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CD8+ T cell states in human cancer: insights from single-cell analysis

2020; Nature Portfolio; Volume: 20; Issue: 4 Linguagem: Inglês

10.1038/s41568-019-0235-4

1474-1768

Anne M. van der Leun, Daniela S. Thommen, Ton N. Schumacher,

Immune Cell Function and Interaction

The T cell infiltrates that are formed in human cancers are a modifier of natural disease progression and also determine the probability of clinical response to cancer immunotherapies. Recent technological advances that allow the single-cell analysis of phenotypic and transcriptional states have revealed a vast heterogeneity of intratumoural T cell states, both within and between patients, and the observation of this heterogeneity makes it critical to understand the relationship between individual T cell states and therapy response. This Review covers our current knowledge of the T cell states that are present in human tumours and the role that different T cell populations have been hypothesized to play within the tumour microenvironment, with a particular focus on CD8+ T cells. The three key models that are discussed herein are as follows: (1) the dysfunction of T cells in human cancer is associated with a change in T cell functionality rather than inactivity; (2) antigen recognition in the tumour microenvironment is an important driver of T cell dysfunctionality and the presence of dysfunctional T cells can hence be used as a proxy for the presence of a tumour-reactive T cell compartment; (3) a less dysfunctional population of tumour-reactive T cells may be required to drive a durable response to T cell immune checkpoint blockade. Recent single-cell RNA-sequencing studies have revealed a range of intratumoural T cell states, both within and between patients. This Review outlines the CD8+ T cell states that have been identified in human tumours and the potential roles they play in tumour control as well as how they are influenced by immune checkpoint blockade.