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Genetic contribution of retinoid-related genes to neural tube defects.


ABSTRACT: Rare variants are considered underlying causes of complex diseases. The complex and severe group of disorders called neural tube defects (NTDs) results from failure of the neural tube to close during early embryogenesis. Neural tube closure requires the coordination of numerous signaling pathways, including the precise regulation of retinoic acid (RA) concentration, which is controlled by enzymes involved in RA synthesis and degradation. Here, we used a case-control mutation screen study to reveal rare variants in retinoid-related genes in a Han Chinese NTD population by sequencing six genes in 355 NTD cases and 225 controls. More specific rare variants were found in exonic and upstream regions in NTD cases. The RA-responsive genes CYP26A1, CRABP1, and ALDH1A2 harbored NTD-specific rare variants in their upstream regions. Unexpectedly, the majority of missense variants in NTD cases were found in CYP26B1, which encodes a RA degradation enzyme, whereas no missense variants in this gene were found in controls. Functional analysis indicated that the CYP26B1 NTD variants were inefficient in the degradation of RA using assays of RA-induced transcription and RA-initiated neuronal differentiation. Our study supports the contribution of rare variants in RA-related genes to the etiology of human NTDs.

SUBMITTER: Li H 

PROVIDER: S-EPMC5839987 | biostudies-literature | 2018 Apr

REPOSITORIES: biostudies-literature

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Genetic contribution of retinoid-related genes to neural tube defects.

Li Huili H   Zhang Jing J   Chen Shuyuan S   Wang Fang F   Zhang Ting T   Niswander Lee L  

Human mutation 20180119 4


Rare variants are considered underlying causes of complex diseases. The complex and severe group of disorders called neural tube defects (NTDs) results from failure of the neural tube to close during early embryogenesis. Neural tube closure requires the coordination of numerous signaling pathways, including the precise regulation of retinoic acid (RA) concentration, which is controlled by enzymes involved in RA synthesis and degradation. Here, we used a case-control mutation screen study to reve  ...[more]

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