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A comprehensive single-cell map of T cell exhaustion-associated immune environments in human breast cancer

Sandra Tietscher, Johanna Wagner, Tobias Anzeneder, Claus Langwieder, Martin Rees, Bettina Sobottka, Natalie de Souza, Bernd Bodenmiller

2023Nature Communications206 citationsDOIOpen Access PDF

Abstract

Abstract Immune checkpoint therapy in breast cancer remains restricted to triple negative patients, and long-term clinical benefit is rare. The primary aim of immune checkpoint blockade is to prevent or reverse exhausted T cell states, but T cell exhaustion in breast tumors is not well understood. Here, we use single-cell transcriptomics combined with imaging mass cytometry to systematically study immune environments of human breast tumors that either do or do not contain exhausted T cells, with a focus on luminal subtypes. We find that the presence of a PD-1 high exhaustion-like T cell phenotype is associated with an inflammatory immune environment with a characteristic cytotoxic profile, increased myeloid cell activation, evidence for elevated immunomodulatory, chemotactic, and cytokine signaling, and accumulation of natural killer T cells. Tumors harboring exhausted-like T cells show increased expression of MHC-I on tumor cells and of CXCL13 on T cells, as well as altered spatial organization with more immature rather than mature tertiary lymphoid structures. Our data reveal fundamental differences between immune environments with and without exhausted T cells within luminal breast cancer, and show that expression of PD-1 and CXCL13 on T cells, and MHC-I – but not PD-L1 – on tumor cells are strong distinguishing features between these environments.

Topics & Concepts

Immune systemCytotoxic T cellT cellImmune checkpointMass cytometryCancer researchImmunologyBiologyCXCL13Natural killer T cellImmunotherapyChemokinePhenotypeChemokine receptorIn vitroGeneBiochemistryCancer Immunotherapy and BiomarkersSingle-cell and spatial transcriptomicsImmune cells in cancer
A comprehensive single-cell map of T cell exhaustion-associated immune environments in human breast cancer | Litcius