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Protein-altering and Regulatory Genetic Variants Near GATA4 Implicated in Bicuspid Aortic Valve

Overview
Journal Nat Commun
Specialty Biology
Date 2017 May 26
PMID 28541271
Citations 50
Authors
Bo Yang
Wei Zhou
Jiao Jiao
Jonas B Nielsen
Michael R Mathis
Mahyar Heydarpour
Guillaume Lettre
Lasse Folkersen
Siddharth Prakash
Claudia Schurmann
Lars Fritsche
Gregory A Farnum
Maoxuan Lin
Mohammad Othman
Whitney Hornsby
Anisa Driscoll
Alexandra Levasseur
Marc Thomas
Linda Farhat
Marie-Pierre Dube
Eric M Isselbacher
Anders Franco-Cereceda
Dong-Chuan Guo
Erwin P Bottinger
G Michael Deeb
Anna Booher
Sachin Kheterpal
Y Eugene Chen
Hyun Min Kang
Jacob Kitzman
Heather J Cordell
Bernard D Keavney
Judith A Goodship
Santhi K Ganesh
Goncalo Abecasis
Kim A Eagle
Alan P Boyle
Ruth J F Loos
Per Eriksson
Jean-Claude Tardif
Chad M Brummett
Dianna M Milewicz
Simon C Body
Cristen J Willer
Affiliations
Soon will be listed here.
Abstract

Bicuspid aortic valve (BAV) is a heritable congenital heart defect and an important risk factor for valvulopathy and aortopathy. Here we report a genome-wide association scan of 466 BAV cases and 4,660 age, sex and ethnicity-matched controls with replication in up to 1,326 cases and 8,103 controls. We identify association with a noncoding variant 151 kb from the gene encoding the cardiac-specific transcription factor, GATA4, and near-significance for p.Ser377Gly in GATA4. GATA4 was interrupted by CRISPR-Cas9 in induced pluripotent stem cells from healthy donors. The disruption of GATA4 significantly impaired the transition from endothelial cells into mesenchymal cells, a critical step in heart valve development.

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