GATA4 Loss-of-function Mutations Underlie Familial Tetralogy of Fallot

Overview

Journal Hum Mutat

Specialty Genetics

Date 2013 Sep 4

PMID 24000169

Citations 32

Authors

Yi-Qing Yang

Lara Gharibeh

Ruo-Gu Li

Yuan-Feng Xin

Juan Wang

Zhong-Min Liu

Xing-Biao Qiu

Ying-Jia Xu

Lei Xu

Xin-Kai Qu

Xu Liu

Wei-Yi Fang

Ri-Tai Huang

Song Xue

Georges Nemer

Affiliations

Soon will be listed here.

Abstract

Tetralogy of Fallot (TOF) represents the most common form of cyanotic congenital heart disease and accounts for significant morbidity and mortality in humans. Emerging evidence has implicated genetic defects in the pathogenesis of TOF. However, TOF is genetically heterogeneous and the genetic basis for TOF in most patients remains unclear. In this study, the GATA4 gene were sequenced in 52 probands with familial TOF, and three novel heterozygous mutations, including A9P and L51V both located in the putative first transactivational domain and N285S in the C-terminal zinc finger, were identified in three probands, respectively. Genetic analysis of the pedigrees demonstrated that in each family the mutation cosegregated with TOF with complete penetrance. The missense mutations were absent in 800 control chromosomes and the altered amino acids were highly conserved evolutionarily. Functional analysis showed that the GATA4 mutants were consistently associated with diminished DNA-binding affinity and decreased transcriptional activity. Furthermore, the N285S mutation completely disrupted the physical interaction between GATA4 and TBX5. To our knowledge, this report associates GATA4 loss-of-function mutations with familial TOF for the first time, providing novel insight into the molecular mechanism involved in TOF and suggesting potential implications for the early prophylaxis and allele-specific therapy of TOF.

Citing Articles

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Somatic mutation contributes to tetralogy of Fallot.

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Genetic Variants of Gene Promoter Identified from Congenital Tetralogy of Fallot Patients Alter Cellular Function Forming Disease Basis.

Yin X, Chen H, Chen Z, Yang Q, Han J, He G Biomolecules. 2023; 13(2).

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