A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma

Yuntian Zhang; Marcus A. Urquijo; Rebecca G. Zitnay; Kayla Marks; Rachel L. Belote; Maike M.K. Hansen; Montana Ferita; Hannah M. Neuendorf; Tong Liu; Eric A. Smith; Elnaz Mirzaei Mehrabad; Miroslav Hejna; Tarek E. Moustafa; Devin Lange; Min Hu; Fatemeh Vand-Rajabpour; Anne Done; Carly A. Becker; Matthew Lieberman; Matthew Chang; Brian K. Lohman; Chris J. Stubben; Melissa Q. Reeves; Xiaoyang Zhang; Leor S. Weinberger; Matthew W. VanBrocklin; Dekker C. Deacon; Douglas Grossman; Benjamin T. Spike; Alexander Lex; Glen M. Boyle; Rajan Kulkarni; Thomas A. Zangle; Robert L. Judson-Torres

doi:10.1016/j.celrep.2025.116675

A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma

Yuntian Zhang
, Marcus A. Urquijo
, Rebecca G. Zitnay
, Kayla Marks
, Rachel L. Belote
, Maike M.K. Hansen
, Montana Ferita
, Hannah M. Neuendorf
, Tong Liu
, Eric A. Smith
, Elnaz Mirzaei Mehrabad
, Miroslav Hejna
, Tarek E. Moustafa
, Devin Lange
, Min Hu
, Fatemeh Vand-Rajabpour
, Anne Done
, Carly A. Becker
, Matthew Lieberman
, Matthew Chang

Brian K. Lohman, Chris J. Stubben, Melissa Q. Reeves, Xiaoyang Zhang, Leor S. Weinberger, Matthew W. VanBrocklin, Dekker C. Deacon, Douglas Grossman, Benjamin T. Spike, Alexander Lex, Glen M. Boyle, Rajan Kulkarni, Thomas A. Zangle, Robert L. Judson-Torres

Research output: Contribution to journal › Article › peer-review

Abstract

Metastatic spread and therapeutic resistance are the principal causes of cancer mortality. For melanoma, these processes rely on the capacity of cells to switch between transcriptional states. Although targeting transcriptional states pharmacologically is promising, the mechanisms by which melanoma cells switch between states—and how these processes differ from melanocytes—remain poorly understood. Here, we isolate distinct melanoma states with unique phenotypes: a MYC-driven state, essential for tumor initiation yet sensitive to BRAF inhibition, and a dedifferentiated, invasive BRN2-high state enriched in therapy-resistant cells but not directly tumorigenic. Transitions between phenotypes occur through intermediate, more differentiated states. Unexpectedly, the BRN2-high state is also present in melanocytes, whereas the MYC state is exclusive to melanoma. Melanoma cells also exhibit an increased frequency of transitions across states. These findings highlight that accelerated phenotypic switching, rather than mere state diversity, is a defining feature of melanoma progression.

Original language	English (US)
Article number	116675
Journal	Cell Reports
Volume	44
Issue number	12
DOIs	https://doi.org/10.1016/j.celrep.2025.116675
State	Published - Dec 23 2025

Keywords

BRN2
CP: Cancer
MITF
MYC
melanocytes
melanoma
oncogenic competence
phenotype switching
plasticity
quantitative phase imaging
single-cell sequencing

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2025.116675

Cite this

Zhang, Y., Urquijo, M. A., Zitnay, R. G., Marks, K., Belote, R. L., Hansen, M. M. K., Ferita, M., Neuendorf, H. M., Liu, T., Smith, E. A., Mehrabad, E. M., Hejna, M., Moustafa, T. E., Lange, D., Hu, M., Vand-Rajabpour, F., Done, A., Becker, C. A., Lieberman, M., ... Judson-Torres, R. L. (2025). A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma. Cell Reports, 44(12), Article 116675. https://doi.org/10.1016/j.celrep.2025.116675

Zhang, Y, Urquijo, MA, Zitnay, RG, Marks, K, Belote, RL, Hansen, MMK, Ferita, M, Neuendorf, HM, Liu, T, Smith, EA, Mehrabad, EM, Hejna, M, Moustafa, TE, Lange, D, Hu, M, Vand-Rajabpour, F, Done, A, Becker, CA, Lieberman, M, Chang, M, Lohman, BK, Stubben, CJ, Reeves, MQ, Zhang, X, Weinberger, LS, VanBrocklin, MW, Deacon, DC, Grossman, D, Spike, BT, Lex, A, Boyle, GM, Kulkarni, R, Zangle, TA & Judson-Torres, RL 2025, 'A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma', Cell Reports, vol. 44, no. 12, 116675. https://doi.org/10.1016/j.celrep.2025.116675

@article{b244a5daedd24fb49aca0a57a09a05ca,

title = "A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma",

abstract = "Metastatic spread and therapeutic resistance are the principal causes of cancer mortality. For melanoma, these processes rely on the capacity of cells to switch between transcriptional states. Although targeting transcriptional states pharmacologically is promising, the mechanisms by which melanoma cells switch between states—and how these processes differ from melanocytes—remain poorly understood. Here, we isolate distinct melanoma states with unique phenotypes: a MYC-driven state, essential for tumor initiation yet sensitive to BRAF inhibition, and a dedifferentiated, invasive BRN2-high state enriched in therapy-resistant cells but not directly tumorigenic. Transitions between phenotypes occur through intermediate, more differentiated states. Unexpectedly, the BRN2-high state is also present in melanocytes, whereas the MYC state is exclusive to melanoma. Melanoma cells also exhibit an increased frequency of transitions across states. These findings highlight that accelerated phenotypic switching, rather than mere state diversity, is a defining feature of melanoma progression.",

keywords = "BRN2, CP: Cancer, MITF, MYC, melanocytes, melanoma, oncogenic competence, phenotype switching, plasticity, quantitative phase imaging, single-cell sequencing",

author = "Yuntian Zhang and Urquijo, \{Marcus A.\} and Zitnay, \{Rebecca G.\} and Kayla Marks and Belote, \{Rachel L.\} and Hansen, \{Maike M.K.\} and Montana Ferita and Neuendorf, \{Hannah M.\} and Tong Liu and Smith, \{Eric A.\} and Mehrabad, \{Elnaz Mirzaei\} and Miroslav Hejna and Moustafa, \{Tarek E.\} and Devin Lange and Min Hu and Fatemeh Vand-Rajabpour and Anne Done and Becker, \{Carly A.\} and Matthew Lieberman and Matthew Chang and Lohman, \{Brian K.\} and Stubben, \{Chris J.\} and Reeves, \{Melissa Q.\} and Xiaoyang Zhang and Weinberger, \{Leor S.\} and VanBrocklin, \{Matthew W.\} and Deacon, \{Dekker C.\} and Douglas Grossman and Spike, \{Benjamin T.\} and Alexander Lex and Boyle, \{Glen M.\} and Rajan Kulkarni and Zangle, \{Thomas A.\} and Judson-Torres, \{Robert L.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY license. http://creativecommons.org/licenses/by/4.0/",

year = "2025",

month = dec,

day = "23",

doi = "10.1016/j.celrep.2025.116675",

language = "English (US)",

volume = "44",

journal = "Cell Reports",

issn = "2639-1856",

publisher = "Elsevier BV",

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TY - JOUR

T1 - A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma

AU - Zhang, Yuntian

AU - Urquijo, Marcus A.

AU - Zitnay, Rebecca G.

AU - Marks, Kayla

AU - Belote, Rachel L.

AU - Hansen, Maike M.K.

AU - Ferita, Montana

AU - Neuendorf, Hannah M.

AU - Liu, Tong

AU - Smith, Eric A.

AU - Mehrabad, Elnaz Mirzaei

AU - Hejna, Miroslav

AU - Moustafa, Tarek E.

AU - Lange, Devin

AU - Hu, Min

AU - Vand-Rajabpour, Fatemeh

AU - Done, Anne

AU - Becker, Carly A.

AU - Lieberman, Matthew

AU - Chang, Matthew

AU - Lohman, Brian K.

AU - Stubben, Chris J.

AU - Reeves, Melissa Q.

AU - Zhang, Xiaoyang

AU - Weinberger, Leor S.

AU - VanBrocklin, Matthew W.

AU - Deacon, Dekker C.

AU - Grossman, Douglas

AU - Spike, Benjamin T.

AU - Lex, Alexander

AU - Boyle, Glen M.

AU - Kulkarni, Rajan

AU - Zangle, Thomas A.

AU - Judson-Torres, Robert L.

PY - 2025/12/23

Y1 - 2025/12/23

N2 - Metastatic spread and therapeutic resistance are the principal causes of cancer mortality. For melanoma, these processes rely on the capacity of cells to switch between transcriptional states. Although targeting transcriptional states pharmacologically is promising, the mechanisms by which melanoma cells switch between states—and how these processes differ from melanocytes—remain poorly understood. Here, we isolate distinct melanoma states with unique phenotypes: a MYC-driven state, essential for tumor initiation yet sensitive to BRAF inhibition, and a dedifferentiated, invasive BRN2-high state enriched in therapy-resistant cells but not directly tumorigenic. Transitions between phenotypes occur through intermediate, more differentiated states. Unexpectedly, the BRN2-high state is also present in melanocytes, whereas the MYC state is exclusive to melanoma. Melanoma cells also exhibit an increased frequency of transitions across states. These findings highlight that accelerated phenotypic switching, rather than mere state diversity, is a defining feature of melanoma progression.

AB - Metastatic spread and therapeutic resistance are the principal causes of cancer mortality. For melanoma, these processes rely on the capacity of cells to switch between transcriptional states. Although targeting transcriptional states pharmacologically is promising, the mechanisms by which melanoma cells switch between states—and how these processes differ from melanocytes—remain poorly understood. Here, we isolate distinct melanoma states with unique phenotypes: a MYC-driven state, essential for tumor initiation yet sensitive to BRAF inhibition, and a dedifferentiated, invasive BRN2-high state enriched in therapy-resistant cells but not directly tumorigenic. Transitions between phenotypes occur through intermediate, more differentiated states. Unexpectedly, the BRN2-high state is also present in melanocytes, whereas the MYC state is exclusive to melanoma. Melanoma cells also exhibit an increased frequency of transitions across states. These findings highlight that accelerated phenotypic switching, rather than mere state diversity, is a defining feature of melanoma progression.

KW - BRN2

KW - CP: Cancer

KW - MITF

KW - MYC

KW - melanocytes

KW - melanoma

KW - oncogenic competence

KW - phenotype switching

KW - plasticity

KW - quantitative phase imaging

KW - single-cell sequencing

UR - https://www.scopus.com/pages/publications/105025955374

UR - https://www.scopus.com/pages/publications/105025955374#tab=citedBy

U2 - 10.1016/j.celrep.2025.116675

DO - 10.1016/j.celrep.2025.116675

M3 - Article

C2 - 41405996

AN - SCOPUS:105025955374

SN - 2639-1856

VL - 44

JO - Cell Reports

JF - Cell Reports

IS - 12

M1 - 116675

ER -

A BRN2:MYC transcriptional axis regulates interconversion between therapy-resistant and tumorigenic phenotypes in melanoma

Abstract

Keywords

ASJC Scopus subject areas

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