Autosomal recessive intellectual disability caused by compound heterozygous variants of the EEF1D gene in a Chinese family

Author:

Zhang Jiamei1ORCID,Liu Hongxing1,Wang Mingmei1,Xu Yiran12,Zhu Dengna1,Yang Fan3

Affiliation:

1. Henan Key Laboratory of Child Brain Injury and Henan Pediatric Clinical Research Center Third Affiliated Hospital and Institute of Neuroscience of Zhengzhou University Zhengzhou China

2. Commission Key Laboratory of Birth Defects Prevention Henan Key Laboratory of Population Defects Prevention Zhengzhou China

3. Cipher Gene LLC Beijing China

Abstract

AbstractBackgroundIntellectual disability is a prevalent neurodevelopmental disorder, with the majority of affected children exhibiting global developmental delay before the age of 5 years. In recent years, certain children have been found to carry homozygous variations of the EEF1D gene, leading to autosomal recessive intellectual disability. However, the pathogenicity of compound heterozygous variations in this gene remains largely unknown.MethodsTrio whole‐exome sequencing and copy number variation sequencing were done for the genetic etiological diagnosis of a 3‐year and 11‐month‐old Chinese boy who presented with brachycephaly, severe to profound global developmental delay, and hypotonia in the lower limbs.ResultsIn this case, compound heterozygous variants of the EEF1D gene were found in the child through trio whole‐exome sequencing; one was a splice variant (NM_032378.6:c.1905+1G>A) inherited from his father, and the other was a nonsense variant (NM_032378.6:c.676C>T) inherited from his mother. The nonsense variant leads to the production of a premature termination (p.Gln226*). These variations have the ability to explain the clinical phenotypes of the child.ConclusionsOur study expands the variation spectrum and provides compelling evidence for EEF1D as a candidate gene for autosomal recessive intellectual disability. However, due to the deficient number of reported cases, researchers need to further study EEF1D and supplement the clinical phenotypes and treatment measures.

Publisher

Wiley

Subject

Genetics (clinical),Genetics,Molecular Biology

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