Anti-coreceptor therapy drives selective T cell egress by suppressing inflammation-dependent chemotactic cues
Aaron J. Martin, … , Bo Wang, Roland Tisch
Aaron J. Martin, … , Bo Wang, Roland Tisch
Published October 20, 2016
Citation Information: JCI Insight. 2016;1(17):e87636. https://doi.org/10.1172/jci.insight.87636.
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Research Article Therapeutics

Anti-coreceptor therapy drives selective T cell egress by suppressing inflammation-dependent chemotactic cues

Abstract

There continues to be a need for immunotherapies to treat type 1 diabetes in the clinic. We previously reported that nondepleting anti-CD4 and -CD8 Ab treatment effectively reverses diabetes in new-onset NOD mice. A key feature of the induction of remission is the egress of the majority of islet-resident T cells. How this occurs is undefined. Herein, the effects of coreceptor therapy on islet T cell retention were investigated. Bivalent Ab binding to CD4 and CD8 blocked TCR signaling and T cell cytokine production, while indirectly downregulating islet chemokine expression. These processes were required for T cell retention, as ectopic IFN-γ or CXCL10 inhibited Ab-mediated T cell purging. Importantly, treatment of humanized mice with nondepleting anti–human CD4 and CD8 Ab similarly reduced tissue-infiltrating human CD4+ and CD8+ T cells. These findings demonstrate that Ab binding of CD4 and CD8 interrupts a feed-forward circuit by suppressing T cell–produced cytokines needed for expression of chemotactic cues, leading to rapid T cell egress from the islets. Coreceptor therapy therefore offers a robust approach to suppress T cell–mediated pathology by purging T cells in an inflammation-dependent manner.

Authors

Aaron J. Martin, Matthew Clark, Gregory Gojanovich, Fatima Manzoor, Keith Miller, Douglas E. Kline, Y. Maurice Morillon, Bo Wang, Roland Tisch

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Figure 2

YTS Abs induce rapid reduction of cytokine and chemokine expression in the islets.

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YTS Abs induce rapid reduction of cytokine and chemokine expression in t...
Twelve-week-old female NOD mice were treated with YTS177 and YTS105 or control 2A3, and RNA prepared from isolated islets pooled from 3 mice at indicated times after treatment. Expression levels of CD3 (A) and proinflammatory cytokines (B). Islets from 3 mice were pooled for each data point. Relative expression data from 3 biological replicates were averaged and plotted. (C) CD4+ and CD8+ T cells and non–T cells were sorted from islets harvested 6 hours after treatment and IFNG expression quantified by real-time PCR. Data points indicate 3 biological replicates. Islets were harvested from NOD.BDC (D) or NOD.8.3 (E) mice, cultured for 72 hours with intact or Fab YTS177 or YTS105, respectively, or 2A3, and supernatants assessed for IFN-γ via ELISA. Data represent 3 replicate experiments. (F) Expression of CXC-family chemokines was measured by real-time PCR. Islets from 3 mice were pooled for each data point. Relative expression data from 3 biological replicates were averaged and plotted. *P < 0.05, **P < 0.01 (one-way ANOVA and Bonferroni’s multiple comparisons correction).