Cellular And Molecular Life Sciences : Cmls
The susceptibility to autoimmune diseases is conditioned by the association of modest genetic alterations which altogether weaken self-tolerance. The mechanism whereby these genetic interactions modulate T-cell pathogenicity remains largely uncovered. Here, we investigated the epistatic interaction of two interacting proteins involved in T Cell Receptor signaling and which were previously associated with the development of Multiple Sclerosis. To this aim, we used mice expressing an hypomorphic variant of Vav1 (Vav1R63W), combined with a T cell-conditional deletion of Themis. We show that the combined mutations in Vav1 and Themis induce a strong attenuation of the severity of Experimental Autoimmune Encephalomyelitis (EAE), contrasting with the moderate effect of the single mutation in each of those two proteins. This genotype-dependent gradual decrease of EAE severity correlates with decreased quantity of phosphorylated Vav1 in CD4 T cells, establishing that Themis promotes the development of encephalitogenic Tconv response by enhancing Vav1 activity. We also show that the cooperative effect of Themis and Vav1 on EAE severity is independent of regulatory T cells and unrelated to the impact of Themis on thymic selection. Rather, it results from decreased production of pro-inflammatory cytokines (IFN-?, IL-17, TNF and GM-CSF) and reduced T cell infiltration in the CNS. Together, our results provide a rationale to study combination of related genes, in addition to single gene association, to better understand the genetic bases of human diseases.