<scp>CXCR</scp>7 influences the migration of <scp>B</scp> cells during maturation

Humpert, Marie-Luise; Pinto, Dora; Jarrossay, David; Thelen, Marcus

doi:10.1002/eji.201343907

Cited by 36 publications

(33 citation statements)

References 62 publications

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“…Notwithstanding this possibility, the notion of a specific role for MIF/CXCR7 was further substantiated by the observation that MIF‐mediated B‐cell chemotaxis was similarly inhibited by the CXCR4 antagonist AMD3100, confirming prior results (14), whereas CXCL12‐mediated B‐cell chemotaxis was blocked by AMD3100 but not by anti‐CXCR7 antibody. The latter result was in contrast to prior data showing that antibody‐based CXCR7 blockade led to an increase in migration (29, 45). This discrepancy could be caused by the cell type used (primary murine splenic B cells) or antibody dose applied.…”

Section: Discussioncontrasting

confidence: 99%

“…In addition, one study showed that CXCL12 signals through CXCR7 to promote T‐cell migration, an effect that was reduced by a CXCR7‐blocking antibody (19), whereas in another study, blockade of CXCR7 with a neutralizing antibody or the small‐molecule compound CCX733 showed no impact on CXCL12‐enhanced T‐cell chemotaxis (61). In B lymphocytes, Humpert et al (45) demonstrated that blocking CXCR7 in in vitro ‐differentiated cells enhances CXCR4‐dependent migration of B cells toward CXCL12, implicating CXCR7 in the migration of B cells during maturation. We found that targeting CXCR7 with a neutralizing antibody significantly inhibited splenic B‐cell chemotaxis in response to MIF, whereas CXCL12‐mediated chemotaxis of primary B cells was not affected.…”

Section: Discussionmentioning

confidence: 99%

“…To further address the biologic relevance of MIF/ CXCR7 binding, we used primary murine B cells and studied the role of CXCR7 in MIF-triggered ERK-MAPK and ZAP-70 signaling, as well as migration responses, as these activities have been associated with MIF in B cells (14). In addition, CXCR7 has been shown to play an indirect role in CXCL12/CXCR4-dependent B-cell migration (45).…”

Section: Mif/cxcr7 Mediates Cell Signaling and Cell Migration Responsmentioning

confidence: 99%

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MIF interacts with CXCR7 to promote receptor internalization, ERK1/2 and ZAP‐70 signaling, and lymphocyte chemotaxis

et al. 2015

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Macrophage migration-inhibitory factor (MIF) is a pleiotropic cytokine with chemokine-like functions and is a mediator in numerous inflammatory conditions. Depending on the context, MIF signals through 1 or more of its receptors cluster of differentiation (CD)74, CXC-motif chemokine receptor (CXCR)2, and CXCR4. In addition, heteromeric receptor complexes have been identified. We characterized the atypical chemokine receptor CXCR7 as a novel receptor for MIF. MIF promoted human CXCR7 internalization up to 40%, peaking at 50-400 nM and 30 min, but CXCR7 internalization by MIF was not dependent on CXCR4. Yet, by coimmunoprecipitation, fluorescence microscopy, and a proximity ligation assay, CXCR7 was found to engage in MIF receptor complexes with CXCR4 and CD74, both after ectopic overexpression and in endogenous conditions in a human B-cell line. Receptor competition binding and coimmunoprecipitation studies combined with sulfo-SBED-biotintransfer provided evidence for a direct interaction between MIF and CXCR7. Finally, we demonstrated MIF/ CXCR7-mediated functional responses. Blockade of CXCR7 suppressed MIF-mediated ERK-and zeta-chainassociated protein kinase (ZAP)-70 activation (from 2.1-to 1.2-fold and from 2.5-to 1.6-fold, respectively) and fully abrogated primary murine B-cell chemotaxis triggered by MIF, but not by CXCL12. B cells from Cxcr7 2/2 mice exhibited an ablated transmigration response to MIF, indicating that CXCR7 is essential for MIF-promoted B-cell migration. Our findings provide biochemical and functional evidence that MIF is an alternative ligand of CXCR7 and suggest a functional role of the MIF-CXCR7 axis in Blymphocyte migration.-Alampour-Rajabi, S., El Bounkari, O., Rot, A., Müller-Newen, G., Bachelerie, F., Gawaz, M., Weber, C., Schober, A., Bernhagen, J. MIF interacts with CXCR7 to promote receptor internalization, ERK1/2 and ZAP-70 signaling, and lymphocyte chemotaxis. FASEB J. 29, 4497-4511 (2015). www.fasebj.org

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Section: Discussioncontrasting

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Mif/cxcr7 Mediates Cell Signaling and Cell Migration Responsmentioning

confidence: 99%

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MIF interacts with CXCR7 to promote receptor internalization, ERK1/2 and ZAP‐70 signaling, and lymphocyte chemotaxis

et al. 2015

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“…In addition, the scavenging activity of the receptor is essential to prevent CXCR4 down-regulation, e.g., during migration of interneurons [44,45]. Recently, it was shown that ACKR3 expression on CXCR4 + plasma blasts licenses them to leave CXCL12-rich germinal centers [46]. Under inflammatory conditions when endothelial cells up-regulate ACKR3, the receptor promotes infiltration of leukocytes into the brain parenchyma through scavenging of perivascular CXCL12 at the basal site of brain blood microvessels [47].…”

Section: Ligand-biased Signaling and Its Role In Chemokine Biologymentioning

confidence: 99%

Biased signaling pathways via CXCR3 control the development and function of CD4+ T cell subsets

Karin

Wildbaum

Thelen

2015

Journal of Leukocyte Biology

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Structurally related chemotactic cytokines (chemokines) regulate cell trafficking through interactions with 7-transmembrane domain, G protein-coupled receptors. Biased signaling or functional selectivity is a concept that describes a situation where a 7-transmembrane domain receptor preferentially activates one of several available cellular signaling pathways. It can be divided into 3 distinct cases: ligand bias, receptor bias, and tissue or cell bias. Many studies, including those coming from our lab, have shown that only a limited number of chemokines are key drivers of inflammation. We have referred to them as "driver chemokines." They include the CXCR3 ligands CXCL9 and CXCL10, the CCR2 ligand CCL2, all 3 CCR5 ligands, and the CCR9 ligand CCL25. As for CXCR3, despite the proinflammatory nature of CXCL10 and CXCL9, transgenic mice lacking CXCR3 display an aggravated manifestation of different autoimmune disease, including Type I diabetes and experimental autoimmune encephalomyelitis. Recently, we showed that whereas CXCL9 and CXCL10 induce effector Th1/Th17 cells to promote inflammation, CXCL11, with a relatively higher binding affinity to CXCR3, drives the development of the forkhead box P3-negative IL-10 high T regulatory 1 cell subset and hence, dampens inflammation. We also showed that CXCL9/CXCL10 activates a different signaling cascade than CXCL11, despite binding to the same receptor, CXCR3, which results in these diverse biologic activities. This provides new evidence for the role of biased signaling in regulating biologic activities, in which CXCL11 induces ligand bias at CXCR3 and receptor-biased signaling via atypical chemokine receptor 3.

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“…Previous research has shown that human breast adipose-derived stem cells (HBASCs) transfected with CXCR4 can enhance the survival and quality of transplanted free fat tissues in nude mice [26]. CXCR7, an atypical chemokine receptor that binds CXCL12 and CXCL11 [27], has also been shown to associate with CXCR4 and regulate CXCR4/SDF-1-mediated processes, such as the migration of plasmablasts during B-cell maturation [28]. However, the CXCR7-mediated cellular responses to CXCL12 are still largely unknown.…”

Section: Cd1dmentioning

confidence: 99%

Induction of Regulatory B-Cells by Mesenchymal Stem Cells is Affected by SDF-1α-CXCR7

Qin

Zhou

Zhang

et al. 2015

Cell Physiol Biochem

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Background/Aims: Mesenchymal stem cells (MSCs) possess immunomodulatory properties on a diverse array of immune cell lineages, including regulatory T and B cells (Tregs and Bregs, respectively). However, their specific effects and mechanisms underlying induction of Bregs remain unclear. The immune regulatory function of MSCs is exerted through both cell-cell contact and the release of soluble factors. The main objective of this study was to examine the role of the SDF-1-CXCR4/CXCR7 axis in the secretory action of MSCs, and potential effects on the immunoregulatory function of these cells. Methods: MSCs were isolated from mouse bone marrow and characterized according to their multilineage differentiation potential and their surface antigen expression. CD19⁺ B cells purified from mice splenocytes were co-cultured with MSCs at various ratios in the presence of LPS and αCD40. After 4 days, intracellular IL-10 production and cell surface CD1d and CD5 expression by CD19⁺ B cells were determined using flow cytometry, and the secretion of IL-10, IL-6, IgM, and IgG were assessed with ELISA. MSCs were treated with different concentrations of stromal derived factor-1α (SDF-1α) stimuli or transiently overexpressed with CXCR7. and their cell viability and immune regulatory effects of MSCs on Bregs were assessed. Results: MSCs induced IL-10-producing regulatory B cells and primarily stimulated the CD1d⁺CD5⁺B cell subset of IL-10⁺Breg cells to express IL-10. IL-10, IL-6, and IgM secretion were additionally induced by MSCs. The CXCR7 pathway was required for MSC viability and the production of paracrine factors under SDF-1α culture condition. Low concentrations of SDF-1α promoted the immunomodulatory effect of MSCs, leading to a further increase in IL-10-producing regulatory B cells and IL-10 secretion. In contrast, high concentrations of SDF-1α inhibited MSCs induction of IL-10⁺Breg cells. Notably, CXCR7 overexpression in MSCs reversed the inhibitory effect of high concentrations of SDF-1α and promoted the immunomodulatory effect of these cells. Conclusion: MSCs induce IL-10⁺Breg cells, which contribute to the generation of an immunosuppressive environment. SDF-1α and its receptor, CXCR7 play important roles in the immunomodulatory function of MSCs by regulating their paracrine actions.

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CXCR7 influences the migration of B cells during maturation

Cited by 36 publications

References 62 publications

MIF interacts with CXCR7 to promote receptor internalization, ERK1/2 and ZAP‐70 signaling, and lymphocyte chemotaxis

MIF interacts with CXCR7 to promote receptor internalization, ERK1/2 and ZAP‐70 signaling, and lymphocyte chemotaxis

Biased signaling pathways via CXCR3 control the development and function of CD4+ T cell subsets

Induction of Regulatory B-Cells by Mesenchymal Stem Cells is Affected by SDF-1α-CXCR7

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