A genetic and developmental biological approach for a family with complex congenital heart diseases-evidence of digenic inheritance

Congenital heart disease (CHD) is caused by cardiovascular developmental defects and has a global prevalence of ∼1%. The etiology of CHD is multifactorial and remains generally unknown, despite advances in analytical techniques based on next-generation sequencing (NGS). The aim of our study was to e...

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Bibliographic Details
Published in:Frontiers in cardiovascular medicine 2023-04, Vol.10, p.1135141-1135141
Main Authors: Yoshida, Yu, Uchida, Keiko, Kodo, Kazuki, Ishizaki-Asami, Reina, Maeda, Jun, Katsumata, Yoshinori, Yuasa, Shinsuke, Fukuda, Keiichi, Kosaki, Kenjiro, Watanabe, Yusuke, Nakagawa, Osamu, Yamagishi, Hiroyuki
Format: Article
Language:English
Subjects:
Cardiovascular Medicine
complex congenital heart disease
nodal
rare variants
tbx20
trio gene analysis
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Summary:Congenital heart disease (CHD) is caused by cardiovascular developmental defects and has a global prevalence of ∼1%. The etiology of CHD is multifactorial and remains generally unknown, despite advances in analytical techniques based on next-generation sequencing (NGS). The aim of our study was to elucidate the multi-genetic origin and pathogenesis of an intriguing familial case with complex CHD. We performed an original trio-based gene panel analysis using NGS of the family, including two siblings with CHD of single ventricular phenotype, and their unaffected parents. The pathogenicity of the detected rare variants was investigated , and the functional effects of the variants were confirmed using luciferase assays. The combinatorial effect of gene alterations of the putative responsible genes was tested using genetically engineered mutant mice. NGS-based gene panel analyses revealed two heterozygous rare variants in and in common to the siblings and to just one of parents. Both variants were suspected pathogenic and decreased transcriptional activities of downstream signaling pathways were observed . The analyses of and double mutant mice demonstrated that embryos showed more severe defects than embryos during early heart development. The expression of , a known downstream target of , was downregulated in mutants. Two rare variants on and genes detected in this family were considered to be loss-of-function mutations. Our results suggest that and may be complementary for the cardiac development, and a combinatorial loss-of-function of and could be implicated in digenic inherence as the etiology of complex CHD associated with single ventricle defects in this family.
ISSN:2297-055X
2297-055X
DOI:10.3389/fcvm.2023.1135141