in vivo, is currently not understood. Here we present a model for this CR2-dependent complement activation. The inactive C3 (iC3), which forms spontaneously in serum in low amounts by reaction of native C3 with H2O, binds noncovalently to the N-terminal part of CR2. Subsequent association of properdin and factor B, and cleavage of factor B by factor D lead to formation of a C3 convertase associated with CR2, thus focussing covalent C3 deposition to CR2 itself. This model is supported by the following experimental findings. 1) By FACS analysis and radioreceptor assays we showed that iC3, properdin, and factor B bound to CR2 on Raji B cells, MT2 T cells, and peripheral blood B cells. 2) Both binding of these proteins and complement activation by CR2-expressing cells were reduced in parallel by Abs against CR2. 3) 125I-labeled C3b was covalently deposited on CR2, when hemolytically active 125I-labeled C3 was added to Raji cells preincubated with iC3, factor B, properdin, and factor D, thus proving functionality of CR2-bound C3 convertase. This model of C3 convertase activity formed on CR2 domains inaccessible for decay-accelerating factor offers an explanation for the deposition of C3 found on CR2-expressing cells.
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Puentes, S. M., D. L. Sacks, R. P. da Silva, and K. A. Joiner. "Complement binding by two developmental stages of Leishmania major promastigotes varying in expression of a surface lipophosphoglycan." Journal of Experimental Medicine 167, no. 3 (March 1, 1988): 887–902. http://dx.doi.org/10.1084/jem.167.3.887.
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The binding of complement by two developmentally distinct stages of Leishmania major has been studied. Noninfective log phase growth (LOG) promastigotes (serum sensitive) activate complement with deposition of covalently bound C3b onto the surface of the parasite. Infective, peanut agglutinin (PNA-) metacyclic stage promastigotes (serum resistant) also bear mainly C3b after incubation in serum, but a major portion of deposited C3 is present as a 110 X 10(3) mol wt C3 fragment. Whereas deposition of C3b on LOG promastigotes is mediated through the alternative pathway. PNA- parasites are unable to activate the alternative pathway in nonimmune serum. C3 is released from the parasite surface by proteolytic cleavage, at a rate which is nearly threefold greater for LOG than for PNA- promastigotes. Immunoprecipitation experiments show that the developmentally regulated lipophosphoglycan is a major C3 acceptor on both LOG and PNA- parasites. These experiments, which are the first to compare the form and processing of complement on infective and noninfective promastigotes of Leishmania, provide a framework for further definition of the differential C3 receptor-dependent uptake and survival of these parasites within mononuclear phagocytes.
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Melin, Merit, Krzysztof Trzciński, Martin Antonio, Seppo Meri, Richard Adegbola, Tarja Kaijalainen, Helena Käyhty, and Merja Väkeväinen. "Serotype-Related Variation in Susceptibility to Complement Deposition and Opsonophagocytosis among Clinical Isolates of Streptococcus pneumoniae." Infection and Immunity 78, no. 12 (September 20, 2010): 5252–61. http://dx.doi.org/10.1128/iai.00739-10.
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ABSTRACT The polysaccharide capsule is a major virulence factor of Streptococcus pneumoniae; it affects complement resistance and shields the bacterium from phagocytes. Certain capsular serotypes appear to be better able to cause invasive disease than others. Serotypes 1 and 5 are common causes of invasive disease but are rarely isolated from healthy carriers, whereas serotypes 6B and 23F are more frequently isolated from carriage than invasive disease. We have recently shown that serotypes 6B and 19F differ in resistance to complement C3 deposition and opsonophagocytic killing. In this study we assessed the complement resistance and susceptibility to opsonophagocytosis of several other serotypes targeted by the pneumococcal conjugate vaccines. Clinical isolates of serotypes 1, 4, 5, 14, 18C, and 23F were tested along reference strains of corresponding capsular types. The concentration of anticapsular antibodies required for opsonophagocytic killing correlated inversely with C3 deposition on the serotype. Serotype 1 was the most resistant of the clinical isolates to C3 deposition and, along with serotypes 5 and 19F, required the highest concentration of capsule antibodies for opsonophagocytic killing, whereas serotype 23F was the most sensitive to opsonophagocytosis. Sensitivity to C3 deposition and opsonophagocytosis was associated with serotype-specific mortality of invasive pneumococcal disease, suggesting that the primary pathogens, such as serotypes 1 and 5, are more resistant to complement and require a higher concentration of capsule antibodies for opsonophagocytic killing than the opportunistic serotypes such as 6B and 23F, which are associated with a more severe disease outcome.
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Yadav, Sudhir K., Naoko Ito, Devika Soin, Kouichi Ito, and Suhayl Dhib-Jalbut. "Dimethyl Fumarate Suppresses Demyelination and Axonal Loss through Reduction in Pro-Inflammatory Macrophage-Induced Reactive Astrocytes and Complement C3 Deposition." Journal of Clinical Medicine 10, no. 4 (February 19, 2021): 857. http://dx.doi.org/10.3390/jcm10040857.
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Dimethyl fumarate (DMF) is an oral agent for relapsing-remitting multiple sclerosis (RRMS). In this study, we investigated the therapeutic mechanism of DMF using experimental autoimmune encephalomyelitis (EAE). DMF treatment decreased the proliferation of T cells and the production of IL-17A and GM-CSF. DMF treatment also decreased the development and/or infiltration of macrophages in the central nervous system (CNS), and reduced the ratio of iNOS+ pro-inflammatory macrophage versus Ym1+ immunomodulatory macrophages. Furthermore, DMF treatment suppressed the deposition of complement C3 (C3) and development of reactive C3+ astrocytes. The decrease in iNOS+ macrophages, C3+astrocytes, and C3 deposition in the CNS resulted in the reduction in demyelination and axonal loss. This study suggests that the beneficial effects of DMF involve the suppression of iNOS+ pro-inflammatory macrophages, C3+ astrocytes, and deposition of C3 in the CNS.
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Kuo, Chih-Feng, Yee-Shin Lin, Woei-Jer Chuang, Jiunn-Jong Wu, and Nina Tsao. "Degradation of Complement 3 by Streptococcal Pyrogenic Exotoxin B Inhibits Complement Activation and Neutrophil Opsonophagocytosis." Infection and Immunity 76, no. 3 (January 3, 2008): 1163–69. http://dx.doi.org/10.1128/iai.01116-07.
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ABSTRACT Streptococcal pyrogenic exotoxin B (SPE B), a cysteine protease, is an important virulence factor in group A streptococcus (GAS) infection. The inhibition of phagocytic activity by SPE B may help prevent bacteria from being ingested. In this study, we examined the mechanism SPE B uses to enable bacteria to resist opsonophagocytosis. Using an enzyme-linked immunosorbent assay, we found that SPE B-treated serum impaired the activation of the classical, the lectin, and the alternative complement pathways. In contrast, C192S, a SPE B mutant lacking protease activity, had no effect on complement activation. Further study showed that cleavage of serum C3 by SPE B, but not C192S, blocked zymosan-induced production of reactive oxygen species in neutrophils as a result of decreased deposition of C3 fragments on the zymosan surface. Reconstitution of C3 into SPE B-treated serum unblocked zymosan-mediated neutrophil activation dose dependently. SPE B-treated, but not C192S-treated, serum also impaired opsonization of C3 fragments on the surface of GAS strain A20. Moreover, the amount of C3 fragments on the A20 cell surface, a SPE B-producing strain, was less than that on its isogenic mutant strain, SW507, after opsonization with normal serum. A20 opsonized with SPE B-treated serum was more resistant to neutrophil killing than A20 opsonized with normal serum, and SPE B-mediated resistance was C3 dependent. These results suggest a novel SPE B mechanism, one which degrades serum C3 and enables GAS to resist complement damage and opsonophagocytosis.
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Knežević, T., I. Padjen, V. Ivković, S. Bulimbašić, M. Ćorić, I. Jezic, Z. Biloglav, M. Laganović, and B. Anic. "AB0575 MESANGIAL C1Q DEPOSITION, BUT NOT C3 AND C1Q DEPOSITION IN OTHER RENAL COMPARTMENTS, IS A PREDICTOR OF RENAL OUTCOME IN LUPUS NEPHRITIS." Annals of the Rheumatic Diseases 81, Suppl 1 (May 23, 2022): 1413.2–1413. http://dx.doi.org/10.1136/annrheumdis-2022-eular.5363.
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BackgroundComplement activation is an important pathophysiological process in the pathogenesis and development of systemic lupus erythematosus and lupus nephritis (LN). However, the prognostic value of complement factors deposition in different kidney compartments has received little attention and, to the best of our knowledge, no study examined its association with renal outcomes in LN.ObjectivesTo evaluate prognostic significance of C1q and C3 complement factors in renal tissue compartments.MethodsWe have conducted a retrospective cohort study and collected data on demographics, clinical and laboratory parameters and histopathology (light, immunofluorescent and electron microsopy) at the time of biopsy and after long-term follow-up. C1q and C3 expression graded in different kidney compartments (mesangium, glomerular basement membrane (GBM), tubular basement membrane (TBM) and blood vessel wall) and dichotomized into no or low (grades 0 and 1) and high expression (grades 2 and 3). Remission (defined as complete or partial remission) was defined as per EULAR 2019 guidelines.ResultsA total of 51 patients with biopsy-proven LN were followed up for 4.5±2.9 years (80% women, mean age at biopsy 38±14). A total of 29 (71%) achieved complete or partial remission. Complement expression in different kidney compartments was as follows: mesangium (C1q 54%, C3 59%), GBM (C1q 34%, C3 41%), TBM (C1q 5%, C3 5%) and blood vessel wall (C1q 0%, C3 5%). Patients with proliferative lupus had more frequently C1q and C3 deposition in the mesangium (69% vs. 14%, p<0.001 and 72% vs. 29%, p=0.005, respectively), while there were no differences between proliferative and non-proliferative LN in other renal compartments (all p>0.05). Subjects who achieved remission more frequently had C1q deposition in the mesangium (64% vs. 31%, p=0.045), but there was no association between remission and deposition of C1q or C3 in other renal compartments (all p>0.05). Interestingly, the association between C1q mesangial deposition and renal outcome was significant even after adjustment for age at biopsy, gender and lupus type (proliferative vs. non-proliferative) (OR 0.13 [0.02, 0.98], p=0.047).ConclusionC1q deposition in the mesangium might be an important prognostic factor in LN and more aggressive treatment of these patients may explain the better outcomes of these patients.Disclosure of InterestsNone declared
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Shi, Tong, Vaishali R. Moulton, Peter H. Lapchak, Guo-Min Deng, Jurandir J. Dalle Lucca, and George C. Tsokos. "Ischemia-mediated aggregation of the actin cytoskeleton is one of the major initial events resulting in ischemia-reperfusion injury." American Journal of Physiology-Gastrointestinal and Liver Physiology 296, no. 2 (February 2009): G339—G347. http://dx.doi.org/10.1152/ajpgi.90607.2008.
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Ischemia-reperfusion (IR) injury represents a major clinical challenge, which contributes to morbidity and mortality during surgery. The critical role of natural immunoglobulin M (IgM) and complement in tissue injury has been demonstrated. However, cellular mechanisms that result in the deposition of natural IgM and the activation of complement are still unclear. In this report, using a murine intestinal IR injury model, we demonstrated that the β-actin protein in the small intestine was cleaved and actin filaments in the columnar epithelial cells were aggregated after a transient disruption during 30 min of ischemia. Ischemia also led to deposition of natural IgM and complement 3 (C3). A low dose of cytochalasin D, a depolymerization reagent of the actin cytoskeleton, attenuated this deposition and also attenuated intestinal tissue injury in a dose-dependent manner. In contrast, high doses of cytochalasin D failed to worsen the injury. These data indicate that ischemia-mediated aggregation of the actin cytoskeleton, rather than its disruption, results directly in the deposition of natural IgM and C3. We conclude that ischemia-mediated aggregation of the actin cytoskeleton leads to the deposition of natural IgM and the activation of complement, as well as tissue injury.
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Rieben, Robert, Anja Roos, Yvonne Muizert, Caroline Tinguely, Arnout F. Gerritsen, and Mohamed R. Daha. "Immunoglobulin M–Enriched Human Intravenous Immunoglobulin Prevents Complement Activation In Vitro and In Vivo in a Rat Model of Acute Inflammation." Blood 93, no. 3 (February 1, 1999): 942–51. http://dx.doi.org/10.1182/blood.v93.3.942.
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Abstract An important antiinflammatory mechanism of intravenous immunoglobulin preparations (IVIG) is their ability to block complement activation. The purpose of this study was to compare the complement-inhibitory activity of four IVIG preparations differing in isotype composition. The preparations were: (1) IVIgG (48 g/L IgG, 2 g/L IgA; Intraglobin F); (2) Pentaglobin (38 g/L IgG, 6 g/L IgM, 6 g/L IgA); (3) IVIgM (35 g/L IgM, 12 g/L IgA, 3 g/L IgG); and (4) IVIgA (41 g/L IgA, 9 g/L IgG), all from Biotest Pharma GmbH, Dreieich, Germany. Their complement inhibitory activity was assessed in vitro by measurement of the blocking of C1q-, C4-, and C3 deposition on solid-phase aggregated rabbit IgG by enzyme-linked immunosorbent assay (ELISA). Complement inhibition in this ELISA was best for IVIgM, followed by Pentaglobin and IVIgG; IVIgA did not exhibit an inhibitory effect. Control experiments with excess concentrations of C1q as well as with C1q-depleted serum showed that the inhibitory effects of IVIG were not caused by complement activation and thus, consumption, but that C4 and C3 were scavenged by IgM and to a lesser extent by IgG. These results were confirmed in vivo in the rat anti-Thy 1 nephritis model, in which a single dose of 500 mg/kg of IVIgM prevented C3-, C6-, and C5b-9 deposition in the rat glomeruli, whereas the effect of IVIgG was much less pronounced. Reduction of complement deposition was paralleled by a diminished albuminuria, which was completely absent in the IVIgM-treated rats. IVIgM and to a lesser extent IVIgG also prevented rat C3 deposition on cultured rat glomerular mesangial cells in vitro, but did not influence anti-Thy 1 binding. Neither IVIgM nor Pentaglobin nor IVIgG negatively affected in vitro phagocytosis of Escherichia coli (E coli) by human granulocytes. In conclusion, we have shown that IgM enrichment of IVIG preparations enhances their effect to prevent the inflammatory effects of complement activation.
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Rieben, Robert, Anja Roos, Yvonne Muizert, Caroline Tinguely, Arnout F. Gerritsen, and Mohamed R. Daha. "Immunoglobulin M–Enriched Human Intravenous Immunoglobulin Prevents Complement Activation In Vitro and In Vivo in a Rat Model of Acute Inflammation." Blood 93, no. 3 (February 1, 1999): 942–51. http://dx.doi.org/10.1182/blood.v93.3.942.403k31_942_951.
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An important antiinflammatory mechanism of intravenous immunoglobulin preparations (IVIG) is their ability to block complement activation. The purpose of this study was to compare the complement-inhibitory activity of four IVIG preparations differing in isotype composition. The preparations were: (1) IVIgG (48 g/L IgG, 2 g/L IgA; Intraglobin F); (2) Pentaglobin (38 g/L IgG, 6 g/L IgM, 6 g/L IgA); (3) IVIgM (35 g/L IgM, 12 g/L IgA, 3 g/L IgG); and (4) IVIgA (41 g/L IgA, 9 g/L IgG), all from Biotest Pharma GmbH, Dreieich, Germany. Their complement inhibitory activity was assessed in vitro by measurement of the blocking of C1q-, C4-, and C3 deposition on solid-phase aggregated rabbit IgG by enzyme-linked immunosorbent assay (ELISA). Complement inhibition in this ELISA was best for IVIgM, followed by Pentaglobin and IVIgG; IVIgA did not exhibit an inhibitory effect. Control experiments with excess concentrations of C1q as well as with C1q-depleted serum showed that the inhibitory effects of IVIG were not caused by complement activation and thus, consumption, but that C4 and C3 were scavenged by IgM and to a lesser extent by IgG. These results were confirmed in vivo in the rat anti-Thy 1 nephritis model, in which a single dose of 500 mg/kg of IVIgM prevented C3-, C6-, and C5b-9 deposition in the rat glomeruli, whereas the effect of IVIgG was much less pronounced. Reduction of complement deposition was paralleled by a diminished albuminuria, which was completely absent in the IVIgM-treated rats. IVIgM and to a lesser extent IVIgG also prevented rat C3 deposition on cultured rat glomerular mesangial cells in vitro, but did not influence anti-Thy 1 binding. Neither IVIgM nor Pentaglobin nor IVIgG negatively affected in vitro phagocytosis of Escherichia coli (E coli) by human granulocytes. In conclusion, we have shown that IgM enrichment of IVIG preparations enhances their effect to prevent the inflammatory effects of complement activation.
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Lee, Jong-Ho, Na-Hyang Kim, Volker Winstel, Kenji Kurokawa, Jesper Larsen, Jang-Hyun An, Adnan Khan, et al. "Surface Glycopolymers Are Crucial forIn VitroAnti-Wall Teichoic Acid IgG-Mediated Complement Activation and Opsonophagocytosis of Staphylococcus aureus." Infection and Immunity 83, no. 11 (August 17, 2015): 4247–55. http://dx.doi.org/10.1128/iai.00767-15.
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ABSTRACTThe cell envelopes of many Gram-positive bacteria contain wall teichoic acids (WTAs).Staphylococcus aureusWTAs are composed of ribitol phosphate (RboP) or glycerol phosphate (GroP) backbones substituted withd-alanine andN-acetyl-d-glucosamine (GlcNAc) orN-acetyl-d-galactosamine (GalNAc). Two WTA glycosyltransferases, TarM and TarS, are responsible for modifying the RboP WTA with α-GlcNAc and β-GlcNAc, respectively. We recently reported that purified human serum anti-WTA IgG specifically recognizes β-GlcNAc of the staphylococcal RboP WTA and then facilitates complement C3 deposition and opsonophagocytosis ofS. aureuslaboratory strains. This prompted us to examine whether anti-WTA IgG can induce C3 deposition on a diverse set of clinicalS. aureusisolates. To this end, we compared anti-WTA IgG-mediated C3 deposition and opsonophagocytosis abilities using 13 different staphylococcal strains. Of note, the majority ofS. aureusstrains tested was recognized by anti-WTA IgG, resulting in C3 deposition and opsonophagocytosis. A minority of strains was not recognized by anti-WTA IgG, which correlated with either extensive capsule production or an alteration in the WTA glycosylation pattern. Our results demonstrate that the presence of WTAs with TarS-mediated glycosylation with β-GlcNAc in clinically isolatedS. aureusstrains is an important factor for induction of anti-WTA IgG-mediated C3 deposition and opsonophagocytosis.
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Marquart, H. V., S. E. Svehag, and R. G. Leslie. "CR2 is the primary acceptor site for C3 during alternative pathway activation of complement on human peripheral B lymphocytes." Journal of Immunology 153, no. 1 (July 1, 1994): 307–15. http://dx.doi.org/10.4049/jimmunol.153.1.307.
Full textAbstract:
Abstract Human cells infected with certain viruses acquire the ability to activate the alternative pathway (AP) of complement. Complement receptor 2 on EBV-infected lymphoblastoid cell lines has been reported to act as the covalent binding site for C3b during AP activation. Using flow cytometry, we investigated the ability of normal human peripheral blood leukocytes to activate the AP in homologous serum. Deposition of C3 fragments was determined as a measurement of complement activation on each of the subpopulations of the blood cells. Incubating human peripheral blood leukocytes with homologous or autologous serum resulted in C3 deposition on B cells and, to a lesser extent, on monocytes and polymorphonuclear leukocytes. Complement activation in the presence of Mg2+ ions and EGTA revealed major involvement of the AP in the case of B cells, and to a lesser extent for other leukocyte populations examined. Preincubation of the leukocytes with polyclonal anti-complement receptor 2 Ab markedly decreased the C3 fragment deposition, as a result of in vitro AP activation, on B cells, indicating that on normal human B cells this receptor may be involved in AP activation. Freshly isolated, normal human B cells also bear low but significant amounts of C3d,g fragments on their membranes, indicating that this AP activation also occurs in vivo. AP activation was partially decreased in the presence of autologous erythrocytes (RBC) suggesting that complement regulatory proteins on RBC play a role in limiting the AP activation in vivo.