Clinical and Genetic Features of Biallelic Mutations in SORD in a Series of Chinese Patients With Charcot-Marie-Tooth and Distal Hereditary Motor Neuropathy

Biallelic mutations in the sorbitol dehydrogenase (SORD) gene have recently been found to be one of the most frequent causes of autosomal recessive axonal Charcot-Marie-Tooth (CMT2) and distal hereditary motor neuropathy (dHMN). This study was performed to explore the frequency of SORD mutations and correlations of the phenotypic-genetic spectrum in a relatively large Chinese cohort. In this study, we screened a cohort of 485 unrelated Chinese patients with hereditary neuropathy by using Sanger sequencing, next generation sequencing, or whole exome sequencing after PMP22 duplication was initially excluded. SORD mutation was identified in five out of 78 undiagnosed patients. Two individuals carried the previously reported homozygous c.757 delG (p.A253Qfs*27) variant, and three individuals carried the heterozygous c.757delG (p.A253Qfs*27) variant together with a second novel likely pathogenic variant, including c.731 C>T (p.P244L), c.776 C>T (p.A259V), or c.851T>C (p.L284P). The frequency of SORD variants was calculated to be 6.4% (5/78) in unclarified CMT2 and dHMN patients. All patients presented with distal weakness and atrophy in the lower limb, two of whom had minor clinical sensory abnormalities and small fiber neuropathy. Our study provides further information on the genotype and phenotype of patients with SORD mutations.

Altered action potential waveform and shorter axonal initial segment in hiPSC-derived motor neurons with mutations in VRK1

We recently described new pathogenic variants in VRK1, in patients affected with distal Hereditary Motor Neuropathy associated with upper motor neurons signs. Specifically, we provided evidences that hiPSC-derived Motor Neurons (hiPSC-MN) from these patients display Cajal bodies (CBs) disassembly and defects in neurite outgrowth and branching. We here focused on the Axonal Initial Segment (AIS) and the related firing properties of hiPSC-MNs from these patients. We found that the patients Action Potential (AP) was smaller in amplitude, larger in duration, and displayed a more depolarized threshold while the firing patterns were not altered. These alterations were accompanied by a decrease in the AIS length measured in patients hiPSC-MNs. These data indicate that mutations in VRK1 impact the AP waveform and the AIS organization in MNs and may ultimately lead to the related motor neuron disease.

DEFINING THE DIVERSITY OF HNRNPA1 MUTATIONS IN CLINICAL PHENOTYPE AND PATHOMECHANISM

ABSTRACTMutations in HNRNPA1 encoding heterogeneous nuclear ribonucleoprotein (hnRNP) A1 are a rare cause of amyotrophic lateral sclerosis (ALS) and multisystem proteinopathy (MSP). hnRNPA1 is part of the group of RNA-binding proteins (RBPs) that assemble with RNA to form ribonucleoproteins. hnRNPs are a major subclass of evolutionarily conserved RBPs that are primarily concentrated in the nucleus and are heavily involved in pre-mRNA splicing, mRNA stability and transcriptional/translational regulation. During times of stress, standard translational programming is interrupted, and hnRNPs, mRNA, and other RBPs condense in the cytoplasm, forming liquid-liquid phase separated (LLPS) membraneless organelles termed stress granules (SGs). SGs are central to the pathogenesis of (neuro-)degenerative diseases, including ALS and inclusion body myopathy (IBM). hnRNPs and other RBPs are critical components of SGs. Indeed, the link between SGs, hnRNPs, and neurodegenerative diseases has been established by the identification of additional mutations in RBPs that affect SG biology, including FUS, TDP-43, hnRNPA1, hnRNPA2B1, and TIA1, each of which can directly lead to ALS, IBM and other related neurodegenerative diseases. Here, we report and characterize four novel HNRNPA1 mutations and two known HNRNPA1 mutations, previously reported as being causal for ALS, in a broad spectrum of patients with hereditary motor neuropathy (HMN), ALS, and myopathy. Our results show the different effects of mutations on hnRNPA1 fibrillization, liquid-liquid phase separation, and SG dynamics, indicating the possibility of different underlying pathomechanisms for HNRNPA1 mutations with a possible link to the clinical phenotypes.

A rare cause of adult-onset bilateral vocal cord paralysis

A 72-year-old man initially presented to the ENT outpatient department after 20 years with increasing intermittent episodes of dyspnoea and stridor. Flexible nasendoscopy revealed bilateral vocal cord paralysis with the cords in a medial position. He subsequently underwent urgent tracheostomy. He has six similarly affected family members across three generations all requiring tracheostomy to maintain an adequate airway. Follow-up and genetic testing have revealed mutation of the dynactin 1 gene leading to distal hereditary motor neuropathy type 7b. This is a rare occurrence causing this condition to be reported in only three families previously throughout the world.

Biallelic SORD pathogenic variants cause Chinese patients with distal hereditary motor neuropathy

Sorbitol dehydrogenase gene (SORD) has been identified as a novel causative gene of recessive forms of hereditary neuropathy, including Charcot–Marie–Tooth disease type 2 and distal hereditary motor neuropathy (dHMN). Our findings reveal two novel variants (c.404 A > G and c.908 + 1 G > C) and one known variant (c.757delG) within SORD in four Chinese dHMN families. Ex vivo cDNA polymerase chain reaction confirmed that c.908 + 1 G > C variant was associated with impaired splicing of the SORD transcript. In vitro cell functional studies showed that c.404 A > G variant resulted in aggregate formation of SORD and low protein solubility, confirming the pathogenicity of SORD variants. We have provided more evidence to establish SORD as a causative gene for dHMN.

Genetic and Clinical Features in 24 Chinese Distal Hereditary Motor Neuropathy Families

Background and Objectives: Distal hereditary motor neuropathy (dHMN) is a clinically and genetically heterogeneous group of inherited neuropathies. The objectives of this study were to report the clinical and genetic features of dHMN patients in a Chinese cohort.Aims and Methods: We performed clinical assessments and whole-exome sequencing in 24 dHMN families from Mainland China. We conducted a retrospective analysis of the data and investigated the frequency and clinical features of patients with a confirmed mutation.Results: Two novel heterozygous mutations in GARS, c.373G>C (p.E125Q) and c.1015G>A (p.G339R), were identified and corresponded to the typical dHMN-V phenotype. Together with families with WARS, SORD, SIGMAR1, and HSPB1 mutations, 29.2% of families (7/24) acquired a definite genetic diagnosis. One novel heterozygous variant of uncertain significance, c.1834G>A (p.G612S) in LRSAM1, was identified in a patient with mild dHMN phenotype.Conclusion: Our study expanded the mutation spectrum of GARS mutations and added evidence that GARS mutations are associated with both axonal Charcot-Marie-Tooth and dHMN phenotypes. Mutations in genes encoding aminoamide tRNA synthetase (ARS) might be a frequent cause of autosomal dominant-dHMN, and SORD mutation might account for a majority of autosomal recessive-dHMN cases. The relatively low genetic diagnosis yield indicated more causative dHMN genes need to be discovered.