THEMIS enhances the magnitude of normal and neuroinflammatory type 1 immune responses by promoting TCR-independent signals.

Signals that determine the differentiation of naïve CD4+ T helper (TH) cells into specific effector cell subsets are primarily stimulated by cytokines, but additional signals are required to adjust the magnitude of TH cell responses and set the balance between effective immunity and immunological tolerance. By inducing the post-thymic deletion of the T cell lineage signaling protein THEMIS, we showed that THEMIS promoted the development of optimal type 1 immune responses to foreign antigens but stimulated signals that favored encephalitogenic responses to self-neuroantigens. THEMIS was required to stimulate the expression of the gene encoding the transcriptional regulator T-BET and the production of the cytokine interferon-γ (IFN-γ), and it enhanced the ability of encephalitogenic CD4+ T cells to migrate into the central nervous system. Consistently, analysis of THEMIS expression in polarized CD4+ T cells showed that THEMIS was selectively increased in abundance in TH1 cells. The stimulation of predifferentiated effector CD4+ T cells with antigen-presenting cells revealed a stimulatory function for THEMIS on type 1 cytokine responses, similar to those observed ex vivo after immunization. In contrast, THEMIS exerted opposing effects on naïve CD4+ T cells in vitro by inhibiting the T cell receptor (TCR)-mediated signals that lead to TH1 cell responses. These data suggest that THEMIS exerts TCR-independent functions in effector T cells, which increase the magnitude of normal and pathogenic TH1 cell-mediated responses.

CD5 signalosome coordinates antagonist TCR signals to control the generation of Treg cells induced by foreign antigens.

CD5 is characterized as an inhibitory coreceptor with an important regulatory role during T cell development. The molecular mechanism by which CD5 operates has been puzzling and its function in mature T cells suggests promoting rather than repressing effects on immune responses. Here, we combined quantitative mass spectrometry and genetic studies to analyze the components and the activity of the CD5 signaling machinery in primary T cells. We found that T cell receptor (TCR) engagement induces the selective phosphorylation of CD5 tyrosine 429, which serves as a docking site for proteins with adaptor functions (c-Cbl, CIN85, CRKL), connecting CD5 to positive (PI3K) and negative (UBASH3A, SHIP1) regulators of TCR signaling. c-CBL acts as a coordinator in this complex enabling CD5 to synchronize positive and negative feedbacks on TCR signaling through the other components. Disruption of CD5 signalosome in mutant mice reveals that it modulates TCR signal outputs to selectively repress the transactivation of Foxp3 and limit the inopportune induction of peripherally induced regulatory T cells during immune responses against foreign antigen. Our findings bring insights into the paradigm of coreceptor signaling, suggesting that, in addition to providing dualistic enhancing or dampening inputs, coreceptors can engage concomitant stimulatory and inhibitory signaling events, which act together to promote specific functional outcomes.

Grb2-Mediated Recruitment of USP9X to LAT Enhances Themis Stability following Thymic Selection.

Themis is a new component of the TCR signaling machinery that plays a critical role during T cell development. The positive selection of immature CD4+CD8+ double-positive thymocytes and their commitment to the CD4+CD8- single-positive stage are impaired in Themis-/- mice, suggesting that Themis might be important to sustain TCR signals during these key developmental processes. However, the analysis of Themis mRNA levels revealed that Themis gene expression is rapidly extinguished during positive selection. We show in this article that Themis protein expression is increased in double-positive thymocytes undergoing positive selection and is sustained in immature single-positive thymocytes, despite the strong decrease in Themis mRNA levels in these subsets. We found that Themis stability is controlled by the ubiquitin-specific protease USP9X, which removes ubiquitin K48-linked chains on Themis following TCR engagement. Biochemical analyses indicate that USP9X binds directly to the N-terminal CABIT domain of Themis and indirectly to the adaptor protein Grb2, with the latter interaction enabling recruitment of Themis/USP9X complexes to LAT, thereby sustaining Themis expression following positive selection. Together, these data suggest that TCR-mediated signals enhance Themis stability upon T cell development and identify USP9X as a key regulator of Themis protein turnover.

Themis1 enhances T cell receptor signaling during thymocyte development by promoting Vav1 activity and Grb2 stability.

The T cell signaling protein Themis1 is essential for the positive and negative selection of thymocytes in the thymus. Although the developmental defect that results from the loss of Themis1 suggests that it enhances T cell receptor (TCR) signaling, Themis1 also recruits Src homology 2 domain-containing phosphatase-1 (SHP-1) to the vicinity of TCR signaling complexes, suggesting that it has an inhibitory role in TCR signaling. We used TCR signaling reporter mice and quantitative proteomics to explore the role of Themis1 in developing T cells. We found that Themis1 acted mostly as a positive regulator of TCR signaling in vivo when receptors were activated by positively selecting ligands. Proteomic analysis of the Themis1 interactome identified SHP-1, the TCR-associated adaptor protein Grb2, and the guanine nucleotide exchange factor Vav1 as the principal interacting partners of Themis1 in isolated mouse thymocytes. Analysis of TCR signaling in Themis1-deficient and Themis1-overexpressing mouse thymocytes demonstrated that Themis1 promoted Vav1 activity both in vitro and in vivo. The reduced activity of Vav1 and the impaired T cell development in Themis1(-/-) mice were due in part to increased degradation of Grb2, which suggests that Themis1 is required to maintain the steady-state abundance of Grb2 in thymocytes. Together, these data suggest that Themis1 acts as a positive regulator of TCR signaling in developing T cells, and identify a mechanism by which Themis1 regulates thymic selection.