Axonal Charcot-Marie-Tooth neuropathy concurrent with distal and proximal weakness by translational elongation of the 3' UTR in NEFH.

Mutations in the NEFH gene encoding the heavy neurofilament protein are usually associated with neuronal damage and susceptibility to amyotrophic lateral sclerosis (ALS). Recently, frameshift variants in NEFH (p.Asp1004Glnfs*58 and p.Pro1008Alafs*56) have been reported to be the underlying cause of axonal Charcot-Marie-Tooth disease type 2CC (CMT2CC). The frameshift mutation resulted in a stop loss and translation of a cryptic amyloidogenic element (CAE) encoded by the 3' untranslated region (UTR). This study also identified a de novo c.3015_3027dup frameshift mutation predicting p.Lys1010Glnfs*57 in NEFH from a CMT2 family with an atypical clinical symptom of prominent proximal weakness. This mutation is located near the previously reported frameshift mutations, suggesting a mutational hotspot. Lower limb magnetic resonance imaging (MRI) revealed marked hyperintense signal changes in the thigh muscles compared with those in the calf muscles. Therefore, this study suggests that the stop loss and translational elongations by the 3' UTR of the NEFH mutations may be a relatively frequent genetic cause of axonal peripheral neuropathy with the specific characteristics of proximal dominant weakness.

Wide phenotypic spectrum in axonal Charcot-Marie-Tooth neuropathy type 2 patients with KIF5A mutations.

The kinesin heavy chain isoform 5A (KIF5A) gene, which encodes a microtubule-based motor protein, plays an important role in the transport of organelles in the nerve cells. Mutations in the KIF5A showed a wide phenotypic spectrum from hereditary spastic paraplegia (HSP) to axonal Charcot-Marie-Tooth peripheral neuropathy type 2 (CMT2). This study identified three pathogenic KIF5A mutations in Korean CMT2 patients by whole exome sequencing. Two mutations (p.Arg204Trp and p.Arg280His) were previously reported, but p.Leu558Pro was determined to be a novel de novo mutation. All the mutations were not observed in the healthy controls and were located in highly conserved domains among vertebrate species. The p.Arg204Trp mutation was identified from a CMT2 patient with additional complex phenotypes of HSP, ataxia, fatigability and pyramidal sign, but the p.Arg280His and p.Leu588Pro mutations were identified in each axonal CMT2 patient. The p.Arg204Trp mutation was previously reported in a HSP patient with no CMT symptom. The p.Arg280His mutation was reported in a CMT2 patient, which was similarly with our case. However, it was also once reported in a HSP patient with pes cavus. As the first report in Korea, this study identified three KIF5A mutations as the underlying cause of axonal peripheral neuropathy with or without the HSP phenotype. We confirmed a wide inter- and intra-allelic phenotypic spectrum by the mutations in the KIF5A.