The role of the immunomodulatory enzyme indoleamine 2,3-dioxygenase 2 (IDO2) in initiation, development, and treatment of autoimmune disorders

Abstract

Abstract The tryptophan catabolizing enzymes indoleamine 2,3-dioxygenase (IDO) 1 and 2 lie at the interface between metabolism and immunity. Recently, we identified a unique functional role for IDO2 in modulating the initiation and severity of autoimmune arthritis in a murine model of disease. We find that IDO2, but not its better-studied counterpart IDO1, acts as a pro-inflammatory mediator affecting autoantibody production and T helper cell function in the KRN preclinical model of arthritis. Reciprocal adoptive transfer experiments demonstrate that IDO2 acts by a B-cell intrinsic mechanism to regulate inflammation. IDO2 function in B cells was contingent on a cognate, antigen-specific interaction to exert its immunomodulatory effects on arthritis development. Alterations in costimulatory molecules and associated cytokines involved in cross-talk between B and T cells suggest that IDO2 acts at the T:B cell interface to modulate the potency of T cell help needed to promote autoantibody production. Given the paucity of novel therapies for rheumatoid arthritis and related autoimmune disorders, IDO2 should be considered as a potential novel therapeutic target for modulating disease pathways leading to autoimmunity. However, therapeutically targeting IDO2 has been challenging due to the lack of small molecules that specifically inhibit IDO2 without also affecting the closely related IDO1. To this end, we have recently begun development and characterization of approaches that ameliorate disease by specifically targeting IDO2. We find that we are able to recapitulate the reduction in arthritis seen in genetic knockouts with IDO2-targeted therapies in preclinical models of disease.