Multi-modal molecular programs regulate melanoma cell state

Miles C. Andrews; Junna Oba; Chang Jiun Wu; Haifeng Zhu; Tatiana Karpinets; Caitlin A. Creasy; Marie Andrée Forget; Xiaoxing Yu; Xingzhi Song; Xizeng Mao; A. Gordon Robertson; Gabriele Romano; Peng Li; Elizabeth M. Burton; Yiling Lu; Robert Szczepaniak Sloane; Khalida M. Wani; Kunal Rai; Alexander J. Lazar; Lauren E. Haydu; Matias A. Bustos; Jianjun Shen; Yueping Chen; Margaret B. Morgan; Jennifer A. Wargo; Lawrence N. Kwong; Cara L. Haymaker; Elizabeth A. Grimm; Patrick Hwu; Dave S.B. Hoon; Jianhua Zhang; Jeffrey E. Gershenwald; Michael A. Davies; P. Andrew Futreal; Chantale Bernatchez; Scott E. Woodman

doi:10.1038/s41467-022-31510-1

Multi-modal molecular programs regulate melanoma cell state

Miles C. Andrews, Junna Oba, Chang Jiun Wu, Haifeng Zhu, Tatiana Karpinets, Caitlin A. Creasy, Marie Andrée Forget, Xiaoxing Yu, Xingzhi Song, Xizeng Mao, A. Gordon Robertson, Gabriele Romano, Peng Li, Elizabeth M. Burton, Yiling Lu, Robert Szczepaniak Sloane, Khalida M. Wani, Kunal Rai, Alexander J. Lazar, Lauren E. HayduMatias A. Bustos, Jianjun Shen, Yueping Chen, Margaret B. Morgan, Jennifer A. Wargo, Lawrence N. Kwong, Cara L. Haymaker, Elizabeth A. Grimm, Patrick Hwu, Dave S.B. Hoon, Jianhua Zhang, Jeffrey E. Gershenwald, Michael A. Davies, P. Andrew Futreal, Chantale Bernatchez, Scott E. Woodman

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

7 Scopus citations

Abstract

Melanoma cells display distinct intrinsic phenotypic states. Here, we seek to characterize the molecular regulation of these states using multi-omic analyses of whole exome, transcriptome, microRNA, long non-coding RNA and DNA methylation data together with reverse-phase protein array data on a panel of 68 highly annotated early passage melanoma cell lines. We demonstrate that clearly defined cancer cell intrinsic transcriptomic programs are maintained in melanoma cells ex vivo and remain highly conserved within melanoma tumors, are associated with distinct immune features within tumors, and differentially correlate with checkpoint inhibitor and adoptive T cell therapy efficacy. Through integrative analyses we demonstrate highly complex multi-omic regulation of melanoma cell intrinsic programs that provide key insights into the molecular maintenance of phenotypic states. These findings have implications for cancer biology and the identification of new therapeutic strategies. Further, these deeply characterized cell lines will serve as an invaluable resource for future research in the field.

Original language	English (US)
Article number	4000
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-31510-1
State	Published - Dec 2022

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General
General Physics and Astronomy

MD Anderson CCSG core facilities

Advanced Technology Genomics Core
Cytogenetics and Cell Authentication Core
Tissue Biospecimen and Pathology Resource
Functional Proteomics Reverse Phase Protein Array Core
Bioinformatics Shared Resource
ORION

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Andrews, M. C., Oba, J., Wu, C. J., Zhu, H., Karpinets, T., Creasy, C. A., Forget, M. A., Yu, X., Song, X., Mao, X., Robertson, A. G., Romano, G., Li, P., Burton, E. M., Lu, Y., Sloane, R. S., Wani, K. M., Rai, K., Lazar, A. J., ... Woodman, S. E. (2022). Multi-modal molecular programs regulate melanoma cell state. Nature communications, 13(1), Article 4000. https://doi.org/10.1038/s41467-022-31510-1

Andrews, MC, Oba, J, Wu, CJ, Zhu, H , Karpinets, T, Creasy, CA, Forget, MA, Yu, X, Song, X , Mao, X, Robertson, AG, Romano, G, Li, P, Burton, EM, Lu, Y, Sloane, RS, Wani, KM, Rai, K , Lazar, AJ, Haydu, LE, Bustos, MA, Shen, J, Chen, Y, Morgan, MB, Wargo, JA , Kwong, LN , Haymaker, CL, Grimm, EA, Hwu, P, Hoon, DSB, Zhang, J, Gershenwald, JE , Davies, MA , Futreal, PA, Bernatchez, C & Woodman, SE 2022, 'Multi-modal molecular programs regulate melanoma cell state', Nature communications, vol. 13, no. 1, 4000. https://doi.org/10.1038/s41467-022-31510-1

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title = "Multi-modal molecular programs regulate melanoma cell state",

abstract = "Melanoma cells display distinct intrinsic phenotypic states. Here, we seek to characterize the molecular regulation of these states using multi-omic analyses of whole exome, transcriptome, microRNA, long non-coding RNA and DNA methylation data together with reverse-phase protein array data on a panel of 68 highly annotated early passage melanoma cell lines. We demonstrate that clearly defined cancer cell intrinsic transcriptomic programs are maintained in melanoma cells ex vivo and remain highly conserved within melanoma tumors, are associated with distinct immune features within tumors, and differentially correlate with checkpoint inhibitor and adoptive T cell therapy efficacy. Through integrative analyses we demonstrate highly complex multi-omic regulation of melanoma cell intrinsic programs that provide key insights into the molecular maintenance of phenotypic states. These findings have implications for cancer biology and the identification of new therapeutic strategies. Further, these deeply characterized cell lines will serve as an invaluable resource for future research in the field.",

author = "Andrews, {Miles C.} and Junna Oba and Wu, {Chang Jiun} and Haifeng Zhu and Tatiana Karpinets and Creasy, {Caitlin A.} and Forget, {Marie Andr{\'e}e} and Xiaoxing Yu and Xingzhi Song and Xizeng Mao and Robertson, {A. Gordon} and Gabriele Romano and Peng Li and Burton, {Elizabeth M.} and Yiling Lu and Sloane, {Robert Szczepaniak} and Wani, {Khalida M.} and Kunal Rai and Lazar, {Alexander J.} and Haydu, {Lauren E.} and Bustos, {Matias A.} and Jianjun Shen and Yueping Chen and Morgan, {Margaret B.} and Wargo, {Jennifer A.} and Kwong, {Lawrence N.} and Haymaker, {Cara L.} and Grimm, {Elizabeth A.} and Patrick Hwu and Hoon, {Dave S.B.} and Jianhua Zhang and Gershenwald, {Jeffrey E.} and Davies, {Michael A.} and Futreal, {P. Andrew} and Chantale Bernatchez and Woodman, {Scott E.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-31510-1",

language = "English (US)",

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AU - Andrews, Miles C.

AU - Oba, Junna

AU - Wu, Chang Jiun

AU - Zhu, Haifeng

AU - Karpinets, Tatiana

AU - Creasy, Caitlin A.

AU - Forget, Marie Andrée

AU - Yu, Xiaoxing

AU - Song, Xingzhi

AU - Mao, Xizeng

AU - Robertson, A. Gordon

AU - Romano, Gabriele

AU - Li, Peng

AU - Burton, Elizabeth M.

AU - Lu, Yiling

AU - Sloane, Robert Szczepaniak

AU - Wani, Khalida M.

AU - Rai, Kunal

AU - Lazar, Alexander J.

AU - Haydu, Lauren E.

AU - Bustos, Matias A.

AU - Shen, Jianjun

AU - Chen, Yueping

AU - Morgan, Margaret B.

AU - Wargo, Jennifer A.

AU - Kwong, Lawrence N.

AU - Haymaker, Cara L.

AU - Grimm, Elizabeth A.

AU - Hwu, Patrick

AU - Hoon, Dave S.B.

AU - Zhang, Jianhua

AU - Gershenwald, Jeffrey E.

AU - Davies, Michael A.

AU - Futreal, P. Andrew

AU - Bernatchez, Chantale

AU - Woodman, Scott E.

PY - 2022/12

Y1 - 2022/12

N2 - Melanoma cells display distinct intrinsic phenotypic states. Here, we seek to characterize the molecular regulation of these states using multi-omic analyses of whole exome, transcriptome, microRNA, long non-coding RNA and DNA methylation data together with reverse-phase protein array data on a panel of 68 highly annotated early passage melanoma cell lines. We demonstrate that clearly defined cancer cell intrinsic transcriptomic programs are maintained in melanoma cells ex vivo and remain highly conserved within melanoma tumors, are associated with distinct immune features within tumors, and differentially correlate with checkpoint inhibitor and adoptive T cell therapy efficacy. Through integrative analyses we demonstrate highly complex multi-omic regulation of melanoma cell intrinsic programs that provide key insights into the molecular maintenance of phenotypic states. These findings have implications for cancer biology and the identification of new therapeutic strategies. Further, these deeply characterized cell lines will serve as an invaluable resource for future research in the field.

AB - Melanoma cells display distinct intrinsic phenotypic states. Here, we seek to characterize the molecular regulation of these states using multi-omic analyses of whole exome, transcriptome, microRNA, long non-coding RNA and DNA methylation data together with reverse-phase protein array data on a panel of 68 highly annotated early passage melanoma cell lines. We demonstrate that clearly defined cancer cell intrinsic transcriptomic programs are maintained in melanoma cells ex vivo and remain highly conserved within melanoma tumors, are associated with distinct immune features within tumors, and differentially correlate with checkpoint inhibitor and adoptive T cell therapy efficacy. Through integrative analyses we demonstrate highly complex multi-omic regulation of melanoma cell intrinsic programs that provide key insights into the molecular maintenance of phenotypic states. These findings have implications for cancer biology and the identification of new therapeutic strategies. Further, these deeply characterized cell lines will serve as an invaluable resource for future research in the field.

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Multi-modal molecular programs regulate melanoma cell state

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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