Pathogenic CD4+ memory T cells (Tm) sustain chronic inflammation, but mechanisms remain undefined. Here, we identify four donor-type CD4+ Tm subsets in the target tissues of autoimmune-like chronic graft-versus-host disease in mice: Ly108+CD69− stem-like memory T cells (Tsm), Ly108+CD69+ resident memory progenitor T cells (Trmp), Ly108−CD69+ terminally differentiated tissue-resident T cells (Trm), and Ly108−CD69− intermediate T cells (Tint). Trm are terminally differentiated but not exhausted and show highly biased clonotypes with high proinflammatory cytokine expression. Tsm cells require TCR-MHCII interactions for their maintenance and expansion and show greater capacity than Trmp cells in self-renewal/expansion, generation of Trm, and pathogenicity in adoptive recipients. The transcription factors TCF1/BCL6 and BHLHE40 differentially regulate the stemness and differentiation of Tsm into Trm, respectively, and their selective targeting reduces the number of Trm in tissues and ameliorates inflammation. Thus, our findings indicate that targeting the Tsm subset, involved in the maintenance of the pathogenic Tm pool, offers an attractive approach to treat T cell-mediated chronic inflammation. Tissue resident donor CD4 T cells contribute to chronic graft-versus-host disease (GVHD). To date, how these cells are maintained and the mechanism of pathogenesis remain undefined. Here, the authors perform transcriptomics and epigenomic analyses, they analyze memory CD4 T cell heterogeneity and differentiation pathways in tissues of mice with chronic GVHD and propose the selective targeting of stem-like memory T cell stemness or differentiation as a strategy to alleviate chronic tissue inflammation
Kong et al. (Tue,) studied this question.