A novel SLC9A1 mutation causes cerebellar ataxia.

The mammalian Na+/H+ exchanger isoform one (NHE1), encoded by Solute Carrier Family 9, member 1 (SLC9A1), consists of 12 membrane domains and a cytosolic C-terminal domain. NHE1 plays an important role in maintaining intracellular pH homeostasis by exchanging one intracellular proton for one extracellular sodium ion. Mice with a homozygous null mutation in Slc9a1 (Nhe1) exhibited ataxia, recurrent seizures, and selective neuronal cell death. In humans, three unrelated patients have been reported: a patient with a homozygous missense mutation in SLC9A1, c.913G>A (p.Gly305Arg), which caused Lichtenstein-Knorr syndrome characterized by cerebellar ataxia and sensorineural hearing loss, a patient with compound heterozygous mutations, c.1351A>C (p.Ile451Leu) and c.1585C>T (p.His529Tyr), which caused a neuromuscular disorder, and a patient with de novo mutation, c.796A>C (p.Asn266His) which associated multiple anomalies. In this study, using whole exome sequencing, we identified a novel homozygous SLC9A1 truncating mutation, c.862del (p.Ile288Serfs*9), in two affected siblings. The patients showed cerebellar ataxia but neither of them showed sensorineural hearing loss nor a neuromuscular phenotype. The main clinical feature was similar to Lichtenstein-Knorr syndrome but deafness may not be an essential phenotypic feature of SLC9A1 mutation. Our report expands the knowledge of clinical features of SLC9A1 mutations.