A novel de novo CLTC variant altering RNA splicing causes fetal developmental abnormalities

Abstract

BackgroundAbout 31 individuals with CLTC variants have been reported worldwide, and all reported individuals have motor and mental retardation. CLTC is known to lead to intellectual developmental disorder, autosomal dominant 56. Few studies are focusing on the prenatal stage of the disease.MethodAn ultrasound examination was performed to obtain the prenatal phenotype. Whole-exome sequencing was used to find the pathogenic variant. Multiple computational tools predicted the conservation and deleteriousness. Minigene assay and western blot were utilized to investigate the effect on splicing of mRNA and protein expression.ResultHere we found a novel de novo variant of CLTC in a fetus. The fetus manifested bilateral choroid plexus cysts of the brain, hyperechogenic kidneys, and ventricular septal defect. A heterozygous variant c.3249 + 1G > C was identified in the fetus. This position was conserved and the variant was predicted to be deleterious. Minigene assay revealed the presence of a truncating transcript with the retention of intron 20. Western blot result showed the c.3249 + 1G > C variant elicited degradation of the protein.ConclusionTo the best of our knowledge, our study identified a novel de novo variant of CLTC and provided the earliest clinical characteristic of the CLTC variant at the prenatal stage. The functional experiment suggested the variant caused the altering of the RNA splicing and the protein expression. We extended the mutational spectrum of CLTC and provided guidance on genetic counseling.