New subtype of PCH1C caused by novel EXOSC8 variants in a 16-year-old Spanish patient.

We report the case of a 16-year-old Spanish boy with cerebellar and spinal muscular atrophy, spasticity, psychomotor retardation, nystagmus, ophthalmoparesis, epilepsy, and mitochondrial respiratory chain (MRC) deficiency. Whole exome sequencing (WES) uncovered three variants (two of them novel) in a compound heterozygous in EXOSC8 gene (NM_181503.3:c.[390+1delG];[628C>T;815G>C]) that encodes the exosome complex component RRP43 protein (EXOSC8). In order to assess the pathogenicity of these variants, expression experiments of RNA and protein for EXOSC8 were carried out. The c.[390+1delG] variant produces the elimination of exon 7 (r.[345_390del]; p.[Ser116LysfsTer27]) and a decrease of the RNA expression in relation to the other allele (p.[Pro210Ser;Ser272Thr]). Furthermore, total mRNA expression is reduced by 30% and the protein level by 65%. EXOSC8 is an essential protein of the exosome core, a ubiquitously expressed complex responsible for RNA processing and degradation. Recessive mutations in EXOSC8 cause pontocerebellar hypoplasia type 1C (PCH1C), and currently, only two homozygous variants in this gene have been described. However, unlike PCH1C-affected individuals with EXOSC8 variants, our patient presents a normal supratentorial cerebral tissue (neither corpus callosum hypoplasia nor hypomyelination) with a less severe phenotype and longer survival. In conclusion, our data expand both genetic and phenotypic spectrum associated with EXOSC8 variants.