DNA promoter hypermethylation of melanocyte lineage genes determines melanoma phenotype
Adriana Sanna, … , Kristian Pietras, Göran Jönsson
Adriana Sanna, … , Kristian Pietras, Göran Jönsson
Published August 30, 2022
Citation Information: JCI Insight. 2022;7(19):e156577. https://doi.org/10.1172/jci.insight.156577.
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Research Article Cell biology Oncology

DNA promoter hypermethylation of melanocyte lineage genes determines melanoma phenotype

Abstract

Cellular stress contributes to the capacity of melanoma cells to undergo phenotype switching into highly migratory and drug-tolerant dedifferentiated states. Such dedifferentiated melanoma cell states are marked by loss of melanocyte-specific gene expression and increase of mesenchymal markers. Two crucial transcription factors, microphthalmia-associated transcription factor (MITF) and SRY-box transcription factor 10 (SOX10), important in melanoma development and progression, have been implicated in this process. In this study we describe that loss of MITF is associated with a distinct transcriptional program, MITF promoter hypermethylation, and poor patient survival in metastatic melanoma. From a comprehensive collection of melanoma cell lines, we observed that MITF-methylated cultures were subdivided in 2 distinct subtypes. Examining mRNA levels of neural crest–associated genes, we found that 1 subtype had lost the expression of several lineage genes, including SOX10. Intriguingly, SOX10 loss was associated with SOX10 gene promoter hypermethylation and distinct phenotypic and metastatic properties. Depletion of SOX10 in MITF-methylated melanoma cells using CRISPR/Cas9 supported these findings. In conclusion, this study describes the significance of melanoma state and the underlying functional properties explaining the aggressiveness of such states.

Authors

Adriana Sanna, Bengt Phung, Shamik Mitra, Martin Lauss, Jiyeon Choi, Tongwu Zhang, Ching-Ni Njauw, Eugenia Cordero, Katja Harbst, Frida Rosengren, Rita Cabrita, Iva Johansson, Karolin Isaksson, Christian Ingvar, Ana Carneiro, Kevin Brown, Hensin Tsao, My Andersson, Kristian Pietras, Göran Jönsson

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Figure 4

In vivo characterization of MITF-methylated melanomas.

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In vivo characterization of MITF-methylated melanomas. (A) Photos and st...
(A) Photos and staining of xenograft tumors from NSG mice injected with SOX10+ (MM383) or SOX10 (IGR-39) melanoma cells. Tumors were analyzed for MITF and SOX10 protein expression using immunostaining. Arrows indicate MITF-positive melanoma cells. Original magnification, ×200. (B) Box plot showing weight differences between SOX10+ (red) and SOX10 (black) cell line–derived tumors. P value was calculated using 2-sided t test. (C) Transcriptomic analysis using the NanoString PanCancer Pathways Panel describes significant differences between SOX10+ (red) and SOX10 (black) derived xenograft tumors. (D) Box plot showing 3 selected genes (JUN, NGFR, WNT5A; FDR = 0) from the NanoString PanCancer Pathways Panel gene expression analysis. (E) Frequencies (%) of metastases detected in brain, liver, and lungs of the NSG mice injected with SOX10+ MM383 (red) and SOX10 IGR-39 (black) melanoma cells. P value was calculated using χ2 test.