Codependent Activators Direct Myoblast-Specific MyoD Transcription

Ping Hu; Kenneth G. Geles; Ji Hye Paik; Ronald A. DePinho; Robert Tjian

doi:10.1016/j.devcel.2008.08.018

Codependent Activators Direct Myoblast-Specific MyoD Transcription

Ping Hu, Kenneth G. Geles, Ji Hye Paik, Ronald A. DePinho, Robert Tjian

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

122 Scopus citations

Abstract

Although FoxO and Pax proteins represent two important families of transcription factors in determining cell fate, they had not been functionally or physically linked together in mediating regulation of a common target gene during normal cellular transcription programs. Here, we identify MyoD, a key regulator of myogenesis, as a direct target of FoxO3 and Pax3/7 in myoblasts. Our cell-based assays and in vitro studies reveal a tight codependent partnership between FoxO3 and Pax3/7 to coordinately recruit RNA polymerase II and form a preinitiation complex (PIC) to activate MyoD transcription in myoblasts. The role of FoxO3 in regulating muscle differentiation is confirmed in vivo by observed defects in muscle regeneration caused by MyoD downregulation in FoxO3 null mice. These data establish a mutual interdependence and functional link between two families of transcription activators serving as potential signaling sensors and regulators of cell fate commitment in directing tissue specific MyoD transcription.

Original language	English (US)
Pages (from-to)	534-546
Number of pages	13
Journal	Developmental cell
Volume	15
Issue number	4
DOIs	https://doi.org/10.1016/j.devcel.2008.08.018
State	Published - Oct 14 2008
Externally published	Yes

Keywords

DEVBIO

ASJC Scopus subject areas

Molecular Biology
General Biochemistry, Genetics and Molecular Biology
Developmental Biology
Cell Biology

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10.1016/j.devcel.2008.08.018

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@article{f210b702320e4888a3b43b43d021d9be,

title = "Codependent Activators Direct Myoblast-Specific MyoD Transcription",

abstract = "Although FoxO and Pax proteins represent two important families of transcription factors in determining cell fate, they had not been functionally or physically linked together in mediating regulation of a common target gene during normal cellular transcription programs. Here, we identify MyoD, a key regulator of myogenesis, as a direct target of FoxO3 and Pax3/7 in myoblasts. Our cell-based assays and in vitro studies reveal a tight codependent partnership between FoxO3 and Pax3/7 to coordinately recruit RNA polymerase II and form a preinitiation complex (PIC) to activate MyoD transcription in myoblasts. The role of FoxO3 in regulating muscle differentiation is confirmed in vivo by observed defects in muscle regeneration caused by MyoD downregulation in FoxO3 null mice. These data establish a mutual interdependence and functional link between two families of transcription activators serving as potential signaling sensors and regulators of cell fate commitment in directing tissue specific MyoD transcription.",

keywords = "DEVBIO",

author = "Ping Hu and Geles, {Kenneth G.} and Paik, {Ji Hye} and DePinho, {Ronald A.} and Robert Tjian",

note = "Funding Information: We thank M. Haggart for technical assistance, A. Fisher for assistance in large scale cell culture, D. Schichnes for help on microscope usage, and D. King and L. Kohlstaedt for help on peptide synthesis and mass spec. We thank I. Conboy and M. Carlson for help on satellite cell isolation, M. Marr for help on in vitro transcription assays, and B. Gan for help on isolation of primary myoblasts from knockout mice. We also thank M. Deato, K. Wright, Y. Fong, W. Liu, R. Colemen, F. Herrera, B. Guglielmi, E. Olson, M.E. Buckingham, and M. Rudnicki for critical reading of the manuscript. We thank members of the Tjian laboratory for valuable suggestions and discussions. J.-H.P. is Damon Runyon Fellows supported by the Damon Runyon Cancer Research Foundation. R.T. is an investigator of the Howard Hughes Medical Institute and Director of the Li Ka-Shing Center for Biomedical and Health Sciences. ",

year = "2008",

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day = "14",

doi = "10.1016/j.devcel.2008.08.018",

language = "English (US)",

volume = "15",

pages = "534--546",

journal = "Developmental cell",

issn = "1534-5807",

publisher = "Cell Press",

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T1 - Codependent Activators Direct Myoblast-Specific MyoD Transcription

AU - Hu, Ping

AU - Geles, Kenneth G.

AU - Paik, Ji Hye

AU - DePinho, Ronald A.

AU - Tjian, Robert

N1 - Funding Information: We thank M. Haggart for technical assistance, A. Fisher for assistance in large scale cell culture, D. Schichnes for help on microscope usage, and D. King and L. Kohlstaedt for help on peptide synthesis and mass spec. We thank I. Conboy and M. Carlson for help on satellite cell isolation, M. Marr for help on in vitro transcription assays, and B. Gan for help on isolation of primary myoblasts from knockout mice. We also thank M. Deato, K. Wright, Y. Fong, W. Liu, R. Colemen, F. Herrera, B. Guglielmi, E. Olson, M.E. Buckingham, and M. Rudnicki for critical reading of the manuscript. We thank members of the Tjian laboratory for valuable suggestions and discussions. J.-H.P. is Damon Runyon Fellows supported by the Damon Runyon Cancer Research Foundation. R.T. is an investigator of the Howard Hughes Medical Institute and Director of the Li Ka-Shing Center for Biomedical and Health Sciences.

PY - 2008/10/14

Y1 - 2008/10/14

N2 - Although FoxO and Pax proteins represent two important families of transcription factors in determining cell fate, they had not been functionally or physically linked together in mediating regulation of a common target gene during normal cellular transcription programs. Here, we identify MyoD, a key regulator of myogenesis, as a direct target of FoxO3 and Pax3/7 in myoblasts. Our cell-based assays and in vitro studies reveal a tight codependent partnership between FoxO3 and Pax3/7 to coordinately recruit RNA polymerase II and form a preinitiation complex (PIC) to activate MyoD transcription in myoblasts. The role of FoxO3 in regulating muscle differentiation is confirmed in vivo by observed defects in muscle regeneration caused by MyoD downregulation in FoxO3 null mice. These data establish a mutual interdependence and functional link between two families of transcription activators serving as potential signaling sensors and regulators of cell fate commitment in directing tissue specific MyoD transcription.

AB - Although FoxO and Pax proteins represent two important families of transcription factors in determining cell fate, they had not been functionally or physically linked together in mediating regulation of a common target gene during normal cellular transcription programs. Here, we identify MyoD, a key regulator of myogenesis, as a direct target of FoxO3 and Pax3/7 in myoblasts. Our cell-based assays and in vitro studies reveal a tight codependent partnership between FoxO3 and Pax3/7 to coordinately recruit RNA polymerase II and form a preinitiation complex (PIC) to activate MyoD transcription in myoblasts. The role of FoxO3 in regulating muscle differentiation is confirmed in vivo by observed defects in muscle regeneration caused by MyoD downregulation in FoxO3 null mice. These data establish a mutual interdependence and functional link between two families of transcription activators serving as potential signaling sensors and regulators of cell fate commitment in directing tissue specific MyoD transcription.

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ER -

Codependent Activators Direct Myoblast-Specific MyoD Transcription

Abstract

Keywords

ASJC Scopus subject areas

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