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Paired-like homeobox gene (PHOX2B) nonpolyalanine repeat expansion mutations (NPARMs): genotype–phenotype correlation in congenital central hypoventilation syndrome (CCHS)
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Paired-like homeobox gene (PHOX2B) nonpolyalanine repeat expansion mutations (NPARMs): genotype–phenotype correlation in congenital central hypoventilation syndrome (CCHS)
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Paired-like homeobox gene (PHOX2B) nonpolyalanine repeat expansion mutations (NPARMs): genotype–phenotype correlation in congenital central hypoventilation syndrome (CCHS)
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Journal Article
Paired-like homeobox gene (PHOX2B) nonpolyalanine repeat expansion mutations (NPARMs): genotype–phenotype correlation in congenital central hypoventilation syndrome (CCHS)
2021
Overview
Purpose
CCHS is an extremely rare congenital disorder requiring artificial ventilation as life support. Typically caused by heterozygous polyalanine repeat expansion mutations (PARMs) in the
PHOX2B
gene, identification of a relationship between PARM length and phenotype severity has enabled anticipatory management. However, for patients with non-PARMs in
PHOX2B
(NPARMs, ~10% of CCHS patients), a genotype–phenotype correlation has not been established. This comprehensive report of
PHOX2B
NPARMs and associated phenotypes, aims at elucidating potential genotype–phenotype correlations that will guide anticipatory management.
Methods
An international collaboration (clinical, commercial, and research laboratories) was established to collect/share information on novel and previously published
PHOX2B
NPARM cases. Variants were categorized by type and gene location. Categorical data were analyzed with chi-square and Fisher’s exact test; further pairwise comparisons were made on significant results.
Results
Three hundred two individuals with
PHOX2B
NPARMs were identified, including 139 previously unreported cases. Findings demonstrate significant associations between key phenotypic manifestations of CCHS and variant type, location, and predicted effect on protein function.
Conclusion
This study presents the largest cohort of
PHOX2B
NPARMs and associated phenotype data to date, enabling genotype–phenotype studies that will advance personalized, anticipatory management and help elucidate pathological mechanisms. Further characterization of
PHOX2B
NPARMs demands longitudinal clinical follow-up through international registries.
Publisher
Nature Publishing Group US,Elsevier Limited
Subject
