SURF1 Deficiency: Expanding on Disease Phenotype and Assessing Disease Burden by Describing Clinical and Biochemical Phenotype

Am J Med Genet A. 2024 Dec 5:e63947. doi: 10.1002/ajmg.a.63947. Online ahead of print.

Abstract

Leigh syndrome, a severe neurological disorder is commonly caused by homozygous or bi-allelic pathogenic variants in the SURF1 gene. SURF1 deficiency leads to dysfunction of Cytochrome C Oxidase (COX) activity, which is crucial for mitochondrial oxidative phosphorylation. Understanding COX activity's correlation with disease severity is essential for developing SURF1 Leigh Syndrome biomarkers. This study assesses the disease burden in SURF1 Leigh Syndrome and evaluates COX activity as a treatment biomarker. We reviewed records and questionnaires from 17 individuals, classifying them into phenotypic and genotypic groups. We compared COX activity assays in patient fibroblasts to age-matched controls, clinical data, and neuroimaging findings. Patient COX activity was at most 50% of controls, averaging 32% (p < 0.001). Common clinical features included brainstem abnormalities (93.3%), motor regression (92.3%), bi-allelic heterozygous SURF1 variants (88.2%), and delayed growth/development (35.7%). Homozygous and heterozygous nonsense/frameshift variants showed more severe phenotypes (p = 0.008) and more MRI abnormalities (p = 0.005). Significant COX activity reduction is linked to SURF1 Leigh Syndrome, with genotype influencing disease severity. Clinical and neuroimaging correlations show potential for prognostic indicators. This study lays the groundwork for future research and clinical application of COX activity as a SURF1 Leigh Syndrome biomarker.

Keywords: Leigh syndrome; SURF1 gene; biomarkers; cytochrome C oxidase; mitochondrial disorders; neuroimaging.