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Mechanism Sharing Between Genetic and Gestational Hypoxia-Induced Cardiac Anomalies

Cardiac development is a dynamic process both temporally and spatially. These complex processes are often disturbed and lead to congenital cardiac anomalies that affect approximately 1% of live births. Disease-causing variants in several genetic loci lead to cardiac anomalies, with variants in trans...

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Bibliographic Details
Published in:Frontiers in cardiovascular medicine 2018-08, Vol.5, p.100-100
Main Authors: Moumne, Olivia, Chowdhurry, Rajib, Doll, Cassandra, Pereira, Natalia, Hashimi, Mustafa, Grindrod, Tabor, Dollar, James J, Riva, Alberto, Kasahara, Hideko
Format: Article
Language:English
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Summary:Cardiac development is a dynamic process both temporally and spatially. These complex processes are often disturbed and lead to congenital cardiac anomalies that affect approximately 1% of live births. Disease-causing variants in several genetic loci lead to cardiac anomalies, with variants in transcription factor gene being one of the largest variants known. Gestational hypoxia, such as seen in high-altitude pregnancy, has been known to affect cardiac development, yet the incidence and underlying mechanisms are largely unknown. Normal wild-type female mice mated with heterozygous mutant males were housed under moderate hypoxia (14% O ) or normoxia (20.9% O ) conditions from 10.5 days of gestation. Wild-type mice exposed to hypoxia demonstrate excessive trabeculation, ventricular septal defects, irregular morphology of interventricular septum as well as atrial septal abnormalities, which overlap with those seen in heterozygous mutant mice. Genome-wide transcriptome done by RNA-seq of a 2-day hypoxic exposure on wild-type embryos revealed abnormal transcriptomes, in which approximately 60% share those from mutants without hypoxia. Gestational hypoxia reduced the expression of Nkx2-5 proteins in more than one-half along with a reduction in phosphorylation, suggesting that abnormal Nkx2-5 function is a common mechanism shared between genetic and gestational hypoxia-induced cardiac anomalies, at least at a specific developing stage. The results of our study provide insights into a common molecular mechanism underlying non-genetic and genetic cardiac anomalies.
ISSN:2297-055X
2297-055X
DOI:10.3389/fcvm.2018.00100