A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations

Shinji Kohsaka; Neerav Shukla; Nabahet Ameur; Tatsuo Ito; Charlotte K.Y. Ng; Lu Wang; Diana Lim; Angela Marchetti; Agnes Viale; Mono Pirun; Nicholas D. Socci; Li Xuan Qin; Raf Sciot; Julia Bridge; Samuel Singer; Paul Meyers; Leonard H. Wexler; Frederic G. Barr; Snjezana Dogan; Jonathan A. Fletcher; Jorge S. Reis-Filho; Marc Ladanyi

doi:10.1038/ng.2969

A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations

Shinji Kohsaka, Neerav Shukla, Nabahet Ameur, Tatsuo Ito, Charlotte K.Y. Ng, Lu Wang, Diana Lim, Angela Marchetti, Agnes Viale, Mono Pirun, Nicholas D. Socci, Li Xuan Qin, Raf Sciot, Julia Bridge, Samuel Singer, Paul Meyers, Leonard H. Wexler, Frederic G. Barr, Snjezana Dogan, Jonathan A. FletcherJorge S. Reis-Filho, Marc Ladanyi

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Abstract

Rhabdomyosarcoma, a cancer of skeletal muscle lineage, is the most common soft-tissue sarcoma in children. Major subtypes of rhabdomyosarcoma include alveolar (ARMS) and embryonal (ERMS) tumors. Whereas ARMS tumors typically contain translocations generating PAX3-FOXO1 or PAX7-FOXO1 fusions that block terminal myogenic differentiation, no functionally comparable genetic event has been found in ERMS tumors. Here we report the discovery, through whole-exome sequencing, of a recurrent somatic mutation encoding p.Leu122Arg in the myogenic transcription factor MYOD1 in a distinct subset of ERMS tumors with poor outcomes that also often contain mutations altering PI3K-AKT pathway components. Previous mutagenesis studies had shown that MYOD1 with a p.Leu122Arg substitution can block wild-type MYOD1 function and bind to MYC consensus sequences, suggesting a possible switch from differentiation to proliferation. Our functional data now confirm this prediction. Thus, MYOD1 p.Leu122Arg defines a subset of rhabdomyosarcomas eligible for high-risk protocols and the development of targeted therapeutics.

Original language	English (US)
Pages (from-to)	595-600
Number of pages	6
Journal	Nature Genetics
Volume	46
Issue number	6
DOIs	https://doi.org/10.1038/ng.2969
State	Published - Jun 2014

ASJC Scopus subject areas

Genetics

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Kohsaka, S., Shukla, N., Ameur, N., Ito, T., Ng, C. K. Y., Wang, L., Lim, D., Marchetti, A., Viale, A., Pirun, M., Socci, N. D., Qin, L. X., Sciot, R., Bridge, J., Singer, S., Meyers, P., Wexler, L. H., Barr, F. G., Dogan, S., ... Ladanyi, M. (2014). A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations. Nature Genetics, 46(6), 595-600. https://doi.org/10.1038/ng.2969

Kohsaka, S, Shukla, N, Ameur, N, Ito, T, Ng, CKY, Wang, L, Lim, D, Marchetti, A, Viale, A, Pirun, M, Socci, ND, Qin, LX, Sciot, R, Bridge, J, Singer, S, Meyers, P, Wexler, LH, Barr, FG, Dogan, S, Fletcher, JA, Reis-Filho, JS & Ladanyi, M 2014, 'A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations', Nature Genetics, vol. 46, no. 6, pp. 595-600. https://doi.org/10.1038/ng.2969

@article{3b6aad4df14d455083a3ee448eda73f5,

title = "A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations",

abstract = "Rhabdomyosarcoma, a cancer of skeletal muscle lineage, is the most common soft-tissue sarcoma in children. Major subtypes of rhabdomyosarcoma include alveolar (ARMS) and embryonal (ERMS) tumors. Whereas ARMS tumors typically contain translocations generating PAX3-FOXO1 or PAX7-FOXO1 fusions that block terminal myogenic differentiation, no functionally comparable genetic event has been found in ERMS tumors. Here we report the discovery, through whole-exome sequencing, of a recurrent somatic mutation encoding p.Leu122Arg in the myogenic transcription factor MYOD1 in a distinct subset of ERMS tumors with poor outcomes that also often contain mutations altering PI3K-AKT pathway components. Previous mutagenesis studies had shown that MYOD1 with a p.Leu122Arg substitution can block wild-type MYOD1 function and bind to MYC consensus sequences, suggesting a possible switch from differentiation to proliferation. Our functional data now confirm this prediction. Thus, MYOD1 p.Leu122Arg defines a subset of rhabdomyosarcomas eligible for high-risk protocols and the development of targeted therapeutics.",

author = "Shinji Kohsaka and Neerav Shukla and Nabahet Ameur and Tatsuo Ito and Ng, {Charlotte K.Y.} and Lu Wang and Diana Lim and Angela Marchetti and Agnes Viale and Mono Pirun and Socci, {Nicholas D.} and Qin, {Li Xuan} and Raf Sciot and Julia Bridge and Samuel Singer and Paul Meyers and Wexler, {Leonard H.} and Barr, {Frederic G.} and Snjezana Dogan and Fletcher, {Jonathan A.} and Reis-Filho, {Jorge S.} and Marc Ladanyi",

note = "Funding Information: The Memorial Sloan Kettering Cancer Center Sequenom facility was supported by the Anbinder Fund, and the Genomics and Bioinformatics Cores are supported by Cancer Center Core grant NCI P30 CA008748. Funding Information: We thank H. Hosoi (Kyoto Prefectural University of Medicine) and S. Tanaka and M. Tsuda (both at Hokkaido University) for providing cell lines. We also thank T. Akagi and K. Sasai (both at KAN Research Institute, Inc.) for providing the pcx4bleo plasmid. We are also grateful to J. Zhao for technical assistance with microarray analysis, to L. Borsu for assistance with Sequenom analyses and to E. de Stanchina and R. Tieu for the xenograft studies. This work was supported by a generous donation from M.B. Zuckerman (M.L.), by NIH P01 CA047179 (S.S.), by NCI P50 CA140146 (M.L., N.D.S. and S.S.), by a National Center for Research Resources (NCRR) Clinical Translational Science Center grant (M.P. and N.D.S.) and by the Virginia and Daniel K. Ludwig Trust for Cancer Research (J.A.F.). S.K. was supported in part by the Yasuda Medical Foundation and the HIROKO International Academic Exchange Foundation. F.G.B. is supported by the Intramural Research Program of the National Cancer Institute.",

year = "2014",

month = jun,

doi = "10.1038/ng.2969",

language = "English (US)",

volume = "46",

pages = "595--600",

journal = "Nature Genetics",

issn = "1061-4036",

publisher = "Nature Publishing Group",

number = "6",

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TY - JOUR

T1 - A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations

AU - Kohsaka, Shinji

AU - Shukla, Neerav

AU - Ameur, Nabahet

AU - Ito, Tatsuo

AU - Ng, Charlotte K.Y.

AU - Wang, Lu

AU - Lim, Diana

AU - Marchetti, Angela

AU - Viale, Agnes

AU - Pirun, Mono

AU - Socci, Nicholas D.

AU - Qin, Li Xuan

AU - Sciot, Raf

AU - Bridge, Julia

AU - Singer, Samuel

AU - Meyers, Paul

AU - Wexler, Leonard H.

AU - Barr, Frederic G.

AU - Dogan, Snjezana

AU - Fletcher, Jonathan A.

AU - Reis-Filho, Jorge S.

AU - Ladanyi, Marc

N1 - Funding Information: The Memorial Sloan Kettering Cancer Center Sequenom facility was supported by the Anbinder Fund, and the Genomics and Bioinformatics Cores are supported by Cancer Center Core grant NCI P30 CA008748. Funding Information: We thank H. Hosoi (Kyoto Prefectural University of Medicine) and S. Tanaka and M. Tsuda (both at Hokkaido University) for providing cell lines. We also thank T. Akagi and K. Sasai (both at KAN Research Institute, Inc.) for providing the pcx4bleo plasmid. We are also grateful to J. Zhao for technical assistance with microarray analysis, to L. Borsu for assistance with Sequenom analyses and to E. de Stanchina and R. Tieu for the xenograft studies. This work was supported by a generous donation from M.B. Zuckerman (M.L.), by NIH P01 CA047179 (S.S.), by NCI P50 CA140146 (M.L., N.D.S. and S.S.), by a National Center for Research Resources (NCRR) Clinical Translational Science Center grant (M.P. and N.D.S.) and by the Virginia and Daniel K. Ludwig Trust for Cancer Research (J.A.F.). S.K. was supported in part by the Yasuda Medical Foundation and the HIROKO International Academic Exchange Foundation. F.G.B. is supported by the Intramural Research Program of the National Cancer Institute.

PY - 2014/6

Y1 - 2014/6

N2 - Rhabdomyosarcoma, a cancer of skeletal muscle lineage, is the most common soft-tissue sarcoma in children. Major subtypes of rhabdomyosarcoma include alveolar (ARMS) and embryonal (ERMS) tumors. Whereas ARMS tumors typically contain translocations generating PAX3-FOXO1 or PAX7-FOXO1 fusions that block terminal myogenic differentiation, no functionally comparable genetic event has been found in ERMS tumors. Here we report the discovery, through whole-exome sequencing, of a recurrent somatic mutation encoding p.Leu122Arg in the myogenic transcription factor MYOD1 in a distinct subset of ERMS tumors with poor outcomes that also often contain mutations altering PI3K-AKT pathway components. Previous mutagenesis studies had shown that MYOD1 with a p.Leu122Arg substitution can block wild-type MYOD1 function and bind to MYC consensus sequences, suggesting a possible switch from differentiation to proliferation. Our functional data now confirm this prediction. Thus, MYOD1 p.Leu122Arg defines a subset of rhabdomyosarcomas eligible for high-risk protocols and the development of targeted therapeutics.

AB - Rhabdomyosarcoma, a cancer of skeletal muscle lineage, is the most common soft-tissue sarcoma in children. Major subtypes of rhabdomyosarcoma include alveolar (ARMS) and embryonal (ERMS) tumors. Whereas ARMS tumors typically contain translocations generating PAX3-FOXO1 or PAX7-FOXO1 fusions that block terminal myogenic differentiation, no functionally comparable genetic event has been found in ERMS tumors. Here we report the discovery, through whole-exome sequencing, of a recurrent somatic mutation encoding p.Leu122Arg in the myogenic transcription factor MYOD1 in a distinct subset of ERMS tumors with poor outcomes that also often contain mutations altering PI3K-AKT pathway components. Previous mutagenesis studies had shown that MYOD1 with a p.Leu122Arg substitution can block wild-type MYOD1 function and bind to MYC consensus sequences, suggesting a possible switch from differentiation to proliferation. Our functional data now confirm this prediction. Thus, MYOD1 p.Leu122Arg defines a subset of rhabdomyosarcomas eligible for high-risk protocols and the development of targeted therapeutics.

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U2 - 10.1038/ng.2969

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JF - Nature Genetics

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ER -

A recurrent neomorphic mutation in MYOD1 defines a clinically aggressive subset of embryonal rhabdomyosarcoma associated with PI3K-AKT pathway mutations

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