Therapeutic targeting of regulatory T cells in cancer

Current regulatory T cell (Treg)-targeted therapies exhibit clinical benefit, highlighting the importance of targeting Tregs in cancer. Understanding Treg biology, recruitment, and stabilization within the tumor microenvironment (TME) may provide enhanced cancer therapeutic opportunities to target Tregs without perturbing effector T cell function or immune homeostasis. Multi-omics approaches combining novel computational tools may help define the complex gene regulatory networks that modulate Treg function and identify biomarkers that define functionally suppressive regulatory T cell subpopulations within the TME. The success of immunotherapy in oncology underscores the vital role of the immune system in cancer development. Regulatory T cells (Tregs) maintain a fine balance between autoimmunity and immune suppression. They have multiple roles in the tumor microenvironment (TME) but act particularly in suppressing T cell activation. This review focuses on the detrimental and sometimes beneficial roles of Tregs in tumors, our current understanding of recruitment and stabilization of Tregs within the TME, and current Treg-targeted therapeutics. Research identifying subpopulations of Tregs and their respective functions and interactions within the complex networks of the TME will be crucial to develop the next generation of immunotherapies. Through these advances, Treg-targeted immunotherapy could have important implications for the future of oncology. The success of immunotherapy in oncology underscores the vital role of the immune system in cancer development. Regulatory T cells (Tregs) maintain a fine balance between autoimmunity and immune suppression. They have multiple roles in the tumor microenvironment (TME) but act particularly in suppressing T cell activation. This review focuses on the detrimental and sometimes beneficial roles of Tregs in tumors, our current understanding of recruitment and stabilization of Tregs within the TME, and current Treg-targeted therapeutics. Research identifying subpopulations of Tregs and their respective functions and interactions within the complex networks of the TME will be crucial to develop the next generation of immunotherapies. Through these advances, Treg-targeted immunotherapy could have important implications for the future of oncology.