Hemizygous loss-of-function variants of EIF1AX are associated with a syndromic neurodevelopmental disorder

Pathogenic variants of genes encoding initiation factors can cause neurological diseases, including neurodevelopmental disorders and brain abnormalities. The eukaryotic translation initiation factor 1A (eIF1A), is an X-linked ( EIF1AX ) gene located at Xp22.12 that plays an important role in the regulation of translation initiation. Here, we identified de novo hemizygous EIF1AX variants in male individuals with neurodevelopmental disorders and explored their possible involvement in these neurological disorders. We performed trio-based exome or whole genome sequencing in four families. The pathogenicity of EIF1AX variants was evaluated using a molecular dynamic simulation and transgenic Drosophila models. We identified four de novo hemizygous EIF1AX variants in four male individuals with variable neurodevelopmental delay, dysmorphic features, behavioral problems, ophthalmological abnormalities, and structural abnormalities in the brain. One variant was predicted to cause a splicing alteration, and minigene analysis confirmed exon skipping leading to the generation of a premature termination codon. In transgenic Drosophila harboring wild-type (WT) EIF1AX or the three other EIF1AX missense variants, overexpression of WT and the p.(Asn17Asp) variant caused structural abnormalities in the compound eye, whereas the p.(Lys64Glu) and p.(Asp90Gly) variants significantly reduced these eye abnormalities. In addition, WT overexpression resulted in significant axonal toxicity in the Drosophila optic nerve, causing a significant reduction in the number of axons, whereas all mutants showed only a mild reduction in axonal number. Our findings indicated that all variants resulted in different degrees of EIF1AX loss-of-function. Overall, the EIF1AX gene is a novel candidate gene for syndromic neurodevelopmental disorders in men.