STAT1 gain of function mutation impairs immune response to viral infections

Abstract

Abstract Regulation of T cells by interferons and other cytokines, which act via STAT family transcription factors, is critical for host defense. Patients with STAT1 gain-of-function (GOF) mutations exhibit heightened STAT1 activation after cytokine stimulation and develop lifelong ailments, including chronic infections, autoimmunity, and cancer. A characteristic feature of this disorder is chronic mucocutaneous candidiasis (CMC), related to exagerated type 1/IFNγ bias that antagonizes a type 3/Th17 response required for fungal clearance. However, this type 1/IFNγ bias does not explain why almost 40% of reported patients exhibit chronic and sometimes lethal viral infections. This observation is unexpected, as cells with STAT1-GOF mutations exhibit increased expression of interferon stimulated genes following IFNα/β and IFNγ stimulation and patients show more IFNγ-producing CD4 T cells. This paradox emphasizes the critical need to understand basic principles of cytokine signaling, specifically how a STAT1-GOF mutation alters cytokine output. Using a novel conditional knock-in mouse expressing a common GOF STAT1 mutation, T385M, we found that this model recapitulates observations in patients (i.e. elevated STAT1 activation, increased total STAT1 protein, susceptibility to CMC), as well as a strong type 1/interferon bias at steady state. Despite this type 1 bias, STAT1-GOF exhibit impaired NK and CD8 T cell response to systemic viral infections. These results reveal that STAT1 activity must be tuned for proper immune response to viral infections.