Bop encodes a muscle-restricted protein containing MYND and SET domains and is essential for cardiac differentiation and morphogenesis

Paul D. Gottlieb; Stephanie A. Pierce; Robert J. Sims; Hiroyuki Yamagishi; Elizabeth K. Weihe; June V. Harriss; Shanna D. Maika; William A. Kuziel; Heather L. King; Eric N. Olson; Osamu Nakagawa; Deepak Srivastava

doi:10.1038/ng866

Bop encodes a muscle-restricted protein containing MYND and SET domains and is essential for cardiac differentiation and morphogenesis

Paul D. Gottlieb, Stephanie A. Pierce, Robert J. Sims, Hiroyuki Yamagishi, Elizabeth K. Weihe, June V. Harriss, Shanna D. Maika, William A. Kuziel, Heather L. King, Eric N. Olson, Osamu Nakagawa, Deepak Srivastava

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Abstract

Many transcription factors regulate specific temporal-spatial events during cardiac differentiation; however, the mechanisms that regulate such events are largely unknown. Using a modified subtractive hybridization method to identify specific genes that influence early cardiac development, we found that Bop is expressed specifically in cardiac and skeletal muscle precursors before differentiation of these lineages. Bop encodes a protein containing MYND and SET domains, which have been shown to regulate transcription by mediating distinct chromatin modifications. We show that m-Bop is a histone deacetylase-dependent transcriptional repressor. Targeted deletion of Bop in mice disrupted maturation of ventricular cardiomyocytes and interfered with formation of the right ventricle. Normal expression of Hand2, a transcription factor essential for right ventricular development, in cardiomyocyte precursors is dependent upon m-Bop. These results indicate that m-Bop is essential for cardiomyocyte differentiation and cardiac morphogenesis.

Original language	English (US)
Pages (from-to)	25-32
Number of pages	8
Journal	Nature genetics
Volume	31
Issue number	1
DOIs	https://doi.org/10.1038/ng866
State	Published - May 2002

ASJC Scopus subject areas

Genetics

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Gottlieb, P. D., Pierce, S. A., Sims, R. J., Yamagishi, H., Weihe, E. K., Harriss, J. V., Maika, S. D., Kuziel, W. A., King, H. L., Olson, E. N., Nakagawa, O., & Srivastava, D. (2002). Bop encodes a muscle-restricted protein containing MYND and SET domains and is essential for cardiac differentiation and morphogenesis. Nature genetics, 31(1), 25-32. https://doi.org/10.1038/ng866

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title = "Bop encodes a muscle-restricted protein containing MYND and SET domains and is essential for cardiac differentiation and morphogenesis",

abstract = "Many transcription factors regulate specific temporal-spatial events during cardiac differentiation; however, the mechanisms that regulate such events are largely unknown. Using a modified subtractive hybridization method to identify specific genes that influence early cardiac development, we found that Bop is expressed specifically in cardiac and skeletal muscle precursors before differentiation of these lineages. Bop encodes a protein containing MYND and SET domains, which have been shown to regulate transcription by mediating distinct chromatin modifications. We show that m-Bop is a histone deacetylase-dependent transcriptional repressor. Targeted deletion of Bop in mice disrupted maturation of ventricular cardiomyocytes and interfered with formation of the right ventricle. Normal expression of Hand2, a transcription factor essential for right ventricular development, in cardiomyocyte precursors is dependent upon m-Bop. These results indicate that m-Bop is essential for cardiomyocyte differentiation and cardiac morphogenesis.",

author = "Gottlieb, {Paul D.} and Pierce, {Stephanie A.} and Sims, {Robert J.} and Hiroyuki Yamagishi and Weihe, {Elizabeth K.} and Harriss, {June V.} and Maika, {Shanna D.} and Kuziel, {William A.} and King, {Heather L.} and Olson, {Eric N.} and Osamu Nakagawa and Deepak Srivastava",

note = "Funding Information: We are grateful to K. Artzt for help and advice; members of the Molecular Pathology Core (C. Pomajzl, J. Stark, J. Shelton and J. Richardson) for assistance with section in situ hybridizations; B. Tyson, D. Motola and C. Yamagishi for technical assistance; S. Johnson for preparation of graphics; C.B. Underhill for biotinylated fragments of proteoglycan and B.G. Bruneau for Irx4 and Tbx5 plasmids. This work was supported by grants from the National Institute of Allergy and Infectious Diseases and the Texas Higher Education Coordinating Board (to P.D.G.), from the National Heart, Lung, and Blood Institute, National Institutes of Health and the D.W. Reynolds Cardiovascular Research Center (to E.N.O. and D.S.) and from March of Dimes and Smile Train Inc. (to D.S.). S.A.P. was supported by a training grant from the NIH.",

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doi = "10.1038/ng866",

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AU - Gottlieb, Paul D.

AU - Pierce, Stephanie A.

AU - Sims, Robert J.

AU - Yamagishi, Hiroyuki

AU - Weihe, Elizabeth K.

AU - Harriss, June V.

AU - Maika, Shanna D.

AU - Kuziel, William A.

AU - King, Heather L.

AU - Olson, Eric N.

AU - Nakagawa, Osamu

AU - Srivastava, Deepak

N1 - Funding Information: We are grateful to K. Artzt for help and advice; members of the Molecular Pathology Core (C. Pomajzl, J. Stark, J. Shelton and J. Richardson) for assistance with section in situ hybridizations; B. Tyson, D. Motola and C. Yamagishi for technical assistance; S. Johnson for preparation of graphics; C.B. Underhill for biotinylated fragments of proteoglycan and B.G. Bruneau for Irx4 and Tbx5 plasmids. This work was supported by grants from the National Institute of Allergy and Infectious Diseases and the Texas Higher Education Coordinating Board (to P.D.G.), from the National Heart, Lung, and Blood Institute, National Institutes of Health and the D.W. Reynolds Cardiovascular Research Center (to E.N.O. and D.S.) and from March of Dimes and Smile Train Inc. (to D.S.). S.A.P. was supported by a training grant from the NIH.

PY - 2002/5

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N2 - Many transcription factors regulate specific temporal-spatial events during cardiac differentiation; however, the mechanisms that regulate such events are largely unknown. Using a modified subtractive hybridization method to identify specific genes that influence early cardiac development, we found that Bop is expressed specifically in cardiac and skeletal muscle precursors before differentiation of these lineages. Bop encodes a protein containing MYND and SET domains, which have been shown to regulate transcription by mediating distinct chromatin modifications. We show that m-Bop is a histone deacetylase-dependent transcriptional repressor. Targeted deletion of Bop in mice disrupted maturation of ventricular cardiomyocytes and interfered with formation of the right ventricle. Normal expression of Hand2, a transcription factor essential for right ventricular development, in cardiomyocyte precursors is dependent upon m-Bop. These results indicate that m-Bop is essential for cardiomyocyte differentiation and cardiac morphogenesis.

AB - Many transcription factors regulate specific temporal-spatial events during cardiac differentiation; however, the mechanisms that regulate such events are largely unknown. Using a modified subtractive hybridization method to identify specific genes that influence early cardiac development, we found that Bop is expressed specifically in cardiac and skeletal muscle precursors before differentiation of these lineages. Bop encodes a protein containing MYND and SET domains, which have been shown to regulate transcription by mediating distinct chromatin modifications. We show that m-Bop is a histone deacetylase-dependent transcriptional repressor. Targeted deletion of Bop in mice disrupted maturation of ventricular cardiomyocytes and interfered with formation of the right ventricle. Normal expression of Hand2, a transcription factor essential for right ventricular development, in cardiomyocyte precursors is dependent upon m-Bop. These results indicate that m-Bop is essential for cardiomyocyte differentiation and cardiac morphogenesis.

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Bop encodes a muscle-restricted protein containing MYND and SET domains and is essential for cardiac differentiation and morphogenesis

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