The CoREST repressor complex mediates phenotype switching and therapy resistance in melanoma
Muzhou Wu, … , Philip A. Cole, Rhoda M. Alani
Muzhou Wu, … , Philip A. Cole, Rhoda M. Alani
Published February 1, 2024
Citation Information: J Clin Invest. 2024;134(6):e171063. https://doi.org/10.1172/JCI171063.
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Research Article Dermatology Oncology

The CoREST repressor complex mediates phenotype switching and therapy resistance in melanoma

Abstract

Virtually all patients with BRAF-mutant melanoma develop resistance to MAPK inhibitors largely through nonmutational events. Although the epigenetic landscape is shown to be altered in therapy-resistant melanomas and other cancers, a specific targetable epigenetic mechanism has not been validated. Here, we evaluated the corepressor for element 1–silencing transcription factor (CoREST) epigenetic repressor complex and the recently developed bivalent inhibitor corin within the context of melanoma phenotype plasticity and therapeutic resistance. We found that CoREST was a critical mediator of the major distinct melanoma phenotypes and that corin treatment of melanoma cells led to phenotype reprogramming. Global assessment of transcript and chromatin changes conferred by corin revealed specific effects on histone marks connected to epithelial-mesenchymal transition–associated (EMT-associated) transcription factors and the dual-specificity phosphatases (DUSPs). Remarkably, treatment of BRAF inhibitor–resistant (BRAFi-R) melanomas with corin promoted resensitization to BRAFi therapy. DUSP1 was consistently downregulated in BRAFi-R melanomas, which was reversed by corin treatment and associated with inhibition of p38 MAPK activity and resensitization to BRAFi therapies. Moreover, this activity was recapitulated by the p38 MAPK inhibitor BIRB 796. These findings identify the CoREST repressor complex as a central mediator of melanoma phenotype plasticity and resistance to targeted therapy and suggest that CoREST inhibitors may prove beneficial for patients with BRAFi-resistant melanoma.

Authors

Muzhou Wu, Ailish Hanly, Frederick Gibson, Robert Fisher, Samantha Rogers, Kihyun Park, Angelina Zuger, Kevin Kuang, Jay H. Kalin, Sarah Nocco, Matthew Cole, Amy Xiao, Filisia Agus, Adam Labadorf, Samuel Beck, Marianne Collard, Philip A. Cole, Rhoda M. Alani

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Figure 1

The CoREST repressor complex mediates phenotype switching in melanoma cell lines.

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The CoREST repressor complex mediates phenotype switching in melanoma ce...
(A and B) Western blot analysis of the MITFhi/AXLlo melanoma cell lines 451Lu, SKMel28, WM35, and WM983B (A) and the MITFlo/AXLhi melanoma cell lines Sbcl2, WM1552C, 1205Lu, and A375 (B) following 24 hours of treatment with DMSO or 2.5 μM corin. 1205Lu lysates were used as a positive control for AXL in A. Western blots were run contemporaneously. (C) Cellular proliferation of MITFhi/AXLlo (upper panel) and MITFlo/AXLhi (lower panel) melanoma cell lines following 24 hours of treatment with DMSO or 2.5 μM corin (n = 3). (D) Invasion assay and quantification of MITFhi/AXLlo (WM983B, upper panel) and MITFlo/AXLhi (1205Lu, lower panel) melanoma cells following 24 hours treatment with DMSO or 2.5 μM corin (n = 4–8). Representative images are shown. Scale bar: 100 μm. (E) Vinculin staining of focal adhesions in MITFhi/AXLlo melanoma cells (WM983B, upper panel) and MITFlo/AXLhi melanoma cells (1205Lu, lower panel) following a 24-hour treatment with DMSO or 2.5 μM corin (n = 5–6), with quantification of focal adhesions (puncta/cell) on the right (n = 5–6). Representative images are shown. Scale bar: 20 μm. (F) Dose-response proliferation assays of MITFhi/AXLlo (WM35, WM983B, 451Lu, SkMel28) and MITFlo/AXLhi (Sbcl2, WM1552C, 1205Lu, A375) melanoma cell lines treated with increasing doses of corin for 72 hours. *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001, by 2-tailed, unpaired t test compared with DMSO controls.