Publication
Sensitivity to Immune Checkpoint Blockade and Progression-Free Survival is associated with baseline CD8+ T cell clone size and cytotoxicity
Publisher:
Cold Spring Harbor Laboratory
Date:
16-11-2020
DOI:
10.1101/2020.11.15.383786
Abstract: Immune checkpoint blockers (ICB) exert their anti-cancer effects via CD8 + T cells, although how responses vary over sub-populations and across clones is incompletely understood. We performed single-cell RNA-sequencing of CD8 + T cells and their receptors pre- and post-ICB across eight patients, integrating results with bulk-sequencing data (n=209). We identify seven subsets with ergent responses to ICB, finding the effector cluster demonstrates the most pronounced changes. Likewise, transcriptomic response to ICB relates to clone size, with large clones demonstrating increased numbers of regulated genes of higher immunological pertinence. Cytotoxic effector clones were more likely to persist long-term following ICB and overlapped with public tumour-infiltrating lymphocyte clonotypes. Notably, pre-treatment CD8 + cytotoxicity associated with progression-free survival, highlighting the importance of the baseline CD8 + immune landscape in long-term response. This work further advances understanding of the molecular determinants of ICB response and assists in the search for peripheral prognostic biomarkers. Using single-cell and bulk RNA sequencing we explore checkpoint immunotherapy activity on peripheral CD8 + T cells in metastatic melanoma demonstrating that cell subset and clone size determine gene expression responses to treatment, and that pre-treatment cytotoxicity and clonality of peripheral CD8 + T cells is clinically prognostic.