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1
Feigelson, Sara W., Valentin Grabovsky, Eugenia Manevich-Mendelson, Ronit Pasvolsky, Ziv Shulman, Vera Shinder, Eugenia Klein, Amos Etzioni, Memet Aker, and Ronen Alon. "Kindlin-3 is required for the stabilization of TCR-stimulated LFA-1:ICAM-1 bonds critical for lymphocyte arrest and spreading on dendritic cells." Blood 117, no. 26 (June 30, 2011): 7042–52. http://dx.doi.org/10.1182/blood-2010-12-322859.
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Kindlin-3 is a key lymphocyte function–associated antigen-1 (LFA-1) coactivator deleted in leukocyte adhesion deficiency-III (LAD-III). In the present study, we investigated the involvement of this adaptor in lymphocyte motility and TCR-triggered arrest on ICAM-1 or on dendritic cells (DCs). Kindlin-3–null primary T cells from a LAD-III patient migrated normally on the major lymph node chemokine CCL21 and engaged in normal TCR signaling. However, TCR activation of Kindlin-3–null T lymphocytes failed to trigger the robust LFA-1–mediated T-cell spreading on ICAM-1 and ICAM-1–expressing DCs that is observed in normal lymphocytes. Kindlin-3 was also essential for cytoskeletal anchorage of the LFA-1 heterodimer and for microclustering of LFA-1 within ventral focal dots of TCR-stimulated lymphocytes spread on ICAM-1. Surprisingly, LFA-1 on Kindlin-3–null lymphocytes migrating over CCL21 acquired normal expression of an epitope associated with the conformational activation of the key headpiece domain, β I. This activated LFA-1 was highly responsive to TCR-triggered ICAM-1–driven stop signals in normal T cells locomoting on CCL21, but not in their Kindlin-3–null T-cell counterparts. We suggest that Kindlin-3 selectively contributes to a final TCR-triggered outside-in stabilization of bonds generated between chemokine-primed LFA-1 molecules and cell-surface ICAM-1.
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Wu, Xing, Tao Yu, Daniel C. Bullard, and Dennis F. Kucik. "SDF-1α (CXCL12) regulation of lateral mobility contributes to activation of LFA-1 adhesion." American Journal of Physiology-Cell Physiology 303, no. 6 (September 15, 2012): C666—C672. http://dx.doi.org/10.1152/ajpcell.00190.2012.
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Regulation of integrin activity enables leukocytes to circulate freely, avoiding inappropriate adhesion while maintaining the ability to adhere quickly at sites of infection or inflammation. This regulation involves at least two components: affinity for ligand and affinity-independent avidity effects such as lateral mobility. Using lymphocyte function associated antigen-1 (LFA-1) as a model, we investigated the role of integrin release from cytoskeletal motion constraints in response to the chemokine stromal cell-derived factor-1 (SDF-1α) in this process. All experiments were done in primary T cells to avoid nonphysiological activation processes often seen with the use of cell lines. We found that SDF-1α releases LFA-1 from cytoskeletal constraints as effectively as does cytochalasin D. The resultant increased diffusion is correlated with a robust increase in LFA-1-mediated adhesion under physiological shear stress. We further investigated the role of the highly conserved GFFKR sequence in the LFA-1 cytoplasmic domain. We report that the GFFKR sequence is both necessary and sufficient for regulation of the SDF-1α-triggered proadhesive release from cytoskeleton interactions. While this does not address the role of transient SDF-1α-induced conformational changes in the activation process, these results strongly suggest that any model of chemokine-induced LFA-1 activation must take into account chemokine-induced integrin lateral mobility. In addition, these results have ramifications for models of differential binding of LFA-1 to surface-bound vs. soluble intercellular adhesion molecule-1.
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Shulman, Ziv, Ronit Pasvolsky, Eilon Woolf, Valentin Grabovsky, Sara W. Feigelson, Noam Erez, Yoshinori Fukui, and Ronen Alon. "DOCK2 regulates chemokine-triggered lateral lymphocyte motility but not transendothelial migration." Blood 108, no. 7 (October 1, 2006): 2150–58. http://dx.doi.org/10.1182/blood-2006-04-017608.
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Abstract Rac GTPases are key regulators of leukocyte motility. In lymphocytes, chemokine-mediated Rac activation depends on the CDM adaptor DOCK2. The present studies addressed the role of DOCK2 in chemokine-triggered lymphocyte adhesion and motility. Rapid chemokine-triggered activation of both LFA-1 and VLA-4 integrins took place normally in DOCK2–/– T lymphocytes under various shear flow conditions. Consequently, DOCK2–/– T cells arrested normally on TNFα-activated endothelial cells in response to integrin stimulatory chemokine signals, and their resistance to detachment was similar to that of wild-type (wt) T lymphocytes. Nevertheless, DOCK2–/– T lymphocytes exhibited reduced microvillar collapse and lamellipodium extension in response to chemokine signals, ruling out a role for these events in integrin-mediated adhesion strengthening. Strikingly, arrested DOCK2–/– lymphocytes transmigrated through a CCL21-presenting endothelial barrier with similar efficiency and rate as wt lymphocytes but, unlike wt lymphocytes, could not locomote away from the transmigration site of the basal endothelial side. DOCK2–/– lymphocytes also failed to laterally migrate over multiple integrin ligands coimmobilized with chemokines. This is a first indication that T lymphocytes use 2 different chemokine-triggered actin remodeling programs: the first, DOCK2 dependent, to locomote laterally along apical and basal endothelial surfaces; the second, DOCK2 independent, to cross through a chemokine-bearing endothelial barrier.
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Margraf, Andreas, Giulia Germena, Hannes C. A. Drexler, Jan Rossaint, Nadine Ludwig, Barbara Prystaj, Sina Mersmann, et al. "The integrin-linked kinase is required for chemokine-triggered high-affinity conformation of the neutrophil β2-integrin LFA-1." Blood 136, no. 19 (November 5, 2020): 2200–2205. http://dx.doi.org/10.1182/blood.2020004948.
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Abstract Neutrophil adhesion and extravasation into tissue at sites of injury or infection depend on binding of the integrin lymphocyte function–associated antigen 1 (LFA-1) to ICAM-1 expressed on activated endothelial cells. The activation-dependent conformational change of LFA-1 to the high-affinity conformation (H+) requires kindlin-3 binding to the β2-integrin cytoplasmic domain. Here we show that genetic deletion of the known kindlin interactor integrin-linked kinase (ILK) impaired neutrophil adhesion and extravasation in the cremaster muscle and in a clinically relevant model of renal ischemia reperfusion injury. Using in vitro microfluidic adhesion chambers and conformation-specific antibodies, we show that knockdown of ILK in HL-60 cells reduced the conformational change of β2-integrins to the H+ conformation. Mechanistically, we found that ILK was required for protein kinase C (PKC) membrane targeting and chemokine-induced upregulation of its kinase activity. Moreover, PKC-α deficiency also resulted in impaired leukocyte adhesion in bone marrow chimeric mice. Mass spectrometric and western blot analyses revealed stimulation- and ILK-dependent phosphorylation of kindlin-3 upon activation. In summary, our data indicate an important role of ILK in kindlin-3–dependent conformational activation of LFA-1.
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Sáez de Guinoa, Julia, Laura Barrio, Mario Mellado, and Yolanda R. Carrasco. "CXCL13/CXCR5 signaling enhances BCR-triggered B-cell activation by shaping cell dynamics." Blood 118, no. 6 (August 11, 2011): 1560–69. http://dx.doi.org/10.1182/blood-2011-01-332106.
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Abstract Continuous migration of B cells at the follicle contrasts with their stable arrest after encounter with antigen. Two main ligand/receptor pairs are involved in these cell behaviors: the chemokine CXCL13/chemokine receptor CXCR5 and antigen/BCR. Little is known regarding the interplay between CXCR5 and BCR signaling in the modulation of B-cell dynamics and its effect on B-cell activation. We used a 2-dimensional model to study B-cell migration and antigen recognition in real time, and found that BCR signaling strength alters CXCL13-mediated migration, leading to a heterogeneous B-cell behavior pattern. In addition, we demonstrate that CXCL13/CXCR5 signaling does not impair BCR-triggered immune synapse formation and that CXCR5 is excluded from the central antigen cluster. CXCL13/CXCR5 signaling enhances BCR-mediated B-cell activation in at least 2 ways: (1) it assists antigen gathering at the synapse by promoting membrane ruffling and lymphocyte function–associated antigen 1 (LFA-1)–supported adhesion, and (2) it allows BCR signaling integration in motile B cells through establishment of LFA-1–supported migratory junctions. Both processes require functional actin cytoskeleton and non-muscle myosin II motor protein. Therefore, the CXCL13/CXCR5 signaling effect on shaping B-cell dynamics is an effective mechanism that enhances antigen encounter and BCR-triggered B-cell activation.
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Weber, Kim S. C., Georg Ostermann, Alma Zernecke, Andreas Schröder, Lloyd B. Klickstein, and Christian Weber. "Dual Role of H-Ras in Regulation of Lymphocyte Function Antigen-1 Activity by Stromal Cell-derived Factor-1α: Implications for Leukocyte Transmigration." Molecular Biology of the Cell 12, no. 10 (October 2001): 3074–86. http://dx.doi.org/10.1091/mbc.12.10.3074.
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We investigated the role of H-Ras in chemokine-induced integrin regulation in leukocytes. Stimulation of Jurkat T cells with the CXC chemokine stromal cell-derived factor-1α (SDF-1α) resulted in a rapid increase in the phosphorylation, i.e., activation of extracellular signal receptor-activated kinase (ERK) but not c-Jun NH2-terminal kinase or p38 kinase, and phosphorylation of Akt, reflecting phosphatidylinositol 3-kinase (PI3-K) activation. Phosphorylation of ERK in Jurkat cells was enhanced and attenuated by expression of dominant active (D12) or inactive (N17) forms of H-Ras, respectively, while N17 H-Ras abrogated SDF-1α-induced Akt phosphorylation. SDF-1α triggered a transient regulation of adhesion to intercellular adhesion molecule-1 (ICAM-1) and vascular cell adhesion molecule-1 mediated by lymphocyte function antigen-1 (LFA-1) and very late antigen-4 (VLA-4), respectively, and a rapid increase in LFA-1 binding to soluble ICAM-1.Ig, which was inhibited by D12 but not N17 H-Ras. Both D12 and N17 H-Ras abrogated the regulation of LFA-1 but not VLA-4 avidity, and impaired LFA-1–mediated transendothelial chemotaxis but not VLA-4–dependent transmigration induced by SDF-1α. Analysis of the mutant Jurkat J19 clone revealed LFA-1 with constitutively high affinity and reduced ERK phosphorylation, which were partially restored by expression of active H-Ras. Inhibition of PI3-K blocked the up-regulation of Jurkat cell adhesion to ICAM-1 by SDF-1α, whereas inhibition of mitogen-activated protein kinase kinase impaired the subsequent down-regulation and blocking both pathways abrogated LFA-1 regulation. Our data suggest that inhibition of initial PI3-K activation by inactive H-Ras or sustained activation of an inhibitory ERK pathway by active H-Ras prevail to abolish LFA-1 regulation and transendothelial migration induced by SDF-1α in leukocytes, establishing a complex and bimodal involvement of H-Ras.
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Chen, Ying-Yu, Mobeen Malik, Brian E. Tomkowicz, Ronald G. Collman, and Andrzej Ptasznik. "BCR-ABL1 Disrupts SDF-1-Dependent Hematopoietic Cell Migration and Adhesion through the LFA-1 Integrin-Mediated Mechanism." Blood 110, no. 11 (November 16, 2007): 1011. http://dx.doi.org/10.1182/blood.v110.11.1011.1011.
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Abstract Stromal-derived factor-1 (SDF-1) and its receptor, CXCR4, are essential for normal stem/progenitor cell movement, adherence, and retention within the bone marrow environment. Two mechanisms through which BCR-ABL1 are thought to disrupt CXCR4-mediated chemotactic responses have been described in leukemia: the inhibition of CXCR4 expression (Geay et al. 2005, Cancer Res.) and intra-cellular signaling defects without modification of CXCR4 expression (Salgia et al. 1999, Blood; Ptasznik et al. 2002, J. Exp. Med.). These opposing mechanisms suggest that the actual situation is more complex and that new signaling paradigms are needed. To address this, we studied the effects of BCR-ABL1 on SDF-1-dependent, integrin-mediated, migration and adhesion of hematopoietic precursors. Stimulation of BCR-ABL1(−) hematopoietic cells with SDF-1 showed reduced cell adherence to surfaces coated with ICAM-1 (a ligand for the LFA-1 integrin), which was associated with down-regulated expression of activation-dependent epitopes of the β2 integrin, LFA-1, on hematopoietic cells. Inhibition of Lyn expression with siRNA prevented the SDF-1-triggered down-regulation of LFA-1 and cell adherence, indicating that CXCR4 inhibited the function of LFA-1 through Lyn. Expression of BCR-ABL1 in these cells resulted in increased expression of activation-dependent epitopes of LFA-1 and prevented SDF-1-dependent regulatory effects on both LFA-1 affinity and ICAM-1 adherence. Also, expression of BCR-ABL1 prevented Lyn-mediated regulation of cell adhesion to ICAM-1 as well as Lyn-mediated regulation of LFA-1 affinity. These results indicate that BCR-ABL1 constitutively increases the affinity of the LFA-1 integrin to its ligand ICAM-1, locking the integrin into an “active” conformation. The net result is the loss of responsiveness of LFA-1 to SDF-1-induced ‘inside-out’ signaling involving CXCR4 and Lyn kinase. Because in our experiments BCR-ABL1 had no significant effect on the expression of CXCR4 in Mo7e cells, transfected with low and high amounts of p210-BCR-ABL, or in primary BCR-ABL(+) cells from CML blast crisis patients (n=3), we conclude that BCR-ABL1 inhibits CXCR4-triggered ‘inside-out’ integrin signaling rather than CXCR4 expression. Taken together, we propose that BCR-ABL1 disrupts the signaling link between the chemokine receptor, CXCR4 and the β2 integrin LFA-1 so as to inhibit normal SDF-1-mediated chemotaxis and adhesion in hematopoietic cells.
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Pasvolsky, Ronit, Sara W. Feigelson, Sara Sebnem Kilic, Amos J. Simon, Guy Tal-Lapidot, Valentin Grabovsky, Jill R. Crittenden, et al. "A LAD-III syndrome is associated with defective expression of the Rap-1 activator CalDAG-GEFI in lymphocytes, neutrophils, and platelets." Journal of Experimental Medicine 204, no. 7 (June 18, 2007): 1571–82. http://dx.doi.org/10.1084/jem.20070058.
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Leukocyte and platelet integrins rapidly alter their affinity and adhesiveness in response to various activation (inside-out) signals. A rare leukocyte adhesion deficiency (LAD), LAD-III, is associated with severe defects in leukocyte and platelet integrin activation. We report two new LAD cases in which lymphocytes, neutrophils, and platelets share severe defects in β1, β2, and β3 integrin activation. Patients were both homozygous for a splice junction mutation in their CalDAG-GEFI gene, which is a key Rap-1/2 guanine exchange factor (GEF). Both mRNA and protein levels of the GEF were diminished in LAD lymphocytes, neutrophils, and platelets. Consequently, LAD-III platelets failed to aggregate because of an impaired αIIbβ3 activation by key agonists. β2 integrins on LAD-III neutrophils were unable to mediate leukocyte arrest on TNFα-stimulated endothelium, despite normal selectin-mediated rolling. In situ subsecond activation of neutrophil β2 integrin adhesiveness by surface-bound chemoattractants and of primary T lymphocyte LFA-1 by the CXCL12 chemokine was abolished. Chemokine inside-out signals also failed to stimulate lymphocyte LFA-1 extension and high affinity epitopes. Chemokine-triggered VLA-4 adhesiveness in T lymphocytes was partially defective as well. These studies identify CalDAG-GEFI as a critical regulator of inside-out integrin activation in human T lymphocytes, neutrophils, and platelets.
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Flaishon, Liat, Gili Hart, Einat Zelman, Christine Moussion, Valentin Grabovsky, Guy Lapidot Tal, Sara Feigelson, et al. "Anti-inflammatory effects of an inflammatory chemokine: CCL2 inhibits lymphocyte homing by modulation of CCL21-triggered integrin-mediated adhesions." Blood 112, no. 13 (December 15, 2008): 5016–25. http://dx.doi.org/10.1182/blood-2007-12-129122.
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Abstract Our studies focus on the pathways that restrict homing of specific subsets of immune cells, and thereby fine-tune the immune response at specific lymphoid and peripheral tissues. Here, we report that CCL2 (at picomolar [pM] levels) renders both murine and human T cells defective in their ability to develop CCR7-triggered activation of LFA-1– and LFA-1–mediated adhesion strengthening to endothelial ICAM-1 both in vitro and in vivo. CCL2 also attenuated lymphocyte chemotaxis toward lymph node chemokines. Consequently, low-dose CCL2 inhibited lymphocyte homing to peripheral lymph nodes but did not affect lymphocyte trafficking through the spleen. Impaired homing of lymphocytes to peripheral lymph nodes resulted in attenuated progression of both asthma and adjuvant arthritis. Thus, pM levels of circulating CCL2 can exert global suppressive effects on T-cell trafficking and differentiation within peripheral lymph nodes, and may be clinically beneficial as an anti-inflammatory agent.
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Weber, Kim S. C., Lloyd B. Klickstein, and Christian Weber. "Specific Activation of Leukocyte β2 Integrins Lymphocyte Function–associated Antigen-1 and Mac-1 by Chemokines Mediated by Distinct Pathways via the α Subunit Cytoplasmic Domains." Molecular Biology of the Cell 10, no. 4 (April 1999): 861–73. http://dx.doi.org/10.1091/mbc.10.4.861.
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We show that CC chemokines induced a sustained increase in monocyte adhesion to intercellular adhesion molecule-1 that was mediated by Mac-1 (αMβ2) but not lymphocyte function–associated antigen-1 (LFA-1; αLβ2). In contrast, staining for an activation epitope revealed a rapid and transient up-regulation of LFA-1 activity by monocyte chemotactic protein-1 (MCP-1) in monocytes and Jurkat CCR2 chemokine receptor transfectants or by stromal-derived factor-1α in Jurkat cells. Differential kinetics for activation of Mac-1 (sustained) and LFA-1 (transient) avidity in response to stromal-derived factor-1α were confirmed by expression of αM or αL in αL-deficient Jurkat cells. Moreover, expression of chimeras containing αL and αM cytoplasmic domain exchanges indicated that α cytoplasmic tails conferred the specific mode of regulation. Coexpressing αM or chimeras in mutant Jurkat cells with a “gain of function” phenotype that results in constitutively active LFA-1 demonstrated that Mac-1 was not constitutively active, whereas constitutive activity was mediated via the αL cytoplasmic tail, implying the presence of distinct signaling pathways for LFA-1 and Mac-1. Transendothelial chemotaxis of monocytes in response to MCP-1 was dependent on LFA-1; however, Mac-1 was involved at MCP-1 concentrations stimulating its avidity, showing differential contributions of β2 integrins. Our data suggest that a specific regulation of β2 integrin avidity by chemokines may be important in leukocyte extravasation and may be triggered by distinct activation pathways transduced via the α subunit cytoplasmic domains.
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Bolomini-Vittori, Matteo, Alessio Montresor, Cinzia Giagulli, Donald Staunton, Barbara Rossi, Marianna Martinello, Gabriela Constantin, and Carlo Laudanna. "Regulation of conformer-specific activation of the integrin LFA-1 by a chemokine-triggered Rho signaling module." Nature Immunology 10, no. 2 (January 11, 2009): 185–94. http://dx.doi.org/10.1038/ni.1691.
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Ebisuno, Yukihiko, Koko Katagiri, Tomoya Katakai, Yoshihiro Ueda, Tomomi Nemoto, Hiroyuki Inada, Junichi Nabekura, et al. "Rap1 controls lymphocyte adhesion cascade and interstitial migration within lymph nodes in RAPL-dependent and -independent manners." Blood 115, no. 4 (January 28, 2010): 804–14. http://dx.doi.org/10.1182/blood-2009-03-211979.
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Abstract The small GTPase Rap1 and its effector RAPL regulate lymphocyte adhesion and motility. However, their precise regulatory roles in the adhesion cascade preceding entry into lymph nodes and during interstitial migration are unclear. Here, we show that Rap1 is indispensably required for the chemokine-triggered initial arrest step of rolling lymphocytes through LFA-1, whereas RAPL is not involved in rapid arrest. RAPL and talin play a critical role in stabilizing lymphocyte arrest to the endothelium of blood vessels under flow or to the high endothelial venules of peripheral lymph nodes in vivo. Further, mutagenesis and peptide studies suggest that release of a trans-acting restraint from the β2 cytoplasmic region of LFA-1 is critical for Rap1-dependent initial arrest. Rap1 or RAPL deficiency severely impaired lymphocyte motility over lymph node stromal cells in vitro, and RAPL deficiency impaired high-velocity directional movement within lymph nodes. These findings reveal the several critical steps of Rap1, which are RAPL-dependent and -independent, in lymphocyte trafficking.
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Feigelson, Sara W., Ronit Pasvolsky, Saso Cemerski, Ziv Shulman, Valentin Grabovsky, Tal Ilani, Adi Sagiv, et al. "Occupancy of Lymphocyte LFA-1 by Surface-Immobilized ICAM-1 Is Critical for TCR- but Not for Chemokine-Triggered LFA-1 Conversion to an Open Headpiece High-Affinity State." Journal of Immunology 185, no. 12 (November 15, 2010): 7394–404. http://dx.doi.org/10.4049/jimmunol.1002246.
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Malik, Mobeen, Ying-Yu Chen, Martha F. Kienzle, Ronald G. Collman, and Andrzej Ptasznik. "LFA1 Mediated Attachment of Primary Human Monocytes to Activated Brain Microvascular Endothelial Cells Is Regulated by SDF-1α through the SRC Family Kinase Lyn; Potential Involvement of This Signaling Pathway in HIV-Associated Dementia." Blood 110, no. 11 (November 16, 2007): 516. http://dx.doi.org/10.1182/blood.v110.11.516.516.
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Abstract Infiltration of activated monocytes into the brain of HIV-infected patients is a prerequisite for the development of HIV-associated dementia (HAD). The chemokine stromal derived factor-1α (SDF-1α) is expressed at increased levels in the central nervous system (CNS) of HAD patients and elicits chemotaxis and other cellular effects through its receptor CXCR4. In this project, we investigated the intracellular signaling pathway by which SDF-1α mediates the movement and attachment of monocytes to brain microvascular endothelia, and which may contribute to their infiltration into the CNS in HAD. We demonstrated that SDF-1α stimulates migration of primary human monocytes through its receptor CXCR4, and decreases monocyte adherence to surfaces coated with ICAM-1. SDF-1α also decreases monocyte adherence to brain microvascular endothelial cells (BMVEC) activated with the pro-inflammatory cytokines TNF-α or IL-1β, or with recombinant HIV-1 envelope glycoprotein (gp120), which increase endothelial cells expression of ICAM-1. The decreased monocyte adherence was linked to down regulation of the activation-dependent epitope of the β2 integrin LFA-1 which is a ligand for ICAM-1. We then demonstrated that the Src family kinase Lyn is a central modulator of migration and LFA-1-mediated adhesion of SDF-1α-stimulated primary monocytes. Using siRNA knockdown we achieved 80% down regulation of Lyn kinase in human monocytes. Lyn down regulation decreased SDF-1α-mediated migration and prevented its inhibition of monocyte attachment to ICAM-1 coated surfaces and activated BMVEC. These data indicate that in SDF-1α-stimulated primary human monocytes Lyn is a positive regulator of cell migration, and a negative regulator of cell adhesion to BMVEC by inhibiting the ICAM-1 binding activity of the LFA-1 integrin. Thus, CXCR4-triggered inside-out integrin signaling, through Lyn, inhibits adherence and stimulates movement of monocytes towards SDF-1α gradient on BMVEC monolayers. These results provide new insight into the intracellular signaling cascade that controls primary human monocytes movement and attachment at the blood brain barrier.
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Buschmann, Kirsten, Lutz Koch, Natascha Braach, Hanna Mueller, David Frommhold, Johannes Poeschl, and Peter Ruef. "CXCL1-Triggered Interaction of LFA1 and ICAM1 Control Glucose-Induced Leukocyte Recruitment during InflammationIn Vivo." Mediators of Inflammation 2012 (2012): 1–12. http://dx.doi.org/10.1155/2012/739176.
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It is well acknowledged that proinflammatory stimulation during acute hyperglycemia is able to aggravate inflammatory diseases. However, the mechanisms of proinflammatory effects of glucose are controversially discussed. We investigated leukocyte recruitment after intravenous injection of glucose in different inflammatory models using intravital microscopy. Flow chamber experiments, expression analysis, functional depletion, and knockout of key adhesion molecules gave mechanistic insight in involved pathways. We demonstrated that a single injection of glucose rapidly increased blood glucose levels in a dose-dependent manner. Notably, during tumor necrosis factor (TNF)α-induced inflammation leukocyte recruitment was not further enhanced by glucose administration, whereas glucose injection profoundly augmented leukocyte adhesion and transmigration into inflamed tissue in the trauma model, indicating that proinflammatory properties of glucose are stimulus dependent. Experiments with functional or genetic inhibition of the chemokine receptor CXCR2, intercellular adhesion molecule 1 (ICAM1), and lymphocyte function antigen 1 (LFA1) suggest that keratino-derived-chemokine CXCL1-triggered interactions of ICAM1 and LFA1 are crucially involved in the trauma model of inflammation. The lacking effect of glucose onβ2integrin expression and on leukocyte adhesion in dynamic flow chamber experiments argues against leukocyte-driven underlying mechanisms and favours an endothelial pathway since endothelial ICAM1 expression was significantly upregulated in response to glucose.
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Wagner, Julia A., Rizwan Romee, Maximillian Rosario, Melissa M. Berrien-Elliott, Stephanie E. Schneider, Jeffrey W. Leong, Ryan P. Sullivan, et al. "Human CD56bright NK Cells Acquire Potent Anti-Leukemia Functionality Following IL-15 Priming." Blood 128, no. 22 (December 2, 2016): 550. http://dx.doi.org/10.1182/blood.v128.22.550.550.
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Abstract Natural killer (NK) cells are innate lymphoid cells that mediate anti-tumor responses via cytotoxicity and effector cytokine production. Human NK cells are divided into two subsets based on relative expression of CD56 (CD56bright and CD56dim) that classically participate in distinct functions. Cytotoxic CD56dim NK cells respond to tumor targets without prior stimulation, resulting in target cell death and transient secretion of effector cytokines (e.g. IFN-γ). In contrast, immunoregulatory CD56bright NK cells secrete abundant IFN-γ and other cytokines in response to cytokine receptor stimulation, but respond minimally to tumor target-based triggering. As a result of this dichotomy, translational strategies to enhance NK cell function for cancer immunotherapy have focused exclusively on the CD56dim subset. Based upon studies in mouse NK cells, we hypothesized IL-15 priming would enhance CD56bright anti-tumor functionality. Primary human NK cells from healthy donors were purified (>95% CD56+CD3-), cultured overnight in medium alone (control) or medium with 5 ng/mL rhIL-15 (primed), washed, and assayed for anti-tumor responses. IL-15 priming significantly enhanced multiple CD56bright NK cell functional responses to the prototypical AML target cell line K562 (CD107a+: control 20% vs. primed 59%, p<0.001; IFN-γ+: 3% vs. 27%, p<0.001; TNF: 3% vs. 20%, p<0.001), as well as primary AML blasts (N=3 unique AML sample: CD107a+,7% vs. 30%, p<0.001; IFN-γ 2% vs. 14%, p<0.001; TNF: 2% vs. 22%, p<0.001). IL-15-priming of CD56bright NK cells was evident after 1 hour, and peaked after only 6 hours. In addition, flow-sorted IL-15-primed CD56bright NK cells exhibited markedly increased killing of leukemia target cells. Similar results for functional comparisons were observed using primary NK cells from AML patients. Unexpectedly, IL-15-primed CD56bright NK cell anti-leukemia responses significantly exceeded those of IL-15-primed CD56dim NK cells. Multidimensional CyTOF analyses revealed that the maturity status of CD56dim NK cells did not determine the extent to which they could be primed by IL-15. In response to IL-15, we observed selective activation of the PI3K/Akt/mTOR (4.2 fold increase CD56bright NK cells, 1.2 CD56dim NK cells, p<0.001) and Ras/Raf/MEK/ERK (1.9 fold increase CD56bright NK cells, 1.2 CD56dim NK cells, p<0.001) pathways in CD56bright NK cells. The Jak/STAT pathway was strongly activated in both CD56bright and CD56dim subsets. These data suggested a signaling mechanism for preferential CD56bright NK cell priming by IL-15. Indeed, small molecule inhibitors of PI3K/Akt/mTOR and Ras/Raf/MEK/ERK pathways abrogated the anti-tumor responses of IL-15-primed CD56bright NK cells, supporting this idea. Several NK cell effector mechanisms were enhanced in IL-15-primed CD56bright NK cells, likely contributing to their augmented anti-tumor responsiveness. These included increased cytotoxic effector protein levels (granzyme B and perforin), as well as improved conjugate formation with tumor targets. Furthermore, blocking experiments demonstrated that IL-15-primed CD56bright NK cell anti-tumor responses depended on LFA-1, CD2, and NKG2D receptor interactions with target cells. Finally, since IL-15-based therapeutics are being investigated in clinical trials, we tested whether the IL-15 super-agonist complex ALT-803 primes CD56bright NK cells in vivo in cancer patients. There was an increase in leukemia target cell-triggered degranulation (CD107a+ unprimed 7% vs. primed 30%, p<0.001) and cytokine production (IFN-γ+ 6% vs. 31%, p<0.01; TNF+ 2% vs. 20%, p<0.05) by CD56bright NK cells 24 hours post-ALT-803 administration to multiple myeloma patients, compared to unprimed, pre-therapy values. Collectively, these results suggest that CD56bright NK cells play an under-appreciated anti-tumor role in settings of abundant IL-15, such as following lymphodepleting chemotherapy, during preparation for stem cell transplantation, at sites of inflammation, or after exogenous IL-15 administration. Since CD56bright NK cells have different in vivo tissue localization (secondary lymphoid organs), distinct inhibitory, activating, and chemokine receptor expression compared to CD56dim NK cells, and are thought to be the most abundant NK cell subset when considering all human tissues, this study identifies a promising NK cell subset to harness for cancer immunotherapy. Disclosures No relevant conflicts of interest to declare.