1.
A novel de novo heterozygous pathogenic variant in the SDHA gene results in childhood onset bilateral optic atrophy and cognitive impairment.
Zehavi, Y, Saada, A, Jabaly-Habib, H, Dessau, M, Shaag, A, Elpeleg, O, Spiegel, R
Metabolic brain disease. 2021;(4):581-588
Abstract
Isolated defects in the mitochondrial respiratory chain complex II (CII; succinate-ubiquinone oxidoreductase) are extremely rare and mainly result from bi-allelic mutations in one of the nuclear encoded subunits: SDHA, SDHB and SDHD, which comprise CII and the assembly CII factor SDHAF1. We report an adolescent female who presented with global developmental delay, intellectual disability and childhood onset progressive bilateral optic atrophy. Whole exome sequencing of the patient and her unaffected parents identified the novel heterozygous de novo variant c.1984C > T [NM_004168.4] in the SDHA gene. Biochemical assessment of CII in the patient's derived fibroblasts and lymphocytes displayed considerably decreased CII residual activity compared with normal controls, when normalized to the integral mitochondrial enzyme citrate synthase. Protein modeling of the consequent p.Arg662Cys variant [NP-004159.2] suggested that this substitution will compromise the structural integrity of the FAD-binding protein at the C-terminus that will ultimately impair the FAD binding to SDHA, thus decreasing the entire CII activity. Our study emphasizes the role of certain heterozygous SDHA mutations in a distinct clinical phenotype dominated by optic atrophy and neurological impairment. This is the second mutation that has been reported to cause this phenotype. Furthermore, it adds developmental delay and cognitive disability to the expanding spectrum of the disorder. We propose to add SDHA to next generation sequencing gene panels of optic atrophy.
2.
Clonazepam improves the symptoms of two siblings with novel variants in the SYNJ1 gene.
Hong, D, Cong, L, Zhong, S, He, Y, Xin, L, Gao, X, Zhang, J
Parkinsonism & related disorders. 2019;:221-225
Abstract
BACKGROUND Mutations in the SYNJ1 gene have been associated with early-onset of atypical Parkinson's disease or severe neurodegeneration with intractable seizures. Due to the rarity of the disease, there were limitations in the quality of available treatment options for SYNJ1-related diseases. METHODS Two affected siblings from a non-consanguineous family were evaluated through a set of clinical and laboratory tests. The genetic screening was performed through exome next generation sequencing. SYNJ1 mutant transcripts were purified and cloned into the vectors for Sanger sequence of single-stranded DNA. Relative level of the SYNJ1 transcript was measured by quantitative PCR. RESULTS The clinical features were characterized by a triad of symptomatic progression including diplopia, dystonia, and Parkinsonism. The dystonic symptoms were outstanding in the siblings, which preceded the Parkinsonism symptoms and became the main symptoms. Clonazepam resolved the clinical symptoms, especially the severe trunk dystonia and dystonic postures of limbs. Compound heterozygous variants (c.2579-2A > G; p.A860Gfs*5 and c.3845C > A; p.P1282L) were identified in the SYNJ1 gene co-segregating in this family. The proline residue is highly conserved across species and predicted to be damaging by several in silico tools. The splice site variant caused a skip of exon 20 and a significant reduction of the SYNJ1 transcript expression. CONCLUSIONS Our study expanded the clinical and genetic spectrums of the SYNJ1-related diseases. Although our study was a preliminary observation, it indicated that clonazepam could improve the dystonic symptoms caused by mutations in the SYNJ1 gene.