Biallelic INTS1 Mutations Cause a Rare Neurodevelopmental Disorder in Two Chinese Siblings.

Xuemin Zhang, Yajian Wang, Fang Yang, Jiulai Tang, Xiaoyan Xu, Li Yang, Xiu-An Yang, De Wu

Journal of molecular neuroscience : MN 2020 Jan

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This study presents two Chinese siblings with a rare neurodevelopmental disorder (NDD) caused by biallelic INTS1 mutations and investigates the clinical features of this disease by means of in silico analysis. Two siblings, an 11-year-old brother and a 5-year-old sister, visited our hospital due to physical retardation and profound intellectual disability. Whole-exome sequencing (WES) was performed for the girl, and Sanger sequencing was used to validate the identified variants. Phenotype correlation analysis and in silico genetic interaction network analysis were performed to investigate genes that could lead to diseases similar to the rare disease in the patients. Growth retardation, distinct intellectual disability, hypertelorism, mild cataract, uneven teeth, abnormal palmar and plantar creases, and dubious genitalia were noted in the sister. No neurological features related to neuropathy were found. The brother showed features and growth delay similar to his sister. Heterozygous novel variants of c.1645A>G,p.Met549Val and c.5881C>T,p.Gln1961* in INTS1 were considered a candidate etiology. Sanger sequencing demonstrated that the variants were inherited from the grandfather and (maternal) grandmother. Phenotype correlation analysis revealed that CTDP1 mutation-induced congenital cataracts-facial dysmorphism-neuropathy (CCFDN) mostly overlapped with the performance of our patients. In silico analysis of the genetic interaction network showed that INTS1 is highly associated with INTS8 and CTDP1. Our study further validated that biallelic INTS1 mutations could bring about the onset of a novel neurodevelopmental disorder.

Citation

Xuemin Zhang, Yajian Wang, Fang Yang, Jiulai Tang, Xiaoyan Xu, Li Yang, Xiu-An Yang, De Wu. Biallelic INTS1 Mutations Cause a Rare Neurodevelopmental Disorder in Two Chinese Siblings. Journal of molecular neuroscience : MN. 2020 Jan;70(1):1-8