T cell-intrinsic C5L2 activation protects against uncontrolled inflammatory Th responses and autoimmunity

Abstract

Abstract Intracellular/autocrine complement proteins have emerged as critical regulators of human Th1 induction and contraction. T cells contain both intracellular C3 and C5 activation systems, with intracellular C3aR1 and C5aR1 stimulation driving T cell homeostatic survival and normal Th1 IFN-gamma production, respectively. Here we demonstrate how the intracellular/autocrine C5 system is regulated by using T cells from the first described patient with C5aR2 deficiency. This patient suffers from an autoinflammatory syndrome, with enhanced inflammatory Th responses and a profound loss of naïve CD4 T cells (95% of CD4 T cells in the blood have a memory T cell phenotype). Thus, in contrast to intracellular C5aR1 stimulation, cell surface expressed C5aR2 is an important negative regulator of inflammatory Th induction. While both C5aR1 and C5aR2 can bind C5a, we found that the carboxypeptidase-processed form of C5a, C5a-desArg, was twice as potent as C5a in reducing Th1 induction. In addition, carboxypeptidase M (CPM) expression was highly induced upon T cell activation indicating that CPM may be mediating T cell-derived C5a-desArg generation and thus, C5aR2 stimulation. In this vein, activation of T cells in the presence of a CPM inhibitor induced Th1 hyper-induction, which was rescued by addition of a C5aR2 agonist and reduced by adding C5a-desArg, but not C5a. The in vivo importance of T cell-expressed CPM and autocrine C5aR2 activation is demonstrated by the fact that CPM−/− mice have enhanced inflammatory Th responses and CPM−/− T cells cause increased pathology in an in vivo T cell transfer colitis model. These data highlight the complex auto-regulatory functions of complement in T cell responses.