An Immunological Synapse Formation Between T Regulatory Cells and Cancer-Associated Fibroblasts Promotes Tumor Development

Abstract

AbstractCancer-associated fibroblasts (CAFs) have emerged as a dominant non-hematopoietic cell population in the tumor microenvironment, serving diverse functions in tumor progression, invasion, matrix remodeling and resistance to therapy; yet, the precise mechanisms via which CAFs imprint on the anti-tumor immunity remain poorly understood. Extensive molecular characterization revealed an increased heterogeneity in the CAF compartment and proposed an interaction between CAFs and tumor-infiltrating immune cells, which may shape tumor immune evasion. Herein, we describe a synapse formation between α-SMA+CAFs and regulatory T cells (Tregs) in the TME. Foxp3+Tregs were localized close to α-SMA+CAFs in diverse types of tumor models as well as biopsies from melanoma and colorectal cancer patients. Notably, phenotypically tolerogenic α-SMA+CAFs demonstrated the ability to phagocytose and process tumor antigens, instructing Treg movement arrest, activation and proliferation, in an antigen-specific manner. Of interest, α-SMA+CAFs were characterized by the presence of double-membrane structures, resembling autophagosomes, in their cytoplasm, while analysis of single-cell transcriptomic data pointed autophagy and antigen processing/presentation pathways to be enriched in α-SMA-expressing CAF clusters. In a mechanistic view, conditional knockout of the autophagy pathway in α-SMA+CAFs promoted an inflammatory re-programming of CAFs, reduced Treg infiltration, attenuated tumor development, and potentiated the efficacy of immune checkpoint inhibitor immunotherapy. Overall, our findings reveal an immunosuppressive mechanism operating in the TME, which entails the formation of synapses between α-SMA+CAFs and Tregs in an autophagy-dependent fashion and raises the potential for the development of CAF-targeted therapies in cancer.One Sentence Summaryα-SMA+Cancer Associated Fibroblasts process and present tumor antigens via autophagy to form immunological synapses with Foxp3+T regulatory cells in the tumor microenvironment, promoting tumor development.