1. Exome sequencing identifies mutations in ABCD1 and DACH2in two brothers with a distinct phenotype
- Author
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Junwang Wang, Yan-hui Liu, Yong Duan, Yong Dai, Ya Li, Yanliang Zhang, and Keyun Zhang
- Subjects
Exome sequencing ,Male ,congenital, hereditary, and neonatal diseases and abnormalities ,Distinct phenotype ,Mutation, Missense ,Biology ,medicine.disease_cause ,ATP Binding Cassette Transporter, Subfamily D, Member 1 ,Congenital Abnormalities ,Exon ,symbols.namesake ,medicine ,Genetics ,Humans ,Missense mutation ,Exome ,Genetics(clinical) ,Adrenoleukodystrophy ,Child ,Genetics (clinical) ,Sanger sequencing ,Mutation ,Siblings ,ABCD1 ,Nuclear Proteins ,Sequence Analysis, DNA ,medicine.disease ,DACH2 ,Phenotype ,Pedigree ,DNA-Binding Proteins ,Child, Preschool ,symbols ,ATP-Binding Cassette Transporters ,Research Article ,Transcription Factors - Abstract
Background We report on two brothers with a distinct syndromic phenotype and explore the potential pathogenic cause. Methods Cytogenetic tests and exome sequencing were performed on the two brothers and their parents. Variants detected by exome sequencing were validated by Sanger sequencing. Results The main phenotype of the two brothers included congenital language disorder, growth retardation, intellectual disability, difficulty in standing and walking, and urinary and fecal incontinence. To the best of our knowledge, no similar phenotype has been reported previously. No abnormalities were detected by G-banding chromosome analysis or array comparative genomic hybridization. However, exome sequencing revealed novel mutations in the ATP-binding cassette, sub-family D member 1 (ABCD1) and Dachshund homolog 2 (DACH2) genes in both brothers. The ABCD1 mutation was a missense mutation c.1126G > C in exon 3 leading to a p.E376Q substitution. The DACH2 mutation was also a missense mutation c.1069A > T in exon 6, leading to a p.S357C substitution. The mother was an asymptomatic heterozygous carrier. Plasma levels of very-long-chain fatty acids were increased in both brothers, suggesting a diagnosis of adrenoleukodystrophy (ALD); however, their phenotype was not compatible with any reported forms of ALD. DACH2 plays an important role in the regulation of brain and limb development, suggesting that this mutation may be involved in the phenotype of the two brothers. Conclusion The distinct phenotype demonstrated by these two brothers might represent a new form of ALD or a new syndrome. The combination of mutations in ABCD1 and DACH2 provides a plausible mechanism for this phenotype.
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