Abstract

Regulatory T (Treg) cells are critical for maintaining peripheral tolerance and preventing autoimmunity. Treg cell depletion or dysfunction rapidly results in fatal multiorgan inflammation linked to unrestrained effector T cell expansion, but the cytokine network underlying immunopathology, and its direct cellular mediators, remain elusive. Here, we combined gene targeting, fate-mapping tools, and high-dimensional cytometry to identify the T helper (TH) cell-derived cytokines and responding cells that execute inflammatory tissue damage upon global loss of peripheral tolerance in mice. We found that TH cell-derived GM-CSF, but not IL-17A, directed the ensuing immunopathology and thereby mortality through recruitment of tissue-invading phagocytes and granulocytes, and enhancement of their reactive oxygen species production and phagocytic proficiency. Our study highlights the critical role of Treg cells in controlling GM-CSF- producing TH cells and type 1-responses to restrain phagocyte-mediated tissue destruction and provides a framework for the use of anti-GM-CSF therapies in patients with chronic inflammatory disorders.