Abstract
Background The term hereditary spastic paraplegia comprises an ever-expanding array of neurological disorders with distinct aetiologies. Spastic paraplegia 39 is one of the many variants with additional features of other organs and neurological systems. We describe a large kindred with two hitherto undescribed mutations of PNPLA6 and a novel clinical phenotype as, in addition to spastic paraplegia, affected subjects suffered from a prominent cerebellar oculomotor dysfunction. Methods Three of five genetically tested family members of a large kindred were affected by spastic gait and cerebellar oculomotor dysfunction. Clinical, imaging, laboratory and electrophysiological data were analyzed. Genetic analysis was done using next-generation sequencing. Segregation analyses were performed by Sanger sequencing. To assess the pathogenicity of genetic variants on the encoded protein, in silico assessments were carried out. Results Two hitherto unknown sequence variants in the PNPLA6 gene, a splice-site variant c.1635+3G>T and a missense variant c.3401A>T, p.(Asp1134Val), were detected. Compound-heterozygous siblings presented with lower limb spasticity and a marked cerebellar oculomotor disorder accompanied by moderate hypogonadotropic hypogonadism in the female. A paternal uncle being homozygous for the splice-site variant of PNPLA6 presented with increased lower limb reflexes, an unstable gait and cerebellar oculomotor dysfunction. Treatment with 4-aminopyridin, a potassium channel blocker, lead to meaningful improvement of clinical symptoms. Conclusion PNPLA6 gene variants are associated with a broad phenotypic spectrum to which we add cerebellar oculomotor dysfunction. In our kindred, the full clinical manifestation only occurred in compound-heterozygous subjects indicating that biallelic pathogenic variants lead to more serious and earlier onset of symptoms. Our findings emphasize the role of PNPLA6 in different neurodegenerative disorders.
A case of de novo splice site variant inSLC35A2showing developmental delays, spastic paraplegia, and delayed myelination
