A complementary study approach unravels novel players in the pathoetiology of Hirschsprung disease.

ATP Binding Cassette Transporter, Subfamily D, Member 1 / genetics Animals Cell Differentiation / genetics Cell Line Cell Proliferation / genetics Cell Survival / genetics Computer Simulation Copper-Transporting ATPases / genetics Disease Models, Animal Gene Expression Profiling Gene Knockout Techniques Hirschsprung Disease / genetics Humans Infant Male Mice Protein Inhibitors of Activated STAT / genetics Sterol Regulatory Element Binding Protein 1 / genetics Exome Sequencing

Journal

PLoS genetics

ISSN: 1553-7404

Titre abrégé: PLoS Genet

Pays: United States

ID NLM: 101239074

Informations de publication

Date de publication:
11 2020

Historique:

received: 29 04 2020

accepted: 08 09 2020

entrez: 5 11 2020

pubmed: 6 11 2020

medline: 7 1 2021

Statut: epublish

Résumé

Hirschsprung disease (HSCR, OMIM 142623) involves congenital intestinal obstruction caused by dysfunction of neural crest cells and their progeny during enteric nervous system (ENS) development. HSCR is a multifactorial disorder; pathogenetic variants accounting for disease phenotype are identified only in a minority of cases, and the identification of novel disease-relevant genes remains challenging. In order to identify and to validate a potential disease-causing relevance of novel HSCR candidate genes, we established a complementary study approach, combining whole exome sequencing (WES) with transcriptome analysis of murine embryonic ENS-related tissues, literature and database searches, in silico network analyses, and functional readouts using candidate gene-specific genome-edited cell clones. WES datasets of two patients with HSCR and their non-affected parents were analysed, and four novel HSCR candidate genes could be identified: ATP7A, SREBF1, ABCD1 and PIAS2. Further rare variants in these genes were identified in additional HSCR patients, suggesting disease relevance. Transcriptomics revealed that these genes are expressed in embryonic and fetal gastrointestinal tissues. Knockout of these genes in neuronal cells demonstrated impaired cell differentiation, proliferation and/or survival. Our approach identified and validated candidate HSCR genes and provided further insight into the underlying pathomechanisms of HSCR.

Identifiants

DOI: 10.1371/journal.pgen.1009106 PMID: 33151932 PMC: PMC7643938

pubmed: 33151932

doi: 10.1371/journal.pgen.1009106

pii: PGENETICS-D-20-00672

pmc: PMC7643938

doi:

Substances chimiques

ABCD1 protein, human 0

ATP Binding Cassette Transporter, Subfamily D, Member 1 0

Abcd1 protein, mouse 0

Atp7a protein, mouse 0

PIAS2 protein, human 0

Protein Inhibitors of Activated STAT 0

SREBF1 protein, human 0

Srebf1 protein, mouse 0

Sterol Regulatory Element Binding Protein 1 0

Pias2 protein, mouse EC 6.3.2.-

ATP7A protein, human EC 7.2.2.8

Copper-Transporting ATPases EC 7.2.2.8

Types de publication

Journal Article Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

Pagination

e1009106

Déclaration de conflit d'intérêts

I have read the journal's policy and the authors of this manuscript have the following competing interests: The Department of Molecular and Human Genetics at Baylor College of Medicine receives revenue from clinical genetic testing conducted at Baylor Genetics Laboratories.

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