Foxp3+ regulatory T (TR) cells are phenotypically and functionally diverse and broadly distributed in lymphoid and nonlymphoid tissues. However, the pathways guiding the differentiation of tissue-resident TR cell populations have not been well defined. By regulating E-protein function, Id3 controls the differentiation of CD8+ effector T cells and is essential for TR cell maintenance and function. We show that dynamic expression of Id3 helps define three distinct mouse TR cell populations: Id3+CD62LhiCD44lo central TR cells, Id3+CD62LloCD44hi effector TR (eTR) cells, and Id3- eTR cells. Adoptive transfer experiments and transcriptome analyses support a stepwise model of differentiation from Id3+ central TR to Id3+ eTR to Id3- eTR cells. Furthermore, Id3- eTR cells have high expression of functional inhibitory markers and a transcriptional signature of tissue-resident TR cells. Accordingly, Id3- eTR cells are highly enriched in nonlymphoid organs but virtually absent from blood and lymph. Thus, we propose that tissue-resident TR cells develop in a multistep process associated with Id3 downregulation.
Copyright © 2018 by The American Association of Immunologists, Inc.