Clinical report and genetic analysis of a Chinese patient with developmental and epileptic encephalopathy associated with novel biallelic variants in the ST3GAL3 gene.

Abstract

Defects in the Golgi enzyme beta-galactoside-alpha-2,3-sialyltransferase-III (ST3Gal-III) caused by biallelic ST3GAL3 gene variants are associated with human neurodevelopmental disorders. Although ST3GAL3 gene variants have been linked to developmental and/or epileptic encephalopathy 15 (DEE15), their presence has only been reported in nine patients; however, the real frequency may be masked by insufficient screening. Phenotypic information was collected from a male patient with severe psychomotor developmental delay and epileptic seizures, and genetic testing was done using whole exome sequencing. A molecular dynamics simulation analysis was performed to assess the potential impacts of the identified ST3GAL3 variants on the ST3Gal-III protein function, and a literature review was conducted to compare this case with previously described cases and assess disease manifestation and genetic characteristics. The patient inherited compound heterozygous ST3GAL3 gene variants, NM_006279.5:c.809G>A (p.Arg270Gln) and c.921dupG (p.Thr308fs*8). Neither variant had been previously reported in the general population. The p.Arg270Gln variant disrupted a hydrogen bond in the simulated ST3Gal-III protein structure. Among 25 patients with ST3GAL3 gene defects, eight ST3GAL3 gene variants were identified, and five variants had DEE signs. Patients with DEE15 may have novel ST3GAL3 gene variants, and this study may be the first clinical report of their occurrence in a Chinese patient. These variants should be considered when evaluating patients presenting with unexplained early-onset epileptic encephalopathy, severe developmental delay, and/or intellectual disability.