Severe epileptic encephalopathy associated with compound heterozygosity of THG1L variants in the Ashkenazi Jewish population.

THG1L-associated autosomal recessive ataxia belongs to a group of disorders that occur due to abnormal mitochondrial tRNA modification. The product of THG1L is the tRNA-histidine guanylyltransferase 1-like enzyme that catalyzes the 3'-5"addition of guanine to the 5"-end of tRNA-histidine in the mitochondrion. To date, five individuals with homozygosity for p.(Val55Ala) in THG1L have been reported and presented with mild delays or normal development and cerebellar dysfunction. We present seven individuals with biallelic variants in THG1L. Three individuals were compound heterozygous for the p.(Cys51Trp) and p.(Val55Ala) variants and presented with profound developmental delays, microcephaly, intractable epilepsy, and cerebellar hypoplasia. Four siblings were homozygous for the p.(Val55Ala) variant and presented with cerebellar ataxia with cerebellar vermis hypoplasia, dysarthria, mild developmental delays, and normal/near-normal cognition. All seven patients were of Ashkenazi Jewish descent. Carrier rates for the two variants were calculated in a cohort of 26,731 Ashkenazi Jewish individuals tested by the Dor Yeshorim screening program. The p.(Cys51Trp) variant is novel and was found in 40 of the Ashkenazi Jewish individuals tested, with a carrier rate of 1 in 668 (0.15%). The p.(Val55Ala) variant was found in 229 of the Ashkenazi Jewish individuals tested, with a carrier rate of 1 in 117 (0.85%). The individuals with compound heterozygosity of the p.(Val55Ala) and p.(Cys51Trp) variants expand the phenotypic spectrum of THG1L-related disorders to include severe epileptic encephalopathy. The individuals with homozygosity of the p.(V55A) variant further establish the associated mild and slowly progressive or nonprogressive neurodevelopmental phenotype.

Recommendation of premarital genetic screening in the Syrian Jewish community based on mutation carrier frequencies within Syrian Jewish cohorts.

BACKGROUND: There is a paucity of information available regarding the carrier frequency for autosomal recessive pathogenic variants among Syrian Jews. This report provides data to support carrier screening for a group of autosomal recessive conditions among Syrian Jews based on the population frequency of 40 different pathogenic variants in a cohort of over 3800 individuals with Syrian Jewish ancestry. METHODS: High throughput PCR amplicon sequencing was used to genotype 40 disease-causing variants in 3840 and 5279 individuals of Syrian and Iranian Jewish ancestry, respectively. These data were compared with Ashkenazi Jewish carrier frequencies for the same variants, based on roughly 370,000 Ashkenazi Jewish individuals in the Dor Yeshorim database. RESULTS: Carrier screening identified pathogenic variants shared among Syrian, Iranian, and Ashkenazi Jewish groups. In addition, alleles unique to each group were identified. Importantly, 8.2% of 3401 individuals of mixed Syrian Jewish ancestry were carriers for at least one pathogenic variant. CONCLUSION: The findings of this study support the clinical usefulness of premarital genetic screening for individuals with Syrian Jewish ancestry to reduce the incidence of autosomal recessive disease among persons with Syrian Jewish heritage.