OBJECTIVE: A subset of CD4+ T cells in the synovium of patients with rheumatoid arthritis (RA) produce CXCL13, a chemokine that is crucial for the formation of germinal centers. This study was undertaken to determine the relevance of this population to known subsets of T helper cells and to proinflammatory cytokines, and how these cells are generated. METHODS: The expression of Th markers and CXCL13 by CD4+ T cells in RA synovium and the involvement of proinflammatory cytokines in CXCL13 production were assessed. We also investigated whether CXCL13+CD4+ T cells could be newly induced. RESULTS: CXCL13+CD4+ T cells in RA synovium were negative for interferon-γ (IFNγ), interleukin-4 (IL-4), IL-17, FoxP3, and CXCR5 and expressed low levels of inducible T cell costimulator, indicating that this population is a distinct human CD4 subset. T cell receptor (TCR) stimulation of CD4+ T cells, obtained from RA synovium with low expression of CXCL13, promptly induced CXCL13 production and addition of proinflammatory cytokines supported the long-term production of CXCL13. These findings indicate that CXCL13-producing CD4+ T cells can be in a memory state ready to be reactivated upon TCR stimulation and that proinflammatory cytokines are involved in persistent CXCL13 production. TCR stimulation of CD4+ T cells from the blood of healthy volunteers, together with proinflammatory cytokine supplementation, induced a population that produced CXCL13, but not IFNγ. Synovial T cells recruited CXCR5+ cells in a CXCL13-dependent manner. CONCLUSION: CXCL13-producing CD4+ T cells induced in RA synovium may play a role in the recruitment of CXCR5+ cells, such as B cells and circulating follicular helper T cells, and in ectopic lymphoid neogenesis at sites of inflammation.
OBJECTIVE: A subset of CD4+ T cells in the synovium of patients with rheumatoid arthritis (RA) produce CXCL13, a chemokine that is crucial for the formation of germinal centers. This study was undertaken to determine the relevance of this population to known subsets of T helper cells and to proinflammatory cytokines, and how these cells are generated. METHODS: The expression of Th markers and CXCL13 by CD4+ T cells in RA synovium and the involvement of proinflammatory cytokines in CXCL13 production were assessed. We also investigated whether CXCL13+CD4+ T cells could be newly induced. RESULTS:CXCL13+CD4+ T cells in RA synovium were negative for interferon-γ (IFNγ), interleukin-4 (IL-4), IL-17, FoxP3, and CXCR5 and expressed low levels of inducible T cell costimulator, indicating that this population is a distinct humanCD4 subset. T cell receptor (TCR) stimulation of CD4+ T cells, obtained from RA synovium with low expression of CXCL13, promptly induced CXCL13 production and addition of proinflammatory cytokines supported the long-term production of CXCL13. These findings indicate that CXCL13-producing CD4+ T cells can be in a memory state ready to be reactivated upon TCR stimulation and that proinflammatory cytokines are involved in persistent CXCL13 production. TCR stimulation of CD4+ T cells from the blood of healthy volunteers, together with proinflammatory cytokine supplementation, induced a population that produced CXCL13, but not IFNγ. Synovial T cells recruited CXCR5+ cells in a CXCL13-dependent manner. CONCLUSION:CXCL13-producing CD4+ T cells induced in RA synovium may play a role in the recruitment of CXCR5+ cells, such as B cells and circulating follicular helper T cells, and in ectopic lymphoid neogenesis at sites of inflammation.
Authors: Deepak A Rao; Michael F Gurish; Jennifer L Marshall; Kamil Slowikowski; Chamith Y Fonseka; Yanyan Liu; Laura T Donlin; Lauren A Henderson; Kevin Wei; Fumitaka Mizoguchi; Nikola C Teslovich; Michael E Weinblatt; Elena M Massarotti; Jonathan S Coblyn; Simon M Helfgott; Yvonne C Lee; Derrick J Todd; Vivian P Bykerk; Susan M Goodman; Alessandra B Pernis; Lionel B Ivashkiv; Elizabeth W Karlson; Peter A Nigrovic; Andrew Filer; Christopher D Buckley; James A Lederer; Soumya Raychaudhuri; Michael B Brenner Journal: Nature Date: 2017-02-01 Impact factor: 49.962