The proto-oncogene SRC phosphorylates cGAS to inhibit an antitumor immune response
William Dunker, Shivam A. Zaver, Jose Mario Bello Pineda, Cameron J. Howard, Robert K. Bradley, Joshua J. Woodward
William Dunker, Shivam A. Zaver, Jose Mario Bello Pineda, Cameron J. Howard, Robert K. Bradley, Joshua J. Woodward
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Research Article Immunology Oncology

The proto-oncogene SRC phosphorylates cGAS to inhibit an antitumor immune response

Abstract

Cyclic GMP-AMP synthase (cGAS) is a DNA sensor and responsible for inducing an antitumor immune response. Recent studies reveal that cGAS is frequently inhibited in cancer, and therapeutic targets to promote antitumor cGAS function remain elusive. SRC is a proto-oncogene tyrosine kinase and is expressed at elevated levels in numerous cancers. Here, we demonstrate that SRC expression in primary and metastatic bladder cancer negatively correlates with innate immune gene expression and immune cell infiltration. We determine that SRC restricts cGAS signaling in human cell lines through SRC small molecule inhibitors, depletion, and overexpression. cGAS and SRC interact in cells and in vitro, while SRC directly inhibits cGAS enzymatic activity and DNA binding in a kinase-dependent manner. SRC phosphorylates cGAS, and inhibition of cGAS Y248 phosphorylation partially reduces SRC inhibition. Collectively, our study demonstrates that cGAS antitumor signaling is hindered by the proto-oncogene SRC and describes how cancer-associated proteins can regulate the innate immune system.

Authors

William Dunker, Shivam A. Zaver, Jose Mario Bello Pineda, Cameron J. Howard, Robert K. Bradley, Joshua J. Woodward

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Figure 1

Reduced innate immune gene expression and immune cell abundance correlates with elevated SRC expression in primary and metastatic bladder cancer.

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Reduced innate immune gene expression and immune cell abundance correlat...
(A) SRC expression in primary tumors from TCGA. Expression levels depicted in transcripts per million (TPM). Dashed horizontal line represents overall median expression. (B) SRC correlation volcano gene expression plot in primary BLCA. Colored dots represent Type I IFN genes with significant negative (blue) or positive (red) correlation. High (upper 66th percentile) versus low (lower 33rd percentile) SRC expressing samples were analyzed. (C) Volcano plot, similar to B in metastatic advanced urothelial carcinoma. (D) Correlation plot between oncogene expression in BLCA and normalized Type I IFN gene expression. Dashed horizontal line represents 5% FDR threshold. Statistical significance determined using Spearman correlation followed by multiple-hypothesis correction. (E) CIBERSORT analysis of immune cell abundance in BLCA tumors. High (upper 66th percentile) versus low (lower 33rd percentile) SRC expressing samples were analyzed. Statistical significance determined using 2-sided Mann-Whitney U test.