The C3-like molecule CD109 controls Th1 versus Th17 induction in CD4+ T cells

Abstract

Abstract Recent workdefined an unexpected and critical role for intracellular/autocrine active complement in human Th1 biology. Specifically, autocrine stimulation of CD46via TCR-induced C3b generation is needed for IFN-γ production by human CD4+ T cells. Thus, CD46-deficient patients are unable to generate normal Th1 responses. Analysis of the CD46-driven gene signature in Th1 cells revealed CD109 as a direct target of CD46. Indeed, T cells from CD46 deficient patients and from healthy donors in which CD46 expression was ablated via CRISPR-Cas9 technology failed to upregulate CD109. CD109 is aGPI-linked surface protein, mostly expressed on non-immune cells, and belongs to the complement C3 protein family. Though CD109 has been reported as a major negative regulator of TGF-β receptor signaling, direct functional activity for of CD109 on T cells remains unexplored. Knock-out of CD109 in human CD4+ T cells with CRISPR-Cas9 technology induced uncontrolled Th1 and Th17 activation upon in vitro stimulation under non-skewing conditions. Similarly, CD4+T cells from Cd109−/− mice displayed augmented Th1 and Th17 in vitro responses and caused significantly more tissue pathology and weight loss in a T cell-transfer colitis model. Surprisingly, on T cells, CD109 does not restrain IFN-γ and/or IL-17 induction via modulation of TGF-β receptor activity. Instead, CD109 engages with a non-canonical costimulatory molecule and controls stemness- and metabolism-related signaling pathways. Together, these data suggest that the complement-related protein CD109 serves as an important and novel molecular switch on CD4+ T-cells, where it regulates the balance between Th1 and Th17-induction pathways.