A new natural killer cell-specific gene signature predicting recurrence in colorectal cancer patients
Journal Title
Frontiers in Immunology
Publication Type
Research article
Abstract
The protective role of Natural Killer (NK) cell tumour immunosurveillance has long been recognised in colorectal cancer (CRC). However, as most patients show limited intra-tumoral NK cell infiltration, improving our ability to identify those with high NK cell activity might aid in dissecting the molecular features which underlie NK cell sensitivity. Here, a novel CRC-specific NK cell gene signature that infers NK cell load in primary tissue samples was derived and validated in multiple patient CRC cohorts. In contrast with other NK cell gene signatures that have several overlapping genes across different immune cell types, our NK cell signature has been extensively refined to be specific for CRC-infiltrating NK cells. The specificity of the signature is substantiated in tumour-infiltrating NK cells from primary CRC tumours at the single cell level, and the signature includes genes representative of NK cells of different maturation states, activation status and anatomical origin. Our signature also accurately discriminates murine NK cells, demonstrating the applicability of this geneset when mining datasets generated from preclinical studies. Differential gene expression analysis revealed tumour-intrinsic features associated with NK cell inclusion versus exclusion in CRC patients, with those tumours with predicted high NK activity showing strong evidence of enhanced chemotactic and cytotoxic transcriptional programs. Furthermore, survival modelling indicated that NK signature expression is associated with improved survival outcomes in CRC patients. Thus, scoring CRC samples with this refined NK cell signature might aid in identifying patients with high NK cell activity who could be prime candidates for NK cell directed immunotherapies.
Publisher
Frontiers
Keywords
Humans; Mice; Animals; *Colorectal Neoplasms; Killer Cells, Natural; NK cells; cancer immunology; colorectal cancer; gene signature; immunotherapy
Department(s)
Laboratory Research
PubMed ID
36685584
Open Access at Publisher's Site
https://doi.org/10.3389/fimmu.2022.1011247
Terms of Use/Rights Notice
Refer to copyright notice on published article.


Creation Date: 2023-06-13 07:55:29
Last Modified: 2023-06-13 07:56:08

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