OBJECTIVE: Foxc2/MFH-1 is a member of the forkhead family of transcription factors and Foxc2-deficient mice exhibit aortic arch anomalies (type B interruption of the aortic arch). Endothelin receptor type-A (ETA) is one of the two known endothelin receptors that belong to the G-protein-coupled receptor family. ETA-deficient mice show defects in the great arteries, primarily type B interruption of the aortic arch. Based on similar phenotypes in the cardiovascular system of Foxc2- and ETA-deficient mice, we investigated whether Foxc2 and ETA have a close relationship in aortic arch patterning. METHODS: The Foxc2 and ETA homozygotes were obtained by crossing the Foxc2 and ETA heterozygotes, respectively. The double Foxc2/ETA homozygotes were obtained by crossing the double Foxc2/ETA heterozygotes. RESULTS: We investigated the expression of ETA in Foxc2-null mice and the expression of Foxc2 in ETA-null mice and found that the absence of either Foxc2 or ETA had no effect on the expression of the other. Next, we analyzed mice lacking both Foxc2 and ETA to examine the relationship between Foxc2 and ETA on aortic arch patterning in vivo. We found that the majority of Foxc2/ETA double-mutant embryos died around 11.5 dpc and that all surviving mice had persistent truncus arteriosus. CONCLUSIONS: The results suggest that Foxc2- and ETA-expressing cells additively form the aorticopulmonary septum.
OBJECTIVE:Foxc2/MFH-1 is a member of the forkhead family of transcription factors and Foxc2-deficientmice exhibit aortic arch anomalies (type B interruption of the aortic arch). Endothelin receptor type-A (ETA) is one of the two known endothelin receptors that belong to the G-protein-coupled receptor family. ETA-deficient mice show defects in the great arteries, primarily type B interruption of the aortic arch. Based on similar phenotypes in the cardiovascular system of Foxc2- and ETA-deficient mice, we investigated whether Foxc2 and ETA have a close relationship in aortic arch patterning. METHODS: The Foxc2 and ETA homozygotes were obtained by crossing the Foxc2 and ETA heterozygotes, respectively. The double Foxc2/ETA homozygotes were obtained by crossing the double Foxc2/ETA heterozygotes. RESULTS: We investigated the expression of ETA in Foxc2-null mice and the expression of Foxc2 in ETA-null mice and found that the absence of either Foxc2 or ETA had no effect on the expression of the other. Next, we analyzed mice lacking both Foxc2 and ETA to examine the relationship between Foxc2 and ETA on aortic arch patterning in vivo. We found that the majority of Foxc2/ETA double-mutant embryos died around 11.5 dpc and that all surviving mice had persistent truncus arteriosus. CONCLUSIONS: The results suggest that Foxc2- and ETA-expressing cells additively form the aorticopulmonary septum.
Authors: Shao-Qing Kuang; Olga Medina-Martinez; Dong-Chuan Guo; Limin Gong; Ellen S Regalado; Corey L Reynolds; Catherine Boileau; Guillaume Jondeau; Siddharth K Prakash; Callie S Kwartler; Lawrence Yang Zhu; Andrew M Peters; Xue-Yan Duan; Michael J Bamshad; Jay Shendure; Debbie A Nickerson; Regie L Santos-Cortez; Xiurong Dong; Suzanne M Leal; Mark W Majesky; Eric C Swindell; Milan Jamrich; Dianna M Milewicz Journal: J Clin Invest Date: 2016-02-08 Impact factor: 14.808
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Authors: Kimberly E Inman; Carlo Donato Caiaffa; Kristin R Melton; Lisa L Sandell; Annita Achilleos; Tsutomu Kume; Paul A Trainor Journal: Dev Dyn Date: 2018-12 Impact factor: 3.780
Authors: Paweł Stankiewicz; Partha Sen; Samarth S Bhatt; Mekayla Storer; Zhilian Xia; Bassem A Bejjani; Zhishuo Ou; Joanna Wiszniewska; Daniel J Driscoll; Melissa K Maisenbacher; Juan Bolivar; Mislen Bauer; Elaine H Zackai; Donna McDonald-McGinn; Małgorzata M J Nowaczyk; Mitzi Murray; Virginia Hustead; Kristin Mascotti; Regina Schultz; Lavinia Hallam; Duncan McRae; Andrew G Nicholson; Robert Newbury; Jane Durham-O'Donnell; Gail Knight; Usha Kini; Tamim H Shaikh; Vicki Martin; Matthew Tyreman; Ingrid Simonic; Lionel Willatt; Joan Paterson; Sarju Mehta; Diana Rajan; Tomas Fitzgerald; Susan Gribble; Elena Prigmore; Ankita Patel; Lisa G Shaffer; Nigel P Carter; Sau Wai Cheung; Claire Langston; Charles Shaw-Smith Journal: Am J Hum Genet Date: 2009-06-04 Impact factor: 11.025