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Melanoma dedifferentiation induced by IFN-γ epigenetic remodeling in response to anti–PD-1 therapy
Yeon Joo Kim, Katherine M. Sheu, Jennifer Tsoi, Gabriel Abril-Rodriguez, Egmidio Medina, Catherine S. Grasso, Davis Y. Torrejon, Ameya S. Champhekar, Kevin Litchfield, Charles Swanton, Daniel E. Speiser, Philip O. Scumpia, Alexander Hoffmann, Thomas G. Graeber, Cristina Puig-Saus, Antoni Ribas
Yeon Joo Kim, Katherine M. Sheu, Jennifer Tsoi, Gabriel Abril-Rodriguez, Egmidio Medina, Catherine S. Grasso, Davis Y. Torrejon, Ameya S. Champhekar, Kevin Litchfield, Charles Swanton, Daniel E. Speiser, Philip O. Scumpia, Alexander Hoffmann, Thomas G. Graeber, Cristina Puig-Saus, Antoni Ribas
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Research Article Oncology

Melanoma dedifferentiation induced by IFN-γ epigenetic remodeling in response to anti–PD-1 therapy

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Abstract

Melanoma dedifferentiation has been reported to be a state of cellular resistance to targeted therapies and immunotherapies as cancer cells revert to a more primitive cellular phenotype. Here, we show that, counterintuitively, the biopsies of patient tumors that responded to anti–programmed cell death 1 (anti–PD-1) therapy had decreased expression of melanocytic markers and increased neural crest markers, suggesting treatment-induced dedifferentiation. When modeling the effects in vitro, we documented that melanoma cell lines that were originally differentiated underwent a process of neural crest dedifferentiation when continuously exposed to IFN-γ, through global chromatin landscape changes that led to enrichment in specific hyperaccessible chromatin regions. The IFN-γ–induced dedifferentiation signature corresponded with improved outcomes in patients with melanoma, challenging the notion that neural crest dedifferentiation is entirely an adverse phenotype.

Authors

Yeon Joo Kim, Katherine M. Sheu, Jennifer Tsoi, Gabriel Abril-Rodriguez, Egmidio Medina, Catherine S. Grasso, Davis Y. Torrejon, Ameya S. Champhekar, Kevin Litchfield, Charles Swanton, Daniel E. Speiser, Philip O. Scumpia, Alexander Hoffmann, Thomas G. Graeber, Cristina Puig-Saus, Antoni Ribas

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Figure 4

IFN-γ, compared with TNF, alters the chromatin landscape in a stimulus-specific manner.

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IFN-γ, compared with TNF, alters the chromatin landscape in a stimulus-s...
(A) Examples of hyperaccessible peaks upon cytokine stimulation. (B) Total number of hyper- and hypoaccessible peaks called for each listed comparison. U, undifferentiated at baseline; D, differentiated at baseline. (C) PCA of peaks differentially hyperaccessible from baseline after cytokine treatment. (D) K-means clustered heatmap of induced ATAC-Seq peaks across any stimulation condition for differentiated and undifferentiated melanomas (subcolumns are in the order 0 hour, IFN-γ, and TNF for each cell line). (E) Motif enrichment of IFN-γ– compared with TNF-induced genes. bZIP, basic leucine zipper domain; RHD, rel homology domain. (F) Top divergent GO terms of nearby genes for IFN-γ– versus TNF-specific peaks.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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