Size matters: Large copy number losses in Hirschsprung disease patients reveal genes involved in enteric nervous system development

Size matters: Large copy number losses in Hirschsprung disease patients reveal genes involved in enteric nervous system development

Hirschsprung disease (HSCR) is a complex genetic disease characterized by absence of ganglia in the intestine. HSCR etiology can be explained by a unique combination of genetic alterations: rare coding variants, predisposing haplotypes and Copy Number Variation (CNV). Approximately 18% of patients h...

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Veröffentlicht in:PLoS genetics 2021-08, Vol.17 (8), p.e1009698-e1009698
Hauptverfasser: Kuil, Laura E, MacKenzie, Katherine C, Tang, Clara S, Windster, Jonathan D, Le, Thuy Linh, Karim, Anwarul, de Graaf, Bianca M, van der Helm, Robert, van Bever, Yolande, Sloots, Cornelius E. J, Meeussen, Conny, Tibboel, Dick, de Klein, Annelies, Wijnen, René M. H, Amiel, Jeanne, Lyonnet, Stanislas, Garcia-Barcelo, Maria-Mercè, Tam, Paul K. H, Alves, Maria M, Brooks, Alice S, Hofstra, Robert M. W, Brosens, Erwin
Format: Artikel
Sprache:eng
Schlagworte:
Biology and Life Sciences
Coding
Congenital diseases
Copy number
Copy number variations
CRISPR
Cystic fibrosis
Danio rerio
Disease
Enteric nervous system
Epistasis
Etiology
Ganglia
Gene expression
Genetic aspects
Genomes
Haplotypes
Health aspects
Health risk assessment
Hirschsprung's disease
Intestine
Intestine, Small
Medicine and Health Sciences
Mutation
Nervous system
Nervous system, Autonomic
Neural coding
Patients
Research and Analysis Methods
Transcriptomes
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Zusammenfassung:Hirschsprung disease (HSCR) is a complex genetic disease characterized by absence of ganglia in the intestine. HSCR etiology can be explained by a unique combination of genetic alterations: rare coding variants, predisposing haplotypes and Copy Number Variation (CNV). Approximately 18% of patients have additional anatomical malformations or neurological symptoms (HSCR-AAM). Pinpointing the responsible culprits within a CNV is challenging as often many genes are affected. Therefore, we selected candidate genes based on gene enrichment strategies using mouse enteric nervous system transcriptomes and constraint metrics. Next, we used a zebrafish model to investigate whether loss of these genes affects enteric neuron development in vivo.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1009698