TCR tuning by homeostatic cytokines — implication for autoimmunity (101.16)

Abstract

Abstract In animal models, lymphopenia and the associated function of homeostatic cytokines (HC) set the stage for autoimmunity. This model is relevant for rheumatoid arthritis (RA) which has defects in T cell homeostasis due to a failure in DNA repair and which responds to JAK inhibition. We have previously shown that RA T cells have a hyperreactive ERK response which impairs the induction of anergy. Here, we examined whether HC tune TCR activation thresholds by calibrating the ERK rheostat. RA T cells exhibited increased levels of phosphorylated STAT3 and STAT5 indicating in vivo activity of IL-21/IL6 and IL-7/IL-15. Incubation of healthy donor T cells with IL-7, IL15 or IL21 prior to anti-CD3/CD28 stimulation augmented ERK activation and expression of activation markers (CD69, CD40L) and cytokines (TNFα, IFNγ and IL-17). Preincubation with IL-1β or TNFα did not exert an effect. In DR4 healthy donors, HC priming facilitated responses to self-antigens such as citrullinated vimentin peptide. The effect of HC lasted for less than 3 hours and was sensitive to PI3K inhibition suggesting a non-transcriptional PI3K mediated priming of the ERK pathway. HC dose titration showed a bimodal distribution in pERK consistent with an on-off switch characteristic of a positive feedback loop. Allosteric binding of RAS-GTP to SOS is known to induce such an on-off switch. Indeed, HC incubation increased active RAS. We propose that HC lower the threshold for autoimmune responses by priming of SOS.