Glucocorticoid signaling and regulatory T cell collaborate to maintain the hair follicle stem cell niche

Abstract

Abstract The maintenance of tissue homeostasis in steady state or under stress is dependent on the proper communication between the stem cells and the supporting cells in their microenvironment or “niche”. In addition to promoting immune tolerance, regulatory T cells (Tregs) have recently emerged as a critical component of the stem cell niche in the hair follicle (HF), injured muscle, bone marrow, and small intestine to support stem cell differentiation or maintain their quiescence. How Treg cells sense the dynamic signals in the niche environment and communicate with stem cells during tissue regeneration is largely unknown. Here, by using HF as a model, we uncover a hitherto unrecognized function of steroid hormone glucocorticoid that instructs skin-resident Treg cells through glucocorticoid receptor (GR) to facilitate hair follicle stem cell (HFSC) activation and HF regeneration. Ablation of GR signaling in Tregs blocked depilation-induced hair regeneration and natural hair growth without affecting Treg’s immune suppressive function. Mechanistic study revealed that GR signaling induces skin-resident Tregs to produce TGF-b3, which directly activates Smad2/3 in HFSCs and facilitates HFSC activation and proliferation. Our study identifies a novel crosstalk between skin-resident Tregs and HFSCs mediated by the GR/TGF-b3 axis, highlighting a new avenue to manipulate Tregs to support tissue regeneration. Supported by NIH R01-AI107027 NIH R01-AI1511123 NIH R21-AI154919 NIH S10-OD023689