The ‘Treg paradox’ in inflammatory arthritis

Abstract

Classic regulatory T (Treg) cells expressing CD4 and the hallmark transcription factor FOXP3 are integral to the prevention of multi-system autoimmunity. However, immune-mediated arthritis is often associated with increased numbers of Treg cells in the inflamed joints. To understand these seemingly conflicting observations, which we collectively describe as ‘the Treg paradox’, we provide an overview of Treg cell biology with a focus on Treg cell heterogeneity, function and dysfunction in arthritis. We discuss how the inflamed environment constrains the immunosuppressive activity of Treg cells while also promoting the differentiation of TH17-like Treg cell, exTreg cell (effector T cells that were formerly Treg cells), and osteoclastogenic Treg cell subsets that mediate tissue injury. We present a new framework to understand Treg cells in joint inflammation and define potential strategies for Treg cell-directed interventions in human inflammatory arthritis. In this Review, Nigrovic and colleagues examine potential mechanisms underlying the paradoxical continuation of inflammation in arthritis, despite the increased numbers of regulatory T cells in inflamed joints, and discuss the implications for regulatory T cell-targeted therapeutic interventions in inflammatory arthritis.