Abstract
Regulatory T cells (Tregs) accumulate in the visceral adipose tissue (VAT) to maintain systemic metabolic homeostasis but decline during obesity. Here, we explored the metabolic pathways controlling the homeostasis, composition, and function of VAT Tregs under normal and high-fat diet feeding conditions. We found that cholesterol metabolism was specifically up-regulated in ST2hi VAT Treg subsets. Treg-specific deletion of Srebf2, the master regulator of cholesterol homeostasis, selectively reduced ST2hi VAT Tregs, increasing VAT inflammation and insulin resistance. Single-cell RNA/T cell receptor (TCR) sequencing revealed a specific loss and reduced clonal expansion of ST2hi VAT Treg subsets after Srebf2 deletion. Srebf2-mediated cholesterol homeostasis potentiated strong TCR signaling, which preferentially promoted ST2hi VAT Treg accumulation. However, long-term high-fat diet feeding disrupted VAT Treg cholesterol homeostasis and impaired clonal expansion of the ST2hi subset. Restoring Treg cholesterol homeostasis rescued VAT Treg accumulation in obese mice, suggesting that modulation of cholesterol homeostasis could be a promising strategy for Treg-targeted therapies in obesity-associated metabolic diseases.
Published Version
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