Endocardial Cells Form the Coronary Arteries by Angiogenesis through Myocardial-Endocardial VEGF Signaling

[1]  M. Majesky Development of Coronary Vessels , 2015, Current topics in developmental biology.

[2]  C. Tabin,et al.  Distinct compartments of the proepicardial organ give rise to coronary vascular endothelial cells. , 2012, Developmental cell.

[3]  Bin Zhou,et al.  Nfatc1 Coordinates Valve Endocardial Cell Lineage Development Required for Heart Valve Formation , 2011, Circulation research.

[4]  I. Weissman,et al.  Coronary arteries form by developmental reprogramming of venous cells , 2010, Nature.

[5]  E. Svensson,et al.  Epicardial-myocardial signaling directing coronary vasculogenesis. , 2010, Circulation research.

[6]  G. Miyoshi,et al.  Genetic Fate Mapping Reveals That the Caudal Ganglionic Eminence Produces a Large and Diverse Population of Superficial Cortical Interneurons , 2010, The Journal of Neuroscience.

[7]  P. Labosky,et al.  Endocardial cells are a distinct endothelial lineage derived from Flk1+ multipotent cardiovascular progenitors. , 2009, Developmental biology.

[8]  D. Ornitz,et al.  Shared circuitry: developmental signaling cascades regulate both embryonic and adult coronary vasculature. , 2009, Circulation research.

[9]  Bin Zhou,et al.  Epicardial progenitors contribute to the cardiomyocyte lineage in the developing heart , 2008, Nature.

[10]  Ju Chen,et al.  A myocardial lineage derives from Tbx18 epicardial cells , 2008, Nature.

[11]  Eric D. Adler,et al.  Human cardiovascular progenitor cells develop from a KDR+ embryonic-stem-cell-derived population , 2008, Nature.

[12]  K. Stankunas,et al.  Endocardial Brg1 represses ADAMTS1 to maintain the microenvironment for myocardial morphogenesis. , 2008, Developmental cell.

[13]  E. Fuchs,et al.  NFATc1 Balances Quiescence and Proliferation of Skin Stem Cells , 2008, Cell.

[14]  Jackelyn A. Alva,et al.  VE‐cadherin‐CreERT2 transgenic mouse: A model for inducible recombination in the endothelium , 2006, Developmental dynamics : an official publication of the American Association of Anatomists.

[15]  Michael D. Schneider,et al.  Cardiomyocyte-Specific Deletion of the Coxsackievirus and Adenovirus Receptor Results in Hyperplasia of the Embryonic Left Ventricle and Abnormalities of Sinuatrial Valves , 2006, Circulation research.

[16]  T. Mikawa,et al.  VEGF Family Members Regulate Myocardial Tubulogenesis and Coronary Artery Formation in the Embryo , 2006, Circulation research.

[17]  Michiko Watanabe,et al.  Differential levels of tissue hypoxia in the developing chicken heart , 2006, Developmental dynamics : an official publication of the American Association of Anatomists.

[18]  Bin Zhou,et al.  Characterization of Nfatc1 regulation identifies an enhancer required for gene expression that is specific to pro-valve endocardial cells in the developing heart , 2005, Development.

[19]  I. Graef,et al.  A Field of Myocardial-Endocardial NFAT Signaling Underlies Heart Valve Morphogenesis , 2004, Cell.

[20]  Spencer G. Willet,et al.  Coronary vessel development: a unique form of vasculogenesis. , 2003, Arteriosclerosis, thrombosis, and vascular biology.

[21]  E. Wagner,et al.  Cortical and retinal defects caused by dosage-dependent reductions in VEGF-A paracrine signaling. , 2003, Developmental biology.

[22]  B. Hogan,et al.  An essential role of Bmp4 in the atrioventricular septation of the mouse heart. , 2003, Genes & development.

[23]  A. Luttun,et al.  De novo vasculogenesis in the heart. , 2003, Cardiovascular research.

[24]  N. Copeland,et al.  A highly efficient recombineering-based method for generating conditional knockout mutations. , 2003, Genome research.

[25]  J. Pérez-Pomares,et al.  Origin of coronary endothelial cells from epicardial mesothelium in avian embryos. , 2002, The International journal of developmental biology.

[26]  Susan E. Wert,et al.  Early restriction of peripheral and proximal cell lineages during formation of the lung , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[27]  P. Robson,et al.  Regulation of the Murine Nfatc1 Gene by NFATc2* , 2002, The Journal of Biological Chemistry.

[28]  Yusu Gu,et al.  A cardiac myocyte vascular endothelial growth factor paracrine pathway is required to maintain cardiac function , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[29]  R. Fässler,et al.  Tie-1-directed expression of Cre recombinase in endothelial cells of embryoid bodies and transgenic mice. , 2001, Journal of cell science.

[30]  A. Kispert,et al.  Cloning and expression analysis of the mouse T-box gene Tbx18 , 2001, Mechanisms of Development.

[31]  Jun Yamashita,et al.  Flk1-positive cells derived from embryonic stem cells serve as vascular progenitors , 2000, Nature.

[32]  A. Nagy,et al.  Embryonic development is disrupted by modest increases in vascular endothelial growth factor gene expression. , 2000, Development.

[33]  C. Drake,et al.  Vasculogenesis in the day 6.5 to 9.5 mouse embryo. , 2000, Blood.

[34]  M Aguet,et al.  VEGF is required for growth and survival in neonatal mice. , 1999, Development.

[35]  R. Poelmann,et al.  Smooth muscle cells and fibroblasts of the coronary arteries derive from epithelial-mesenchymal transformation of the epicardium , 1999, Anatomy and Embryology.

[36]  Michael J. Grusby,et al.  The transcription factor NF-ATc is essential for cardiac valve formation , 1998, Nature.

[37]  Tak W. Mak,et al.  Role of the NF-ATc transcription factor in morphogenesis of cardiac valves and septum , 1998, Nature.

[38]  W. Denetclaw,et al.  Common epicardial origin of coronary vascular smooth muscle, perivascular fibroblasts, and intermyocardial fibroblasts in the avian heart. , 1998, Developmental biology.

[39]  R. Markwald,et al.  Formation and early morphogenesis of endocardial endothelial precursor cells and the role of endoderm. , 1996, Developmental biology.

[40]  Lieve Moons,et al.  Abnormal blood vessel development and lethality in embryos lacking a single VEGF allele , 1996, Nature.

[41]  Kenneth J. Hillan,et al.  Heterozygous embryonic lethality induced by targeted inactivation of the VEGF gene , 1996, Nature.

[42]  T. Mikawa,et al.  Pericardial mesoderm generates a population of coronary smooth muscle cells migrating into the heart along with ingrowth of the epicardial organ. , 1996, Developmental biology.

[43]  K. Alitalo,et al.  Endothelial-specific gene expression directed by the tie gene promoter in vivo. , 1995, Blood.

[44]  Janet Rossant,et al.  Failure of blood-island formation and vasculogenesis in Flk-1-deficient mice , 1995, Nature.

[45]  T. Mikawa,et al.  Retroviral analysis of cardiac morphogenesis: discontinuous formation of coronary vessels. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[46]  T. Mikawa,et al.  Clonal analysis of cardiac morphogenesis in the chicken embryo using a replication‐defective retrovirus: I. Formation of the ventricular myocardium , 1992, Developmental dynamics : an official publication of the American Association of Anatomists.

[47]  C. E. Challice,et al.  The origin of the epicardium and the embryonic myocardial circulation in the mouse , 1981, The Anatomical record.

[48]  Cerebral Cortex doi:10.1093/cercor/bhp038 Characterization of Nkx6-2-Derived , 2009 .

[49]  Y. Shimada,et al.  Origin and development of the epicardium in the mouse embryo , 2004, Anatomy and Embryology.

[50]  Philippe Soriano Generalized lacZ expression with the ROSA26 Cre reporter strain , 1999, Nature Genetics.