Dissertations / Theses on the topic 'Mtb Infection'
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Jones, Shelby-Sara Ann. "The role of Lymphoblastic leukemia 1 (Lyl1) in Mycobacterium tuberculosis (Mtb) infection." Doctoral thesis, Faculty of Health Sciences, 2021. http://hdl.handle.net/11427/33727.
Full textRothchild, Alissa Chen. "Antimicrobial Roles for iNKT Cells and GM-CSF in Mycobacterium Tuberculosis Infection." Thesis, Harvard University, 2014. http://dissertations.umi.com/gsas.harvard:11371.
Full textBenet, Garrabé Susana. "Impact of a SIGLEC1 null variant on the pathogenesis of HIV-1 and Mtb infection." Doctoral thesis, Universitat Autònoma de Barcelona, 2021. http://hdl.handle.net/10803/671930.
Full textLas células presentadoras de antígeno de linaje mieloide tienen la capacidad de responder a una infección de una manera rápida y eficiente coordinando respuestas inmunes innatas y adaptativas. Sin embargo, en el caso de la infección por el virus de la inmunodeficiencia humana de tipo 1 (VIH-1), estas células pueden contribuir en la patogénesis viral a través de la captura y la transmisión de partículas virales a las células diana, un proceso conocido como trans-infección. Este mecanismo depende de Siglec-1 (CD169), un receptor de membrana de las células mieloides que reconoce gangliósidos sialidados presentes en la membrana del virus. Para analizar in vivo la contribución de la trans-infección en la patogénesis del VIH-1, buscamos individuos SIGLEC1-deficientes e identificamos 85 individuos heterocigotos y 2 homocigotos para una variante de pérdida de función que suprime la expresión de Siglec-1. De manera relevante, las células de estos individuos carecían de la actividad de Siglec-1 en relación a la captura y la transmisión del VIH-1. A pesar de este fenotipo, no hemos observado diferencias prominentes con respecto a la susceptibilidad a la infección por VIH-1 ni a la progresión hacia el síndrome de inmunodeficiencia adquirida (SIDA) en los individuos portadores de esta variante de SIGLEC1. A pesar de ello, el análisis del efecto del truncamiento de Siglec-1 en la progresión a SIDA no resultó concluyente debido al tamaño limitado de la cohorte, la falta de una historia clínica completa con información sobre la fecha de seroconversión, la restricción de estudiar solamente períodos sin tratamiento y la co-infección con patógenos adicionales que podrían influenciar el fenotipo observado en la dirección opuesta a lo esperado. De hecho, esta última limitación nos llevó a investigar el efecto de la variante SIGLEC1-deficiente en las co-infecciones asociadas al VIH-1 y encontramos una asociación significativa entre esta variante y la diseminación extrapulmonar de Mycobacterium tuberculosis (Mtb) en dos cohortes clínicas que incluyen 6,256 individuos. Cuando analizamos la ausencia de Siglec-1 en un modelo murino, los ratones knockout para Siglec-1 presentaron una propagación local de bacterias en el pulmón y a pesar de tener una carga bacilar similar, desarrollaron lesiones más extensas en comparación con los ratones salvajes. Además, hemos demostrado que Siglec-1 es necesario para inducir la presentación de antígenos a través de la captura de vesículas extracelulares. Proponemos un modelo en el que la ausencia de Siglec-1 retrasa el inicio de una inmunidad que protege frente la micobacteria limitando el intercambio de antígenos mediante vesículas extracelulares, permitiendo así una propagación local de la micobacteria que incrementa el riesgo de una diseminación extrapulmonar. En resumen, a lo largo de esta tesis hemos explorado el concepto de antagonismo pleiotrópico en individuos co-infectados portadores de la variante SIGLEC1-deficiente, donde la alteración del control inmune de la micobacteria en ausencia de Siglec-1 podría influenciar el curso clínico de los individuos infectados por VIH-1, enmascarando así los beneficios esperados de esta variante en el retraso de la progresión a SIDA.
Antigen presenting cells of the myeloid lineage have the ability to respond rapidly and effectively to infection by coordinating innate and adaptive immune responses. However, in the case of human immunodeficiency virus type 1 (HIV-1) infection, these cells might contribute to viral pathogenesis through the capture and transmission of infectious viral particles to target cells, a process known as trans-infection. This mechanism depends on Siglec-1 (CD169), a myeloid-cell surface receptor that recognizes sialylated gangliosides present on the viral membrane. To dissect the contribution of trans-infection in HIV-1 pathogenesis in vivo, we searched for SIGLEC1 null individuals and identified 85 heterozygous and 2 homozygous people with a loss-of-function variant that abrogates Siglec-1 expression. Importantly, cells from these individuals were defective for Siglec-1 activity in HIV-1 capture and transmission. Despite this phenotype, we did not observe prominent differences on HIV-1 susceptibility nor progression to acquired immunodeficiency syndrome (AIDS) in individuals harboring the SIGLEC1 null variant. Nonetheless, analysis of the effect of Siglec-1 truncation on progression to AIDS was not conclusive due to the limited cohort size, the lack of complete clinical records such as the seroconversion date, the restriction to study only off-therapy periods, and the co-infection with additional pathogens that might influence the observed phenotype in the opposite direction from what was expected. As a matter of fact, the latest limitation prompted us to investigate the effect of the SIGLEC1 null variant in HIV-1 co-infections and we found a significant association between this variant and extrapulmonary dissemination of Mycobacterium tuberculosis (Mtb) in two clinical cohorts comprising 6,256 individuals. When we analyzed the absence of Siglec-1 in a murine model, local spread of bacteria within the lung was apparent in Mtb-infected Siglec-1 knockout mice which, despite having similar bacterial load, developed more extensive lesions compared to wild type mice. Moreover, we demonstrated that Siglec-1 is necessary to induce antigen presentation through extracellular vesicle uptake. We postulate that lack of Siglec-1 delays the onset of protective immunity against Mtb by limiting antigen exchange via extracellular vesicles, allowing for an early local spread of mycobacteria that increases the risk for extrapulmonary dissemination. Overall, through this thesis we have explored the concept of antagonistic pleiotropy in co-infected individuals harboring the SIGLEC1 null variant, where the impaired immune control of Mtb in the absence of Siglec-1 could influence the clinical course of HIV-1 infected individuals, thus masking the expected benefits of this variant on delaying AIDS progression.
Universitat Autònoma de Barcelona. Programa de Doctorat en Bioquímica, Biologia Molecular i Biomedicina
Thiel, Bonnie Arlene. "Bioinformatics approaches to studying immune processes associated with immunity to Mycobacterium tuberculosis infection in the lung and blood." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case1627247387242562.
Full textKativhu, Chido L. "PhoP-regulated genes contribute to Mycobacteria tuberculosis-induced burst size necrosis in macrophages." eScholarship@UMMS, 2021. https://escholarship.umassmed.edu/gsbs_diss/1120.
Full textHartman, Michelle L. "M.tb Killing by Macrophage Innate Immune Mechanisms: A Dissertation." eScholarship@UMMS, 2011. https://escholarship.umassmed.edu/gsbs_diss/606.
Full textvanzolini, tania. "Development of new biological drugs for the treatment of fungal infections." Doctoral thesis, Urbino, 2021. http://hdl.handle.net/11576/2692691.
Full textIqbal, Salma. "Phenotypical and Functional Characterization of Polarized Human Macrophages." Thesis, Université d'Ottawa / University of Ottawa, 2015. http://hdl.handle.net/10393/32009.
Full textLe, Run Eva. "Nouvelles combinaisons de β-lactamines et inhibiteurs de β-lactamase : vers un nouveau traitement des infections à Mycobacterium abscessus chez les patients atteints de mucoviscidose." Electronic Thesis or Diss., Sorbonne université, 2019. https://accesdistant.sorbonne-universite.fr/login?url=https://theses-intra.sorbonne-universite.fr/2019SORUS640.pdf.
Full textMycobacterium abscessus, a rapidly growing mycobacteria, is responsible for pulmonary infections in cystic fibrosis patients. The recommended treatment consists in an initial phase with the combination of a carbapenem (imipenem), a macrolide (azithromycin), an aminoglycoside (amikacin), and a glycylcycline (tigecycline). The team has investigated the optimization of treatments involving β-lactams and have demonstrated that avibactam, a 2nd generation β-lactamase inhibitor belonging to the diazabicyclooctane (DBO) family, inhibits the β-lactamase BlaMab produced by M. abscessus and substantially increases the efficacy of imipenem both in vitro, intracellularly, and in a zebrafish model. Expression of the β-lactamase gene was found to be induced in infected macrophages. The aim of my PhD project was to evaluate the efficacy of new β-lactam-β-lactamase inhibitor combinations and to investigate β-lactamase regulation in macrophages. In the first part of the thesis, new antibiotic combinations were evaluated in vitro and in macrophages infected by M. abscessus. Rifabutin, usually used in the treatment of infections due to other mycobacteria, showed synergistic activity with imipenem in vitro but the combination was not bactericidal. In infected macrophages, rifabutin enhanced the activity of imipenem and the addition of avibactam led to increased killing. Tedizolid, developed for the treatment of staphylococcal infections, displayed weak synergy in vitro but no bactericidal activity against M. abscessus. In macrophages, tedizolid enhanced the activity of imipenem and the imipenem-tedizolid-rifabutin-avibactam quadruple combination afforded 91% intracellular killing. Finally, the association of imipenem with relebactam, a new β-lactamase inhibitor developed in combination with imipenem, was found to be as active as the imipenem-avibactam both in vitro and in macrophage model. The second part of the thesis was focused on the identification of the stressor triggering the induction of β-lactamase production in macrophages. M. abscessus was grown in vitro in different culture media mimicking stress conditions thought to prevail in macrophages. The β-lactamase specific activity was determined using a chromogenic β-lactam (nitrocefin) as the substrate. None of the physicochemical conditions that were tested led to induction, including acidic pH, high concentrations of metals, oxidative stress or β-lactams. The last objective was to study the impact of the N versus G polymorphism located in the conserved SDN motif of mycobacterial β-lactamases on activity of β-lactam-β-lactamase inhibitor combinations. BlaMab from M. abscessus contains motif SDN whereas BlaC from M. tuberculosis contains motif SDG, a polymorphism that determines efficacious inhibition by either avibactam of clavulanate, respectively. Two isogenic strains of M. abscessus were constructed by allelic exchange. In comparison to the wild-type enzyme, the strain producing BlaMab with the N to G substitution was less susceptible to the β-lactam-avibactam combinations but more efficaciously inhibited by combinations comprising clavulanate. In the context of BlaC, the G to N substitution potentiated inhibition by avibactam. These results establish that the SDN/SDG polymorphism determines the efficacy of combinations comprising a β-lactam and avibactam or clavulanate, as expected from previous kinetic studies performed with purified β-lactamases. N to G and G to N substitutions might be mechanisms of resistance acquisition in M. abscessus and M. tuberculosis, respectively
Chakraborti, Srinjoy. "Therapeutic Antibody Against Neisseria gonorrhoeae Lipooligosaccharide, a Phase-variable Virulence Factor." eScholarship@UMMS, 2017. https://escholarship.umassmed.edu/gsbs_diss/905.
Full textChakraborti, Srinjoy. "Therapeutic Antibody Against Neisseria gonorrhoeae Lipooligosaccharide, a Phase-variable Virulence Factor." eScholarship@UMMS, 2005. http://escholarship.umassmed.edu/gsbs_diss/905.
Full text"CD4-Independent Correlates of Protection in M. tuberculosis and Mtb/SIV Co-Infection." Tulane University, 2018.
Find full textIn order to develop better therapeutics and treatment strategies for tuberculosis (TB) infection, it is imperative to understand interactions that occur in the host in response to the bacilli that contribute to disease progression. Modeling of TB in simple animal models such as mice and zebrafish is often incomplete as there are evolutionary differences, as well as structural issues, that reduce the faithfulness to human TB infection. The non-human primate model of TB infection provides the added benefit of providing a long-established model of SIV infection that recapitulates HIV infection in humans and has been expanded to model TB/HIV co-infection. Here, we have sought to identify correlates of protection in TB and TB/SIV co-infection using rhesus macaques. In the first experiment, we used two strains of Mycobacterium tuberculosis (Mtb), CDC1551 and Erdman, to investigate strain-specific mechanisms of virulence. As increased virulence of Mtb Erdman was associated with excess inflammatory responses, we sought to evaluate a host-directed therapeutic in a lethal challenge model of Mtb CDC1551 infection. We found that use of a type I interferon antagonist significantly improved host survival in the absence of antibiotic treatment and survival was associated with the presence of increased levels of granzyme B producing T cells. A major producer of granzyme B, mucosal-associated invariant T (MAIT) cells was investigated in Mtb/SIV co-infection, but was found to not contribute to protection in TB or TB/SIV. In order to further expand our model of Mtb/SIV co-infection, we co-infected latent Mtb-infected rhesus macaques with a non-pathogenic strain of SIV, SIVmac239ΔGY, and administered a CD4-depleting antibody, CD4R1, in place of SIVmac239 co-infection. Using SIVΔGY, we found that virulent viral replication was necessary for TB reactivation. Using both SIVΔGY and antibody-mediated CD4+ T cell depletion, we found that immune responses are disregulated in Mtb/SIV reactivators in a divergent manner, illustrating the presence of SIV-dependent factors that contribute to TB/SIV reactivation. Overall, these results indicate that immune mechanisms, especially those of inflammation, are significant in determining host outcomes. Developing ways to better control inflammation are necessary to supplement antibiotic treatment and cure TB.
1
Allison Bucsan
Mishra, Richa. "Understanding the redox homeostatic mechanisms in Mycobacterium tuberculosis infection." Thesis, 2019. https://etd.iisc.ac.in/handle/2005/4365.
Full textFialho, Ana Catarina Arsénio. "Identification and characterization of host cathepsins and cystatins during tuberculosis and HIV co-infection of antigen presenting cells." Master's thesis, 2018. http://hdl.handle.net/10451/39283.
Full textThe human immunodeficiency virus (HIV) infection and tuberculosis are still major health problems. It is estimated that one third of the human population is latently infected with tuberculosis, with HIV infection being the major risk for reactivation. Eradication of HIV and Mycobacterium tuberculosis (Mtb) infections is challenging due to establishment of latent reservoirs, as is the case of macrophages (Mϕ) and dendritic cells (DC), and the emergence of drug resistant strains. This difficulty is aggravated during co-infection. Thus, there is the need to develop and establish an efficient treatment to eradicate these infections. The long-term goal of this work is the development of a host-directed strategy that, through the manipulation of lysosomal proteases, will boost the host cellular and humoral response against these microorganisms. In the first part of this thesis we performed a transcriptomic analysis of all cathepsins and their inhibitors cystatins during mono- or co-infections of Mϕ or DC. Upon co-infection with Mtb and HIV, DC and Mϕ have a differential profile of expression being the analysed genes upregulated and downregulated. Further, during co-infections, the gene expression was dominated by the HIV infection. In the second part we explored the role of cathepsin S and their manipulation as a strategy to control Mtb infection. Study of the involvement of microRNAs, revealed that miR-106b-5p is manipulated by Mtb and that it reduces cathepsin S protein expression. Through loss-of-function experiments, cathepsin S expression, Mtb killing within Mϕ and T cell activation increased. The decrease of Mtb survival was independent of apoptosis, necrosis and autophagy suggesting that miR-106b-5p action on cathepsin S enables Mtb to evade to the degradative activity of enzymes of the endocytic pathway. These results show a distinct expression profile between HIV Mtb co-infected DC and Mϕ and suggest cathepsin manipulation as a potential target for host directed therapy in Mtb infection.
O vírus da imunodeficiência humana (HIV) e a Mycobacterium tuberculosis (Mtb) são os patogenos causadores da síndrome da imunodeficiência adquirida e da tuberculose, respetivamente. É estimado que um terço da população mundial tem tuberculose latente, sendo a infeção por HIV o maior risco para a reactivação da tuberculose latente devido à extensa imunossupressão. A incidência da TB em pessoas infectadas por HIV teve um aumento de 40 % na Europa nos últimos 5 anos, sendo Portugal o terceiro país da Europa com a maior percentagem de pacientes com TB e infetados com HIV. Embora as doenças causadas por HIV e por Mtb tenham vindo a ser extensivamente estudadas, ainda não existe uma terapia capaz de eliminar estas infeções. Estas dificuldades são causadas em parte pelo aparecimento de estirpes resistentes aos antibióticos/antivirais utilizados e pela existência de reservatórios celulares latentes que contêm estes patogenos num estado de dormência, permitindo que o sistema imune não os ataque nem que estes sejam alvos dos diversos tratamentos. Além disso, quando o mesmo hospedeiro é infetado por HIV e por Mtb a dificuldade em tratar e erradicar ambas as infeções é ainda mais crítica, dado que estes patogenos exacerbaram a infeção um do outro. Deste modo, é necessário desenvolver e estabelecer novos tratamentos de forma a erradicar ou atenuar cada mono-infeção ou co-infeção. O objetivo deste projeto é o desenvolvimento de uma terapia direcionada ao hospedeiro, através da manipulação de proteases lisossomais, de forma a fortalecer a resposta celular e humoral do hospedeiro contra o HIV e o Mtb durante as mono-infeções e as co-infeções e potencialmente melhorar as terapias existentes. Para tal foi estabelecido um modelo de co-infeção que pretendia assemelhar-se à infeção por Mtb de um indíviduo previamente infectado por HIV e num estado de latência viral. Neste estudo foi também incluído um modelo de co-infeção por HIV-2 e Mtb. Desta forma foi estudada a infeção por HIV-2 que afecta um menor número de indivíduos comparativamente à infeção por HIV-1. Este vírus é também tido como um modelo de HIV com menor virulência. Numa primeira fase, foi determinada a expressão genética das catepsinas e dos seus inibidores naturais, as cistatinas, durante a mono-infeção por Mtb, HIV-1 e HIV-2 e durante a co-infeção Mtb-HIV em células dendríticas e macrófagos. Numa segunda fase foi determinado se a manipulação da catepsina S por Mtb via microRNAs (miRNAs) contribuía para a sobrevivência intracelular desta bactéria em macrófagos e para o escape à apresentação de antigénios a linfócitos T. De forma a caracterizar o modelo de infeção estabelecido foi determinada a carga viral e micobacteriana das células assim como a morte celular das mesmas por apototse e necrose. A carga micobacteriana da mono-infeção por Mtb era superior à da co-infeção HIV Mtb em células dendríticas e macrófagos aquando da medição da expressão genética das catepsinas e cistatinas. A morte celular por apoptose e necrose foi também medida e revelou que enquanto as células dendríticas encontram-se maioritariamente num estado inicial de apoptose, os macrófagos apresentam uma maior percentagem de células em fases mais avançadas da apoptose. Em ambos os tipos celulares a necrose ocorre em menos de 1 % das células. Tanto as mono-infeções por HIV-1 e HIV-2 como as co-infeções tiveram um aumento na percentagem de células apoptóticas comparativamente com as mono-infeções com micobactéria, sugerindo que é o efeito do HIV que impera durante as co-infeções. Neste trabalho foi elucidado o controlo da expressão genética resultante da infeção por Mtb, HIV-1 e HIV-2 durante a mono- e a co-infeção de células apresentadoras de antigénio. As células dendríticas e os macrófagos apresentam uma expressão genética diferencial entre si, observando-se um aumento de expressão geral nas células dendríticas relativamente a macrófagos. O perfil de expressão genética da mono-infeção por HIV-1 e por HIV-2 é idêntico em macrófagos, mas distinto em células dendríticas. Em ambos estes tipos celulares a expressão genética durante a co-infeção foi semelhante à da mono-infeção por HIV-1 e HIV-2. É de notar que as infeções bacterianas apresentam mais diferenças na expressão genética de catepsinas e cistatina durante a infeção de macrófagos. Em contraste, as infeções por HIV-1 e HIV-2 apresentam um maior número de genes diferencialmente expressos durante a infeção de células dendríticas. O estudo do envolvimento dos microRNAs (miRNA) na modulação da resposta celular do hospedeiro após a infeção por Mtb em Mϕ mostrou que o miR-106b-5p é manipulado por este microrganismo. Sendo que este miRNA tem como alvo a catepsina S, uma das catepsinas que participa na degradação lisossomal do Mtb e na apresentação de antigénios, foi determinado o seu efeito na expressão desta proteína. Os resultados obtidos indicam que o miR-106b-5p reduz a expressão proteica da catepsina S. A manipulação deste miRNA permitiu observar que ao aumentar a sua expressão, a expressão da catepsina S diminui e a sobrevivência intracelular do Mtb aumenta. Em contraste, ao diminuir o miR-106b-5p houve o aumento da expressão da catepsina S e a diminuição da sobrevivência intracelular do Mtb. Foi também demonstrado que a sobrevivência intracelular do Mtb é independente da apoptose, necrose e autofagia o que sugere que a ação do miR-106b-5p na catepsina S permite que o Mtb escape aos enzimas hidrolíticos das vias endocíticas. Ao inferir o impacto da manipulação do miR-106b-5p na apresentação de antigénios e consequentemente na ativação de células T, a inibição deste miRNA levou a um aumento da expressão de moléculas apresentadoras de antigénio à superfície da membrana celular dos Mϕ. Este aumento foi acompanhado por um aumento na ativação de células T após contacto com Mϕ infectados por Mtb. Estes resultados mostram que existe uma expressão diferencial dos genes das catepsinas e cistatinas entre DC e Mϕ co-infectados com HIV-1 ou HIV-2 e Mtb e que o miR-106b-5p é um potencial alvo para o desenvolvimento de uma terapia direcionada durante a infeção por Mtb.
This work was partially financed by ADEIM and by the project FCT PTDC/SAU-INF/28182/2017
Bharadwaj, Vemparala. "Unraveling the Evolutionary Advantages of Crosstalk Between Two-Component Signalling Systems of M tuberculosis." Thesis, 2017. http://etd.iisc.ac.in/handle/2005/3636.
Full textBharadwaj, Vemparala. "Unraveling the Evolutionary Advantages of Crosstalk Between Two-Component Signalling Systems of M tuberculosis." Thesis, 2017. http://etd.iisc.ernet.in/2005/3636.
Full textBaloni, Priyanka. "A Systems Biology Approach towards Understanding Host Response and Pathogen Adaptation in Latent Tuberculosis Infection." Thesis, 2016. http://etd.iisc.ac.in/handle/2005/2967.
Full textBaloni, Priyanka. "A Systems Biology Approach towards Understanding Host Response and Pathogen Adaptation in Latent Tuberculosis Infection." Thesis, 2016. http://hdl.handle.net/2005/2967.
Full textBoro, Monoranjan. "Regulation of Host Innate Immune Responses by Hippo Signaling Pathway during Pattern Recognition Receptors (PRRs) Driven Inflammation : Implication for Host-Pathogen Interactions." Thesis, 2017. http://etd.iisc.ac.in/handle/2005/4246.
Full textTraoré, Hafsatou Ndama. "Analysis of the effect of Mycobacterium tuberculosis (M.tb) on HIV infection in the presence of iron overload." Thesis, 2012. http://hdl.handle.net/10210/7028.
Full textBackground: AIDS is characterized by a number of opportunistic infections and the immune depletion caused by HIV infection is the strongest risk factor for both reactivation of tuberculosis (TB) and progression of Mycobacterium tuberculosis (Mtb) infection to disease. Numerous studies have shown that concurrent infection of the same host cell by HIV,and M.tb stimulates replication of both pathogens. The interaction between the two is lethal. A synergistic relationship exists between Mtb and HIV. While HIV spurs the spread of TB, mycobacterial infection results in acceleration of HIV disease progression. The requirement for iron as a crucial factor for cellular processes has long been demonstrated. Excess iron leads to infections with harmful consequences such as cell death and function impairment. During infection, iron is required by both the host cell and the pathogens. Iron chelation is believed to modulate some of these effects. Objectives: Mtb, HIV and Fe-overload are common in sub-Saharan Africa and iron plays a major role in determining the outcome of several infections. In view of this, we wanted to (1) investigate the effect of excess iron on host cell defences during co-infection with the mentioned microorganisms, (2) evaluate the differences in both host and pathogen responses during acute and chronic infection in the presence of iron overload and (3) Determine the efficacy of iron chelation (with DFO) as a means of counteracting conditions associated with iron overload. Hypotheses: The combination of Fe-overload and co-infection of host cells with HIV and Mtb in an in vitro model should stimulate replication of the pathogens, which would ultimately result in host cell stress manifesting as lower viability or cell death and impaired immune defence functions. Also the detrimental effects of excess iron on host cell viability could be counteracted through the use of iron chelators. Methods: We analyzed the in vitro effect of Mtb in bothchronically and acutely HI V-infected cells (PBMC's and monocytes), exposed to 500 uM FeSO 4 and/or DFO for 4 days. Host cell viability, survival and death were assessed through viability assays (MIT and Alamar Blue) and flow cytometric analyses of apoptosis/necrosis (using Annexin V and propidium iodide). Secretion of IL- 6 and TNF-a and production of total nitrate were monitored as host immune/defence responses using specialized ELISAs. HIV replication was investigated by looking at core protein (p24) contents and reverse transcriptase (RT) activity. Mtb replication and growth was monitored using the microplate Alamar Blue assay (MABA) and quantitative culturing.Results: Co-infection caused a reduction of host cell viability (± 20% and 45% inhibition during chronic and acute infection respectively;, as measured by MTT), increases in the numbers of viral particles (2.3 times and 20% increases for chronic and acute infections respectively) and stimulation of both bacterial viability (36%) and host defence responses (30% increase in TNF-ct secretion). Excess iron further decreased viability with a marked increase in necrosis of cells and was found to enhance pathogen replication and growth (26% for HIV and 47% for Mtb). Chelation of iron with DFO abrogated the enhanced replication of the pathogens with a marginal restoration of host viability. Conclusion: The results obtained demonstrate the deleterious effect of excess iron during concurrent infection with both pathogens as well as its stimulating/enhancing properties on pathogens. On the other hand, DFO inhibited pathogen replication and host viability.
Lin, Chi-Jui, and 林祺叡. "Characterization of the target antigen of mAb 54-07 and evaluation of a multivalent vaccine against the meningococcal infection." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/62397004675580777285.
Full text國立中興大學
分子生物學研究所
101
Neisseria meningitidis (NM) is an encapsulated gram-negative diplococcus, which can be classified into 13 serogroups based on the antigenicity of their capsular polysaccharide (CPS). Most pathogenic strains belong to serogroup A, B, C, Y, W135 and X. In addition to the variation on the CPS, many outer membrane proteins of these organisms are also subjected to antigenic and/or phase variation consequently limiting the effectiveness of single antigen vaccines. One way to obtain a broadly protective vaccine against NM infection is to use multi-component vaccines. The meningococcal lipoprotein Ag473 as a vaccine candidate has previously been demonstrated. In this study, the effectiveness of an Ag473-based multi-component vaccine (MP) including four minor outer membrane proteins (mOMPs), Ag5407, Ag-lyi, P64k(F) and Ag-IIC3(F) to protect mice against group B meningococcal disease was evaluated. Groups of mice were immunized with Ag473, Ag473 plus mOMPs (MP), or PBS. After confirming the presence of anti-NM specific antibodies in Ag473 and MP-immunized mice by ELISA, mice were challenged with the serogroup B strain Nm22209-6R3. With 300 CFU challenge dose, the survival rates for PBS-, Ag473-, and MP-immunized mice were 20%, 40%, and 80%, respectively. When increase the challenge dose to 1500 CFU, the survival rate of the Ag473-immunized group reduced to 20% while 80% of the MP-immunized mice remained to be protected. The results show that adding of the minor proteins, although each alone does not exhibit protection, to the Ag473 can significantly improve the protection effectiveness. In addition, the epitope on Ag5407, the target antigen of the monoclonal antibody (mAb) 54-07 which binds to the meningococcal surface, was defined by gene fragmentation. The results indicate that the functional epitope lies within the C-terminal 67 amino acid residues. Deletion of five residues from either N- or C-terminus of this region destroyed the antigenicity completely suggesting that the mAb 54-07 recognizes a conformational epitope. Because Ag5407 is a ribosomal subunit and detected only on a small portion of meningococcal surfaces suggesting that this protein may have other functions. To address this question, plasmid pEN11-LS5407 encoding a lipidated Ag5407 was introduced into group B MC58 and W135 NM1996-020 strains. The surface expression of the lipidated Ag5407 in the transformants grown in the presence of IPTG was confirmed by flow cytometry. Functional analysis suggested that the surface expression of Ag5407 enhances the adhesion of meningococci to human epithelial cells but does not affect the serum sensitivity of meningococcal strains. Finally, this study accidently discovered that chloramphenycol acetyltransferase, the selectable marker on the plasmid pEN11, may use the capsular polysaccharide of W135 as the acetyl group acceptor in the absence of chloramphenical.