Molecular embryology for an understanding of congenital heart diseases

Hiroyuki Yamagishi; Jun Maeda; Keiko Uchida; Takatoshi Tsuchihashi; Maki Nakazawa; Megumi Aramaki; Kazuki Kodo; Chihiro Yamagishi

doi:10.1007/s12565-009-0023-4

Molecular embryology for an understanding of congenital heart diseases

Hiroyuki Yamagishi, Jun Maeda, Keiko Uchida, Takatoshi Tsuchihashi, Maki Nakazawa, Megumi Aramaki, Kazuki Kodo, Chihiro Yamagishi

Research output: Contribution to journal › Review article › peer-review

13 Citations (Scopus)

Abstract

Congenital heart diseases (CHD) result from abnormal morphogenesis of the embryonic cardiovascular system and usually involve defects in specific structural components of the developing heart and vessels. Therefore, an understanding of "Molecular Embryology", with specific focus on the individual modular steps involved in cardiovascular morphogenesis, is particularly relevant to those wishing to have a better insight into the origin of CHD. Recent advances in molecular embryology suggest that the cardiovascular system arises from multiple distinct embryonic origins, and a population of myocardial precursor cells in the pharyngeal mesoderm anterior to the early heart tube, denoted the "second heart field", has been identified. Discovery of the second heart field has important implications for the interpretation of cardiac outflow tract development and provides new insights into the morphogenesis of CHD.

Original language	English
Pages (from-to)	88-94
Number of pages	7
Journal	Anatomical Science International
Volume	84
Issue number	3
DOIs	https://doi.org/10.1007/s12565-009-0023-4
Publication status	Published - 2009

Keywords

Forkhead
Heart development
IP receptor
Second heart field
Tbx1

ASJC Scopus subject areas

Anatomy

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10.1007/s12565-009-0023-4

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title = "Molecular embryology for an understanding of congenital heart diseases",

abstract = "Congenital heart diseases (CHD) result from abnormal morphogenesis of the embryonic cardiovascular system and usually involve defects in specific structural components of the developing heart and vessels. Therefore, an understanding of {"}Molecular Embryology{"}, with specific focus on the individual modular steps involved in cardiovascular morphogenesis, is particularly relevant to those wishing to have a better insight into the origin of CHD. Recent advances in molecular embryology suggest that the cardiovascular system arises from multiple distinct embryonic origins, and a population of myocardial precursor cells in the pharyngeal mesoderm anterior to the early heart tube, denoted the {"}second heart field{"}, has been identified. Discovery of the second heart field has important implications for the interpretation of cardiac outflow tract development and provides new insights into the morphogenesis of CHD.",

keywords = "Forkhead, Heart development, IP receptor, Second heart field, Tbx1",

author = "Hiroyuki Yamagishi and Jun Maeda and Keiko Uchida and Takatoshi Tsuchihashi and Maki Nakazawa and Megumi Aramaki and Kazuki Kodo and Chihiro Yamagishi",

note = "Funding Information: Acknowledgments The authors wish to thank Dr. Deepak Srivast-ava for his support, and Dr. Katsuhiko Mikoshiba for collaboration in the IP3R project. Research in our laboratory is supported by funding",

year = "2009",

doi = "10.1007/s12565-009-0023-4",

language = "English",

volume = "84",

pages = "88--94",

journal = "Anatomical Science International",

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AU - Yamagishi, Hiroyuki

AU - Maeda, Jun

AU - Uchida, Keiko

AU - Tsuchihashi, Takatoshi

AU - Nakazawa, Maki

AU - Aramaki, Megumi

AU - Kodo, Kazuki

AU - Yamagishi, Chihiro

N1 - Funding Information: Acknowledgments The authors wish to thank Dr. Deepak Srivast-ava for his support, and Dr. Katsuhiko Mikoshiba for collaboration in the IP3R project. Research in our laboratory is supported by funding

PY - 2009

Y1 - 2009

N2 - Congenital heart diseases (CHD) result from abnormal morphogenesis of the embryonic cardiovascular system and usually involve defects in specific structural components of the developing heart and vessels. Therefore, an understanding of "Molecular Embryology", with specific focus on the individual modular steps involved in cardiovascular morphogenesis, is particularly relevant to those wishing to have a better insight into the origin of CHD. Recent advances in molecular embryology suggest that the cardiovascular system arises from multiple distinct embryonic origins, and a population of myocardial precursor cells in the pharyngeal mesoderm anterior to the early heart tube, denoted the "second heart field", has been identified. Discovery of the second heart field has important implications for the interpretation of cardiac outflow tract development and provides new insights into the morphogenesis of CHD.

AB - Congenital heart diseases (CHD) result from abnormal morphogenesis of the embryonic cardiovascular system and usually involve defects in specific structural components of the developing heart and vessels. Therefore, an understanding of "Molecular Embryology", with specific focus on the individual modular steps involved in cardiovascular morphogenesis, is particularly relevant to those wishing to have a better insight into the origin of CHD. Recent advances in molecular embryology suggest that the cardiovascular system arises from multiple distinct embryonic origins, and a population of myocardial precursor cells in the pharyngeal mesoderm anterior to the early heart tube, denoted the "second heart field", has been identified. Discovery of the second heart field has important implications for the interpretation of cardiac outflow tract development and provides new insights into the morphogenesis of CHD.

KW - Forkhead

KW - Heart development

KW - IP receptor

KW - Second heart field

KW - Tbx1

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JF - Anatomical Science International

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Molecular embryology for an understanding of congenital heart diseases

Abstract

Keywords

ASJC Scopus subject areas

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