Phenotypic variation of a novel nonsense mutation in the P0 intracellular domain.

Mutations in the gene for the peripheral myelin protein zero (P0, MPZ) cause type 1B of Charcot-Marie-Tooth sensorimotor neuropathy (CMT1B). Here we report a German family with a novel heterozygous P0 nonsense mutation (G206X) that supposedly removes four-fifths of the amino acid residues constituting the P0 intracellular domain. The 12-year-old propositus had childhood-onset CMT1B associated with bilateral pes cavus, moderate lower limb weakness, and mildly reduced sensory qualities in the distal legs. The electrophysiology was consistent with a demyelinating neuropathy. He inherited the mutation from his mother who had no complaints but slight pes cavus deformity and slow nerve conduction velocities (NCV). Conclusively, truncating mutations within the P0 intracellular domain do not necessarily cause a severe phenotype such as Dejerine-Sottas syndrome (DSS) or congenital hypomyelinating neuropathy (CHN), but can result in mild or moderate CMT1B with intrafamilial clinical variability.     

Recessive inheritance of a new point mutation of the PMP22 gene in Dejerine-Sottas disease

The existence of recessive transmission of Dejerine-Sottas disease, a severe demyelinating neuropathy of childhood, has been questioned, because only heterozygous mutations of the myelin proteins P0 or PMP22 genes have been identified in virtually all patients with this phenotype. We report on a family with 3 affected children with this phenotype, born to clinically and electrophysiologically unaffected parents. All 3 children carried a previously unknown homozygous missense point mutation (Arg157Trp) of the PMP22 gene. The parents were heterozygous for the same mutation. These findings demonstrate the occurrence of recessive transmission in this setting.     

Novel EGR2 mutation R359Q is associated with CMT type 1 and progressive scoliosis

Mutations in the early growth response 2 gene (EGR2) cause demyelinating neuropathies differing in severity and age of onset. We tested 46 unrelated Czech patients with dominant or sporadic demyelinating CMT neuropathy for mutations in the EGR2 gene. One novel de-novo mutation (Arg359Gln, R359Q) was identified in heterozygous state in a patient with a typical CMT1 phenotype, progressive moderate thoracolumbar scoliosis and without clinical signs of cranial nerve dysfunction. This patient is presently less affected compared to previously described Dejerine-Sottas neuropathy (DSN) patients carrying another substitution at codon 359 (Arg359Trp, R359W). This report shows that EGR2 mutations are rare in Czech patients with demyelinating type of CMT and suggests that different substitutions at codon 359 of EGR2 can cause significantly different phenotypes.     

A new MPZ mutation associated with a mild CMT1 phenotype presenting with recurrent nerve compression

P0 is a transmembrane protein of the immunoglobulin superfamily that plays a role in myelin structure and function. Myelin protein zero gene (MPZ) mutations usually cause a demyelinating variant of Charcot-Marie-Tooth disease type 1B (CMT1B), but there is a wide spectrum of phenotypic manifestation of these mutations. We describe three patients from one family and one separate patient who presented with a demyelinating neuropathy. Some had recurrent lesions at compression sites mimicking hereditary neuropathy with liability to pressure palsies (HNPP). A heterozygous nonsense mutation (Tyr145Stop) corresponding to a T-to-A transition at nucleotide position 435 in exon 3 of the MPZ gene was identified in all patients. This mutation leads to an extracellular truncated protein, which may explain the mild phenotype. Therefore, such MPZ gene mutations should be searched for in cases of demyelinating neuropathy with acute nerve compression as well as in cases of the HNPP phenotype associated with normal the PMP22 gene.     

The phenotype of Charcot–Marie–Tooth disease type 4C due to SH3TC2 mutations and possible predisposition to an inflammatory neuropathy

Charcot–Marie–Tooth (CMT) disease is a heterogeneous group of inherited peripheral motor and sensory neuropathies. The locus responsible for CMT4C was previously assigned to the chromosome 5q23 region by homozygosity mapping and mutations in the SH3TC2 (KIAA1985) gene have been subsequently identified mainly in families around the Mediterranean basin but also frequently in European Gypsies. No English families have been reported to date. To determine the frequency, phenotype and neuropathology of CMT due to SH3TC2 mutations we screened 23 English autosomal recessive (AR) demyelinating CMT families. Five families with AR demyelinating CMT and SH3TC2 mutations were identified, four families were homozygous for the R954X mutation and the fifth family was compound heterozygous for the R954X and E657K mutations. There was significant clinical variation between these families with some cases presenting with a severe childhood onset neuropathy with respiratory and cranial nerve involvement, compared to other families with mild scoliosis and foot deformity. Characteristic sural nerve neuropathology was seen in three families with frequent demyelinating fibres surrounded by excess Schwann cell lamellae forming basal lamina onion bulbs and abnormally long and attenuated Schwann cell processes. One patient homozygous for the R954X mutation had a 20-year history of an inflammatory neuropathy that was superimposed onto the hereditary form, indicating that structural alterations to the SH3TC2 gene could possibly predispose to peripheral nerve inflammation.     

A novel EGR2 mutation within a family with a mild demyelinating form of Charcot-Marie-Tooth disease

Mutations of the early growth response 2 (EGR2) gene have been reported in a variety of severe demyelinating neuropathies such as autosomal recessive congenital hypomyelinating neuropathy, autosomal dominant child-onset Dejerine-Sottas neuropathy, and autosomal dominant adult-onset Charcot-Marie-Tooth disease (CMT). Here, we report on a heterozygous mutation in EGR2 (c.1160C>A), which results in threonine at position 387 being changed to asparagine, in a family with a mild demyelinating form of adult-onset CMT. Of note, both the proband and her asymptomatic son exhibited neither pes cavus nor champagne-bottle leg atrophy, suggesting that the heterozygous T387N mutation may result in a relatively mild phenotype of demyelinating CMT.     

Charcot-Marie-Tooth Neuropathy Type 2 And P0 Point Mutations: Two Novel Amino Acid Substitutions (ASP61GLY, TYR119CYS) and a Possible "Hotspot" on THR124MET

Mutations in the gene for the major protein component of peripheral nerve myelin, myelin protein zero (MPZ, PO), cause hereditary disorders of Schwann cell myelin such as Charcot-Marie-Tooth neuropathy type 1B (CMT1B), Dejerine-Sottas syndrome (DSS), and congenital hypomyelinating neuropathy (CHN). More recently, PO mutations were identified in the axonal type of CMT neuropathy, CMT2, which is different from the demyelinating variants with respect to electroneurography and nerve pathology. We screened 49 patients with a clinical and histopathological diagnosis of CMT2 for mutations in the PO gene. Three heterozygous single nucleotide changes were detected: two novel missense mutations, Asp61Gly and Tyr119Cys, and the known Thr124Met substitution, that has already been reported in several CMT patients from different European countries. Haplotype analysis for the PO locus proved that our patients with the 124Met allele were not related to a cohort of patients with the same mutation, all of Belgian descent and all found to share a common ancestor (7). Our data suggest that PO mutations account for a detectable proportion of CMT2 cases with virtually every patient harbouring a different mutation but recurrence of the Thr124Met amino acid substitution. The high frequency of this peculiar genotype in the European CMT population is presumably not only due to a founder effect but Thr124Met might constitute a mutation hotspot in the PO gene as well.     

A novel autosomal dominant GDAP1 mutation in an Italian CMT2 family

We report the clinical, electrophysiological, and skin biopsy findings of an Italian Charcot-Marie-Tooth disease type 2 (CMT2) family with a novel heterozygous GDAP1 mutation. We observed a marked intra-familial phenotypic variability, in age at onset and disease severity which ranged from a typical CMT phenotype to an asymptomatic status. Electrophysiological study, consistent with an axonal sensory-motor neuropathy, confirmed a different degree of severity and disclosed minimal electrophysiological abnormalities also in the asymptomatic subjects. Skin biopsy findings showed a variable loss of large and small somatic nerve fibers. Molecular analysis identified a novel heterozygous missense mutation (Arg120Gly) in the GDAP1 gene which co-segregated with the disease within the pedigree. In conclusion, our findings confirm that the GDAP1 autosomal dominant mutations underlie a pronounced phenotypic variability, mimicking the effects of reduced penetrance. Notably, electrophysiological study in this family allowed to reveal hidden positive family history and assess a dominant inheritance pattern, revealing subclinical neuropathy in asymptomatic mutation carriers.     

Focally folded myelin in Charcot–Marie–Tooth type 1B disease is associated with Asn131Lys mutation in myelin protein zero gene: short report

Charcot-Marie-Tooth disease type 1B (CMT1B) is a demyelinating neuropathy inherited as an autosomal dominant trait. The majority of CMT1B cases are caused by mutations in the myelin protein zero (P0) gene (MPZ). Only a few mutations in MPZ gene have been reported to be associated with focally folded myelin sheaths. We have studied five patients from one family with five generations, affected by CMT1B disease. The morphological studies of sural nerve biopsy performed in the proband revealed fibers with focally folded myelin. DNA sequencing analysis showed the Asn131Lys mutation in the MPZ gene in three members of the affected family.     

Parental mosaicism of a novel PMP22 mutation with a minimal neuropathic phenotype

Genetic germinal and somatic mosaicisms of dominant Charcot‐Marie‐Tooth disease (CMT) mutations are rarely reported and/or recognized. We describe a novel heterozygous p.Trp39Cys missense mutation in the extracellular domain of the peripheral myelin protein 22 (PMP22) associated with an early‐onset demyelinating CMT type 1 E (CMT1E) in two siblings born from asymptomatic non‐consanguineous parents. The 29‐year‐old mother, harboring approximately 20% of the mutant PMP22 allele in blood, had minor signs of distal polyneuropathy (pes cavus, decreased ankle jerk reflexes and vibration sense in legs) and slight reduction of sural nerve action potentials (SNAPs). Authors suggest that mutations of CMT‐related genes which originate in post‐zygotic stages may be associated with mild phenotypes of peripheral neuropathy.     

The neurofilament light chain gene (NEFL) mutation Pro22Ser can be associated with mixed axonal and demyelinating neuropathy

We report the detailed clinical, electrophysiological and molecular analysis of a patient with Charcot-Marie-Tooth (CMT) disease. DNA sequencing of the coding sequences of the neurofilament light chain polypeptide (NEFL) gene revealed a c.64C > T heterozygous, missense mutation resulting in a Pro22Ser amino acid substitution. Clinical and electrophysiological studies revealed a mixed axonal and demyelinating neuropathy, with widespread demyelination involving both proximal and distal nerve segments. Mutations at this site in the NEFL gene have been previously linked to an axonal neuropathy or distal nerve demyelination. Our results emphasize the complexity of genotype–phenotype correlations in CMT and underline the possible importance of host factors and gene interactions in the development of clinical phenotypes.     

Diagnostic value of ultrastructural nerve examination in Charcot-Marie-Tooth disease: two CMT 1B cases with pseudo-recessive inheritance

We report two sporadic patients of CMT disease in different consanguineous families. The electrophysiological examination led to the diagnosis of a severe demyelinating neuropathy. The nerve biopsies exhibited numerous outfoldings of the myelin sheaths and onion-bulb proliferations. The consanguinity and the histological findings pointed to a diagnosis of CMT 4B. However, the detection of abnormal and regular widenings between the major dense lines of the myelin lamellae by electron microscopy led us to search for a P0 gene mutation. Two heterozygous mutations of this gene were identified: S63F and N131Y. Different aspects of uncompacted myelin lamellae have been described in some cases of P0 mutations and a few now appear to be quite specific to it. More than 30 genes are implicated in CMT and as mutation search is time- and money-consuming, we believe that in some selected patients ultrastructural examination of nerves, among other criteria, helps orientate the molecular diagnosis of CMT.     

SIMPLE mutation in demyelinating neuropathy and distribution in sciatic nerve

Charcot-Marie-Tooth neuropathy type 1C (CMT1C) is an autosomal dominant demyelinating peripheral neuropathy caused by missense mutations in the small integral membrane protein of lysosome/late endosome (SIMPLE) gene. To investigate the prevalence of SIMPLE mutations, we screened a cohort of 152 probands with various types of demyelinating or axonal and pure motor or sensory inherited neuropathies. SIMPLE mutations were found only in CMT1 patients, including one G112S and one W116G missense mutations. A novel I74I polymorphism was identified, yet no splicing defect of SIMPLE is likely. Haplotype analysis of STR markers and intragenic SNPs linked to the gene demonstrated that families with the same mutation are unlikely to be related. The clustering of the G112S, T115N, and W116G mutations within five amino acids suggests this domain may be critical to peripheral nerve myelination. Electrophysiological studies showed that CMT1C patients from six pedigrees (n = 38) had reduced nerve conduction velocities ranging from 7.5 to 27.0m/sec (peroneal). Two patients had temporal dispersion of nerve conduction and irregularity of conduction slowing, which is unusual for CMT1 patients. We report the expression of SIMPLE in various cell types of the sciatic nerve, including Schwann cells, the affected cell type in CMT1C.     

A novel mutation of myelin protein zero associated with an axonal form of Charcot-Marie-Tooth disease

OBJECTIVE: To report a new mutation in the MPZ gene which encodes myelin protein zero (P0), associated with an axonal form of Charcot-Marie-Tooth disease (CMT). METHODS: Three patients from an Italian family with a mild, late onset axonal peripheral neuropathy are described clinically and electrophysiologically. To detect point mutation in MPZ gene the whole coding sequence was examined. The structure of the mutated protein was investigated using the three dimensional model of P0. RESULTS: All patients showed a relatively mild CMT phenotype characterised by late onset and heterogeneity of the clinical and electrophysiological features. Molecular analysis demonstrated a novel heterozygous T/A transversion in the exon 3 of MPZ gene that predicts an Asp109Glu amino acid substitution in the extracellular domain of the P0. Asp109 is found at the protein surface, on beta strand E, in the interior of the P0 tetramer. CONCLUSIONS: The identification of Asp109Glu mutation confirms the pivotal role of P0 in axonal neuropathies and stresses the phenotypic heterogeneity associated with MPZ mutations. This study suggests the value of screening for MPZ mutations in CMT family members with minor clinical and electrophysiological signs of peripheral neuropathy.     

Screening for SH3TC2 gene mutations in a series of demyelinating recessive Charcot‐Marie‐Tooth disease (CMT4)

Charcot‐Marie‐Tooth disease type 4C (CMT4C) is an autosomal recessive (AR) demyelinating neuropathy associated to SH3TC2 mutations, characterized by early onset, spine deformities, and cranial nerve involvement. We screened 43 CMT4 patients (36 index cases) with AR inheritance, demyelinating nerve conductions, and negative testing for PMP22 duplication, GJB1 and MPZ mutations, for SH3TC2 mutations. Twelve patients (11 index cases) had CMT4C as they carried homozygous or compound heterozygous mutations in SH3TC2. We found six mutations: three nonsense (p.R1109*, p.R954*, p.Q892*), one splice site (c.805+2T>C), one synonymous variant (p.K93K) predicting altered splicing, and one frameshift (p.F491Lfs*32) mutation. The splice site and the frameshift mutations are novel. Mean onset age was 7 years (range: 1–14). Neuropathy was moderate‐to‐severe. Scoliosis was present in 11 patients (severe in 4), and cranial nerve deficits in 9 (hearing loss in 7). Scoliosis and cranial nerve involvement are frequent features of this CMT4 subtype, and their presence should prompt the clinician to look for SH3TC2 gene mutations. In our series of undiagnosed CMT4 patients, SH3TC2 mutation frequency is 30%, confirming that CMT4C may be the most common AR‐CMT type.     

Axonal and demyelinating forms of the MPZ Thr124Met mutation

OBJECTIVE: We report on a Japanese family with Charcot Marie Tooth disease (CMT) with the Thr124Met mutation in the peripheral myelin protein zero (MPZ) gene. MATERIAL AND METHODS: Based on the clinical study, we investigated MPZ gene by direct sequence analysis and polymerase chain reaction restriction fragment length polymorphism analysis. RESULTS: Genotyping of four symptomatic family members showed that one family member with severe disease symptoms was homozygous, while the other three were heterozygous. The heterozygous cases were clinicopathologically determined to be the axonal type, which is characterized by late-onset and slow progression associated with Adie's pupil and deafness. The homozygous case was the demyelinating type, which showed earlier onset, rapid progression, sural nerve demyelination, and cranial nerve demyelination at autopsy. CONCLUSIONS: We suggest that axonal and demyelinating forms of CMT are not two distinct classes, but rather parts of a spectrum of genotypically related conditions, particularly with some MPZ mutations.     

Report of a novel mutation in the PMP22 gene causing an axonal neuropathy

Introduction: Point mutations in the peripheral myelin protein 22 (PMP22) gene rarely cause the hereditary neuropathies Charcot–Marie–Tooth disease type 1A (CMT1A) and hereditary neuropathy with liability to pressure palsies (HNPP), both of which show a demyelinating phenotype. Methods: In this study we characterized a family with an axonal neuropathy. Results: Three family members carried a heterozygous point mutation of the PMP22 gene, resulting in amino acid substitution R159C. Screening of 185 healthy controls did not reveal the R159C allele in any case. Discussion: The novel R159C mutation represents a very rare case of a dominant PMP22 mutation causing an axonal neuropathy. Muscle Nerve, 2011