S-acyl transferase ZDHHC13 modulates tumor microenvironment interactions to suppress metastasis in melanoma models
Hongjin Li, Jianke Lyu, Yu Sun, Chengqian Yin, Yuewen Li, Weiqiang Chen, Suan-Sin Foo, Xianfang Wu, Colin R. Goding, Shuyang Chen
Hongjin Li, Jianke Lyu, Yu Sun, Chengqian Yin, Yuewen Li, Weiqiang Chen, Suan-Sin Foo, Xianfang Wu, Colin R. Goding, Shuyang Chen
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Research Article Immunology Oncology

S-acyl transferase ZDHHC13 modulates tumor microenvironment interactions to suppress metastasis in melanoma models

Abstract

The intratumor microenvironment shapes the metastatic potential of cancer cells and their susceptibility to any immune response. Yet, the nature of the signals within the microenvironment that control anticancer immunity and how they are regulated is poorly understood. Here, using melanoma as a model, we investigate the involvement in metastatic dissemination and the immune-modulatory microenvironment of Protein S-Acyl Transferases as an underexplored class of potential therapeutic targets. We find that ZDHHC13 suppresses metastatic dissemination by palmitoylation of CTNND1, leading to stabilization of E-cadherin. Importantly, ZDHHC13 also reshapes the tumor immune microenvironment by suppressing lysophosphatidylcholine (LPC) synthesis in melanoma cells, leading to inhibition of M2-like tumor-associated macrophages that we show degrade E-cadherin via MMP12 expression. Consequently, ZDHHC13 activity suppresses tumor growth and metastasis in immunocompetent mice. Our study highlights the therapeutic potential of targeting the ZDHHC13–E-cadherin axis and its downstream metabolic and immune-modulatory mechanisms, offering additional strategies to inhibit melanoma progression and metastasis.

Authors

Hongjin Li, Jianke Lyu, Yu Sun, Chengqian Yin, Yuewen Li, Weiqiang Chen, Suan-Sin Foo, Xianfang Wu, Colin R. Goding, Shuyang Chen

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Figure 5

ZDHHC13 regulates lipid metabolism in melanomas.

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ZDHHC13 regulates lipid metabolism in melanomas. (A) RNA-seq analysis of...
(A) RNA-seq analysis of B16 cells with or without ZDHHC13 expression, including differential gene expression and GO enrichment by GSEA (tool: RaNA-seq). (B) The change of lipid species in B16 stably expressing ZDHHC13 vs B16 expressing control empty vectors (Positive Ion Mode). (C) Pathway enrichment analysis of lipids based on KEGG database and MetaboAnalyst. Lipid metabolites with a variable importance in the projection (VIP) score > 1, Fold Change > 2.0 and P < 0.05 were considered significant changed lipids (Positive Ion Mode). (D) Quantification of LPC species. (E and F) Lipidomic profiling and heatmap of LPC and SM species in negative ion mode. (G) LPC and SM metabolic pathway.