OBJECTIVE: Although significant research has detailed angiogenesis during development and cancer, little is known about cardiac angiogenesis, yet it is critical for survival following pathological insult. The transcription factor c-Myc is a target of anticancer therapies because of its mitogenic and proangiogenic induction. In the current study, we investigate its role in cardiac angiogenesis in a cell-dependent and gene-specific context. METHODS AND RESULTS: Angiogenesis assays using c-Myc-deficient cardiac endothelial cells and fibroblasts demonstrate that c-Myc is essential to vessel formation, and fibroblast-mediated vessel formation is dependent on c-Myc expression in fibroblasts. Gene analyses revealed that c-Myc-mediated gene expression is unique in cardiac angiogenesis and varies in a cell-dependent manner. In vitro 3-dimensional cultures demonstrated c-Myc's role in the expression of secreted angiogenic factors, while also providing evidence for c-Myc-mediated cell-cell interactions. Additional in vivo vascular analyses support c-Myc's critical role in capillary formation and vessel patterning during development and also in response to a pathological stimulus where its expression in myocytes is required for angiogenic remodeling. CONCLUSIONS: These data demonstrate that proper c-Myc expression in cardiac fibroblasts and myocytes is essential to cardiac angiogenesis. These results have the potential for novel therapeutic applications involving the angiogenic response during cardiac remodeling.
OBJECTIVE: Although significant research has detailed angiogenesis during development and cancer, little is known about cardiac angiogenesis, yet it is critical for survival following pathological insult. The transcription factor c-Myc is a target of anticancer therapies because of its mitogenic and proangiogenic induction. In the current study, we investigate its role in cardiac angiogenesis in a cell-dependent and gene-specific context. METHODS AND RESULTS: Angiogenesis assays using c-Myc-deficient cardiac endothelial cells and fibroblasts demonstrate that c-Myc is essential to vessel formation, and fibroblast-mediated vessel formation is dependent on c-Myc expression in fibroblasts. Gene analyses revealed that c-Myc-mediated gene expression is unique in cardiac angiogenesis and varies in a cell-dependent manner. In vitro 3-dimensional cultures demonstrated c-Myc's role in the expression of secreted angiogenic factors, while also providing evidence for c-Myc-mediated cell-cell interactions. Additional in vivo vascular analyses support c-Myc's critical role in capillary formation and vessel patterning during development and also in response to a pathological stimulus where its expression in myocytes is required for angiogenic remodeling. CONCLUSIONS: These data demonstrate that proper c-Myc expression in cardiac fibroblasts and myocytes is essential to cardiac angiogenesis. These results have the potential for novel therapeutic applications involving the angiogenic response during cardiac remodeling.
Authors: Chen He; Huiqing Hu; Rickmer Braren; Shun-Yin Fong; Andreas Trumpp; Timothy R Carlson; Rong A Wang Journal: Development Date: 2008-06-11 Impact factor: 6.868
Authors: Jamie L McClellan; J Mark Davis; Jennifer L Steiner; Reilly T Enos; Seung H Jung; James A Carson; Maria M Pena; Kevin A Carnevale; Franklin G Berger; E Angela Murphy Journal: Am J Physiol Gastrointest Liver Physiol Date: 2012-09-27 Impact factor: 4.052
Authors: Nora Franceschini; Yijuan Hu; Alex P Reiner; Steven Buyske; Mike Nalls; Lisa R Yanek; Yun Li; Lucia A Hindorff; Shelley A Cole; Barbara V Howard; Jeanette M Stafford; Cara L Carty; Praveen Sethupathy; Lisa W Martin; Dan-Yu Lin; Karen C Johnson; Lewis C Becker; Kari E North; Abbas Dehghan; Joshua C Bis; Yongmei Liu; Philip Greenland; JoAnn E Manson; Nobuyo Maeda; Melissa Garcia; Tamara B Harris; Diane M Becker; Christopher O'Donnell; Gerardo Heiss; Charles Kooperberg; Eric Boerwinkle Journal: PLoS One Date: 2014-12-26 Impact factor: 3.240