Discovery of specialized NK cell populations infiltrating human melanoma metastases
Lucas Ferrari de Andrade, Yuheng Lu, Adrienne Luoma, Yoshinaga Ito, Deng Pan, Jason W. Pyrdol, Charles H. Yoon, Guo-Cheng Yuan, Kai W. Wucherpfennig
Lucas Ferrari de Andrade, Yuheng Lu, Adrienne Luoma, Yoshinaga Ito, Deng Pan, Jason W. Pyrdol, Charles H. Yoon, Guo-Cheng Yuan, Kai W. Wucherpfennig
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Research Article Immunology Oncology

Discovery of specialized NK cell populations infiltrating human melanoma metastases

Abstract

NK cells contribute to protective antitumor immunity, but little is known about the functional states of NK cells in human solid tumors. To address this issue, we performed single-cell RNA-seq analysis of NK cells isolated from human melanoma metastases, including lesions from patients who had progressed following checkpoint blockade. This analysis identified major differences in the transcriptional programs of tumor-infiltrating compared with circulating NK cells. Tumor-infiltrating NK cells represented 7 clusters with distinct gene expression programs indicative of significant functional specialization, including cytotoxicity and chemokine synthesis programs. In particular, NK cells from 3 clusters expressed high levels of XCL1 and XCL2, which encode 2 chemokines known to recruit XCR1+ cross-presenting DCs into tumors. In contrast, NK cells from 2 other clusters showed a higher level of expression of cytotoxicity genes. These data reveal key features of NK cells in human tumors and identify NK cell populations with specialized gene expression programs.

Authors

Lucas Ferrari de Andrade, Yuheng Lu, Adrienne Luoma, Yoshinaga Ito, Deng Pan, Jason W. Pyrdol, Charles H. Yoon, Guo-Cheng Yuan, Kai W. Wucherpfennig

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Figure 3

Identification of NK cells and ILC3-like cells in melanoma metastases.

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Identification of NK cells and ILC3-like cells in melanoma metastases. (...
(A and B) Identification of NK cell and ILC3 cell populations. Published single-cell data from innate lymphocytes isolated from human tonsil tissue were used to define gene expression signatures for NK cells and ILC3 (16). UMAP plots show the degree of similarity between NK cell (A) and ILC3 (B) gene expression signatures for blood and tumor NK cells. (C) Cytotoxicity gene expression signature (GZMA, GZMB, GZMH, GZMK, GZMM, PRF1, GNLY, and NKG7) for NK cells isolated from blood (left) and melanoma metastases (right). UMAP plots indicate the scores for this signature across NK cell clusters and are scaled separately between blood and tumor-infiltrating NK cells for the integrated data set from 5 patients.