Homozygous splice‐site mutation c.78 + 5G>A in PMP22 causes congenital hypomyelinating neuropathy

Congenital hypomyelinating neuropathy (CHN) presents in the neonatal period and results in delayed development of sensory and motor functions due to several gene mutations including in EGR2, MPZ, CNTNAP1, and PMP22. The phenotype of homozygous splice‐site mutation in the PMP22 gene has not been described in humans or animal models. Here we describe a family carrying a pathogenic splice‐site c.78 + 5G>A mutation in the PMP22 gene. We evaluated the clinical, electrophysiological, histological, and genetic features of the family. The proband with homozygous mutation presented with CHN, while his consanguineous parents with heterozygous mutation were asymptomatic. The proband was a 7‐year‐old boy. He had motor retardation after birth and had remained unable to walk independently at the time of the study. The compound muscle action potentials and sensory nerve action potentials were not recordable in the boy. The motor and sensory nerve conduction velocities of the parents were slightly to moderately decreased, although they had no symptoms of peripheral neuropathy. The sural nerve biopsy of the boy revealed hypomyelinating neuropathy with absence of large myelinated fibers, no myelin breakdown products, and numerous basal lamina onion bulb formations. To our knowledge, this is the first report of a homozygous splice‐site mutation in the PMP22 gene in humans. Our study expands the phenotype and genotype of PMP22‐related neuropathy.     

X-linked Charcot–Marie–Tooth disease type 5 with recurrent weakness after febrile illness

X-linked Charcot–Marie–Tooth disease type 5 (CMTX5) is an X-linked disorder characterized by early-onset sensorineural hearing impairment, peripheral neuropathy, and progressive optic atrophy. It is caused by a loss-of-function mutation in the phosphoribosyl pyrophosphate synthetase 1 gene (PRPS1), which encodes isoform I of phosphoribosyl pyrophosphate synthetase (PRS-I). A decreased activity leads to nonsyndromic sensorineural deafness (DFN2), CMTX5, and Arts syndrome depending upon residual PRS-I activity. Clinical and neurophysiological features of pediatric CMTX5 are poorly defined. We report two male siblings with peripheral neuropathy and prelingual sensorineural hearing loss who carried a novel c.319A>G (p.Ile107Val) PRPS1 missense mutation. They exhibited recurrent episodes of transient proximal muscle weakness, showing Gowers’ sign and waddling gait after suffering from febrile illness. This transient weakness has not been previously reported in CMTX5. A patient with Arts syndrome was reported to have transient proximal weakness after febrile illness. The transient weakness presenting in both CMTX5 and Arts syndrome suggests an overlap of signs and a continuous spectrum of PRS-I hypoactivity disease. Children presenting with transient neurological signs should be evaluated for peripheral neuropathy and consider genetic analysis for PRPS1.     

A novel mutation of gap junction protein β 1 gene in X-linked Charcot-Marie-Tooth disease

Introduction: In this study we report a novel mutation in the gap junction protein beta 1 (GJB1) gene of a Chinese X‐linked Charcot–Marie–Tooth disease (CMTX1) family, which has specific electrophysiological characteristics. Methods: Twenty members in the family were studied by clinical neurological examination and GJB1 gene mutation analysis, and 3 patients were studied electrophysiologically. The proband and his mother also underwent sural nerve biopsy. Results: All patients have the CMT phenotype, except for 2 asymptomatic carriers. Electrophysiological examinations showed non‐uniform slowing of motor conduction velocities and partial motor conduction blocks and temporal dispersion. Sural nerve biopsy confirmed a predominantly demyelinating neuropathy, and an Asn2Lys mutation in the amino‐terminal domain was found in 9 members of this family, but not in 25 normal controls in the family. Conclusions: This family represents a novel mutation in the GJB1 form of CMTX1. The mutation in the amino‐terminus has an impact on the electrophysiological characteristics of the disease. Muscle Nerve, 2011     

Clinical characterization and genetic analysis of Korean patients with X‐linked Charcot‐Marie‐Tooth disease type 1

Mutations in the gap junction protein beta 1 gene (GJB1) cause X‐linked Charcot‐Marie‐Tooth disease type 1 (CMTX1). CMTX1 is representative of the intermediate type of CMT, having both demyelinating and axonal neuropathic features. We analyzed the clinical and genetic characterization of 128 patients with CMTX1 from 63 unrelated families. Genetic analysis revealed a total of 43 mutations including 6 novel mutations. Ten mutations were found from two or more unrelated families. p.V95M was most frequently observed. The frequency of CMTX1 was 9.6% of total Korean CMT family and was 14.8% when calculated within genetically identified cases. Among 67 male and 61 female patients, 22 females were asymptomatic. A high‐arched foot, ataxia, and tremor were observed in 87%, 41%, and 35% of the patients, respectively. In the male patients, functional disability scale, CMT neuropathy score, and compound muscle action potential of the median/ulnar nerves were more severely affected than in the female patients. This study provides a comprehensive summary of the clinical features and spectrum of GJB1 gene mutations in Korean CMTX1 patients.     

Exome Sequencing Reveals a Novel PRPS1 Mutation in a Family with CMTX5 without Optic Atrophy

Background

X-linked Charcot-Marie-Tooth disease type 5 (CMTX5) is caused by mutations in the gene encoding phosphoribosyl pyrophosphate synthetase I (PRPS1). There has been only one case report of CMTX5 patients. The aim of this study was to identify the causative gene in a family with CMTX with peripheral neuropathy and deafness.

Case Report

A Korean family with X-linked recessive CMT was enrolled. The age at the onset of hearing loss of the male proband was 5 months, and that of steppage gait was 6 years; he underwent cochlear surgery at the age of 12 years. In contrast to what was reported for the first patients with CMTX5, this patient did not exhibit optic atrophy. Furthermore, there was no cognitive impairment, respiratory dysfunction, or visual disturbance. Assessment of his family history revealed two male relatives with very similar clinical manifestations. Electrophysiological evaluations disclosed sensorineural hearing loss and peripheral neuropathy. Whole-exome sequencing identified a novel p.Ala121Gly (c.362C>G) PRPS1 mutation as the underlying genetic cause of the clinical phenotype.

Conclusions

A novel mutation of PRPS1 was identified in a CMTX5 family in which the proband had a phenotype of peripheral neuropathy with early-onset hearing loss, but no optic atrophy. The findings of this study will expand the clinical spectrum of X-linked recessive CMT and will be useful for the molecular diagnosis of clinically heterogeneous peripheral neuropathies.     

Sonography of the median nerve in CMT1A,CMT2A,CMTX, and HNPP

Introduction: In this study we compare the ultrasound features in the median nerve in patients with different types of Charcot–Marie–Tooth (CMT) disease and hereditary neuropathies with liability to pressure palsies (HNPP) as a typical entrapment neuropathy. Methods: Median nerve ultrasound and conduction studies were performed in patients with CMT1A (n = 12), MFN2‐associated CMT2A (n = 7), CMTX (n = 5), and HNPP (n = 5), and in controls (n = 28). Results: Median nerve cross‐sectional area (CSA) was significantly increased in CMT1A, whereas, in axonal CMT2A, fascicle diameter (FD) was enlarged. CSA correlated with nerve conduction slowing in CMT1A and with axonal loss, as shown by motor and sensory nerve amplitudes in both CMT1A and CMT2A. A relatively low wrist‐to‐forearm‐ratio (WFR <0.8) or a relatively high WFR (>1.8) appeared to be unlikely in MFN2 and Cx32 mutations of CMT2A and CMTX, respectively. Conclusion: Differences in CSA, FD, and WFR of the median nerve can be helpful in defining subtypes of hereditary neuropathies. Muscle Nerve 47:385‐395, 2013     

Spinal charcot‐marie‐tooth disease: A reappraisal

Introduction: Distal hereditary motor neuropathy (dHMN) is characterized by isolated distal muscle atrophy without sensory deficit. Nevertheless, clinical sensory loss has been reported despite preserved sensory nerve conduction in a few patients, thus differentiating these cases from the classical type 2 Charcot‐Marie‐Tooth disease (CMT2). Methods: We report 4 patients who presented with clinical sensory and motor neuropathy and normal peripheral sensory nerve conduction studies and were investigated with complete electrophysiological studies, including somatosensory evoked potentials (SEP). Results: These patients had a clinical presentation of classical CMT with isolated axonal motor neuropathy suggestive of dHMN. Interestingly, tibial nerve SEPs showed abnormalities suggestive of proximal involvement of dorsal roots that may explain the clinical somatosensory disturbances. Conclusions: These cases support the concept of spinal CMT that should be recognized as an intermediate form between dHMN and CMT2. SEP recording was helpful in defining a more precise phenotype of spinal CMT. Muscle Nerve 46: 603–607, 2012     

X‐linked Charcot‐Marie‐Tooth type 1: stroke‐like presentation of a novel GJB1 mutation

X‐linked Charcot‐Marie‐Tooth type 1 (CMTX1) is the second most common type of CMT and is caused by mutations in the Gap‐Junction Beta‐1 gene (GJB1), encoding connexin 32 which is expressed in Schwann cells as well as in oligodendrocytes. More than 400 GJB1 mutations have been described to date. Many mutation‐carrier males have subclinical central nervous system (CNS) involvement, a few show mild CNS clinical signs, whereas only rarely overt though transient CNS dysfunction occurs. We report a 29‐year‐old man with CMTX1 who, at 16 years, showed short‐lived CNS symptoms with transitory white matter abnormalities on cerebral magnetic resonance imaging (MRI) as first clinical presentation of a novel GJB1 mutation (p.Gln99_His100insGln). He had three consecutive episodes of right hemiparesis, together with sensory loss in the paretic limbs and expressive aphasia, all lasting a few hours, over a 2‐day period, with concurrent white matter hyperintensity on MRI. These “stroke‐like” episodes occurred just after arriving at sea level, after travelling from home at 700 m of altitude. Only a few years later did symptoms of peripheral neuropathy appear. In conclusion, CMTX1 should be included in the differential diagnosis of diseases characterized by transient CNS symptoms and white matter abnormalities on MRI.     

线粒体融合蛋白2基因新突变导致的遗传性运动感觉性神经病6型一家系

目的 报道1个遗传性运动感觉性神经病6型家系的临床表现、病理改变以及基因突变特点。方法 先证者男性,15岁。患者5岁出现双下肢无力,症状进行性加重,伴随出现双足跟腱挛缩;11岁开始出现慢性进行性视力下降;12岁出现双手肌肉萎缩,无肢体麻木。周围神经传导速度检查显示诱发电位未能引出或波幅显著下降,感觉神经较运动神经改变更明显。视诱发电位提示双眼P100潜伏期均延长,波幅正常。眼底照相提示视神经萎缩,视网膜电图正常。患者母亲7岁时开始出现走路费力,10岁出现视力下降。对先证者进行腓肠神经活体组织检查。对先证者及其母亲进行线粒体融合蛋白2( MFN2)基因测序,100名健康人作为正常对照。结果 腓肠神经病理改变主要为有髓神经纤维显著减少,电镜检查发现个别有髓神经纤维出现洋葱球样结构和再生簇结构,个别神经纤维的轴索内可见线粒体聚集和空泡化。先证者和母亲的MFN2基因第19号外显子存在c.2218T＞C杂合突变,导致MFN2第740位的色氨酸由精氨酸替代(W740R)。100名健康对照没有发现该突变。结论 MFN2基因c.2218T＞C突变导致了遗传性运动感觉性神经病6型,其视力下降多出现在脊神经损害之后,周围神经可以存在髓鞘损害。     

Sensorineural deafness in X-linked Charcot-Marie-Tooth disease with connexin 32 mutation (R142Q)

OBJECTIVE: To report a family with X-linked Charcot-Marie-Tooth disease (CMTX) with proven connexin 32 (Cx32) mutation associated with deafness. METHODS: Twelve members of a CMTX family were examined clinically. Electromyography and sensory and motor conduction studies were performed in three men, two women, and a 7-year-old boy. Audiometric testing was carried out in the three men, one woman, and an 8-year-old girl. Molecular genetic analysis was performed in six men and five women. RESULTS: The three men and the 7-year-old boy had the usual sensorimotor deficit and pronounced reduction of motor nerve conduction velocity. A 15-year-old boy was asymptomatic and had only areflexia. The women had impairment of vibratory sensation and slight slowing of nerve conduction velocities. Sensorineural deafness was observed in the three men and in an 8-year-old girl without any motor or sensory deficit. Molecular genetic analysis revealed a new missense mutation located in codon 142 of the Cx32 gene leading to the substitution of an arginine by a glutamine. CONCLUSION: CMTX due to Cx32 mutations often shows interfamilial and intrafamilial phenotypic variation, which is also the hallmark of this family. The sensorineural deafness observed in this family suggests that Cx32 could play an important role in the auditory pathway.     

Charcot-Marie-Tooth disease: Histopathological features of the peripheral myelin protein (PMP22) duplication (CMT1A) and Connexin32 mutations (CMTX1)

The two most common subtypes of Charcot-Marie-Tooth (CMT) disease are CMT1A and CMTX1. To determine whether these different genetic entities display different morphological phenotypes we compared sural nerve biopsies of CMT1A patients due to PMP22 duplication with biopsies of CMTX1 patients with proven Connexin32 mutations. In CMT1A nerve biopsies we found a severe reduction in myelinated fiber density, hypermyelination as well as demyelination, and a high percentage of onion bulb formations. CMTX1 nerve biopsies showed significant differences: a higher myelinated fiber density, thinner myelin sheaths, more cluster formations, and only few onion bulb formations. Teased fibers studies in CMT1A patients showed features of demyelination and/or remyelination in almost all fibers. In contrast, teased fibers of CMTX1 patients were uniformly thinly myelinated with 5–10% active axonal degeneration and 15% segmental demyelination. Median nerve motor conduction velocities were significantly faster in CMTX1 patients (31.6 ± 5.5 m/s) than in CMT1A patients (18.2 ± 6.9 m/s). The possible roles of PMP22 and Connexin32 in the pathogenesis of CMT are discussed. © 1998 John Wiley & Sons, Inc. Muscle Nerve 21: 217–225, 1998     

远端型遗传性运动神经病Ⅴ型一家系

目的 报道1个远端型遗传性运动神经病Ⅴ型(dHMN-Ⅴ)家系的临床、病理和基因改变特点.方法 该家系中连续4代有9例(4例男性,5例女性)在13～40岁之间发病,其中6例出现下肢无力;有2例女性患者仅出现双手肌肉无力和萎缩,其中1例出现锥体束征.先证者为20岁女性,13岁时发现双手肌肉萎缩和无力,15岁后出现下肢无力;肌电图提示神经源性损伤,神经传导速度检查显示运动神经复合肌肉动作电位波幅显著降低,伴随传导速度轻度减慢,感觉神经传导速度和动作电位波幅均正常.对先证者进行腓肠神经活体组织病理检查,并对先证者和其他4例发病者进行血Berardinelli-Seip先天性脂肪营养不良基因2(BSCL2)基因检查.结果 病理检查显示腓肠神经的有髓神经纤维数量轻度减少,伴随个别有髓神经纤维再生簇以及洋葱球样改变.基因检查显示BSCL2基因的第3号外显子存在263A→G杂合突变.结论 临床和基因检查证实该家系为dHMN-Ⅴ,其发病年龄和临床表现在同一家系中存在异质性,可以伴随轻微锥体束征和感觉神经损害.     

Activity‐dependent modulation of the axonal conduction of action potentials along rat hippocampal mossy fibers

The axonal conduction of action potentials in the nervous system is generally considered to be a stable signal for the relaying of information, and its dysfunction is involved in impairment of cognitive function. Recent evidence suggests that the conduction properties and excitability of axons are more variable than traditionally thought. To investigate possible changes in the conduction of action potentials along axons in the central nervous system, we recorded action potentials from granule cells that were evoked and conducted antidromically along unmyelinated mossy fibers in the rat hippocampus. To evaluate changes in axons by eliminating any involvement of changes in the somata, two latency values were obtained by stimulating at two different positions and the latency difference between the action potentials was measured. A conditioning electrical stimulus of 20 pulses at 1 Hz increased the latency difference and this effect, which lasted for approximately 30 s, was inhibited by the application of an α‐amino‐3‐hydroxy‐5‐methylisoxazole‐4‐propionate (AMPA)/kainate receptor antagonist or a GluK1‐containing kainate receptor antagonist, but not by an AMPA receptor‐selective antagonist or an N‐methyl‐d ‐aspartate receptor antagonist. These results indicated that axonal conduction in mossy fibers is modulated in an activity‐dependent manner through the activation of GluK1‐containing kainate receptors. These dynamic changes in axonal conduction may contribute to the physiology and pathophysiology of the brain.     

Electrophysiological studies in a mouse model of Schwartz–Jampel syndrome demonstrate muscle fiber hyperactivity of peripheral nerve origin

Schwartz–Jampel syndrome (SJS) is an autosomal‐recessive condition characterized by muscle stiffness and chondrodysplasia. It is due to loss‐of‐function hypomorphic mutations in the HSPG2 gene that encodes for perlecan, a proteoglycan secreted into the basement membrane. The origin of muscle stiffness in SJS is debated. To resolve this issue, we performed an electrophysiological investigation of an SJS mouse model with a missense mutation in the HSPG2 gene. Compound muscle action potential amplitudes, distal motor latencies, repetitive nerve stimulation tests, and sensory nerve conduction velocities of SJS mice were normal. On electromyography (EMG), neuromyotonic discharges, that is, bursts of motor unit action potentials firing at high rates (120–300 HZ ), were constantly observed in SJS mice in all muscles, except in the diaphragm. Neuromyotonic discharges were not influenced by general anesthesia and disappeared with curare administration. They persisted after complete motor nerve section, terminating only with Wallerian degeneration. These results demonstrate that perlecan deficiency in SJS provokes a neuromyotonic syndrome. The findings further suggest a distal axonal localization of the generator of neuromyotonic discharges. SJS should now be considered as an inherited disorder with peripheral nerve hyperexcitability. Muscle Nerve, 2009     

Sensorimotor polyneuropathy in patients with SMA type‐1: Electroneuromyographic findings

Introduction: Generally, spinal muscular atrophy (SMA) is believed to be a pure motor neuron disease. We retrospectively evaluated our electrodiagnostic findings in SMA type 1 patients to demonstrate co‐existence of sensorimotor neuropathies. Methods: Electroneuromyographic (ENMG) studies in 15 patients (11 boys, 4 girls) were reviewed independently by 2 neurophysiologists. Upper extremity findings were compared with normal right arm controls. Results: Patient ages ranged from 1.5 to 26 months. Four SMA patients (26.7%) had decreased sensory nerve action potentials (SNAPs) or sensory nerve conduction velocities. Of them, median SNAPs could not be elicited in 3, and sural SNAPs could not be elicited in 2. Compound muscle action potential amplitudes were severely decreased in 14 (93.3%) and normal in 1. Conclusions: Survival motor neuron 1 (SMN1) gene analysis should be considered if clinical features are consistent with SMA, even if pathological or electrophysiological findings demonstrate peripheral sensorimotor polyneuropathies. Muscle Nerve, 2013     

An 8‐generation family with X‐linked Charcot–Marie–Tooth: Confirmation Of the pathogenicity Of a 3′ untranslated region mutation in GJB1 and its clinical features

Introduction: Mutations in gap junction protein beta 1 (GJB1) on the X chromosome represent one of the most common causes of hereditary neuropathy. We assessed manifestations associated with a rare 3′ untranslated region mutation (UTR) of GJB1 in a large family with X‐linked Charcot–Marie–Tooth disease (CMTX). Methods: Clinical, electrophysiological, and molecular genetic analyses were performed on an 8‐generation family with CMTX. Results: There were 22 affected males and 19 symptomatic females, including an 83‐year‐old woman followed for 40 years. Electrophysiological studies showed a primarily axonal neuropathy. The c.*15C>T mutation in the GJB1 3′ UTR was identified in 4 branches of the family with a log of odds (LOD) of 4.91. This created a BstE II enzyme recognition site that enabled detection by restriction digestion. Discussion: The c.*15C>T mutation in the GJB1 3′ UTR segregates with CMTX1 in 8 generations. Penetrance in males and females is essentially complete. A straightforward genetic method to detect this mutation is described. Muscle Nerve 57 : 859–862, 2018     

Ultrasound imaging for diagnosis and follow‐up of persistent median artery thrombosis

Introduction: Adult‐onset Krabbe disease is clinically rare and usually affects the pyramidal tracts in the central nervous system. Patients develop a spastic gait, and peripheral neuropathy sometimes occurs simultaneously. Methods: A 55‐year‐old woman with consanguineous parents developed slowly progressive, asymmetric muscle weakness and atrophy in her forearms, while her ability to walk remained unaffected without pyramidal tract signs after onset at age 51 years. Results: Nerve conduction studies demonstrated an asymmetric demyelinating‐type peripheral neuropathy, and sural nerve biopsy documented reduced myelinated nerve fiber density with uniformly thin myelin sheaths, suggesting hypomyelination. Brain MRI demonstrated minor white‐matter injury along the optic radiations, which was associated with asymptomatic, mild, prolonged latency on visual evoked potentials. Laboratory analysis documented low enzyme activity of galactocerebrosidase (GALC) and a known mutation of the GALC gene. Conclusion: Isolated peripheral neuropathy occurs very rarely in adult‐onset Krabbe disease. Muscle Nerve 54 : 152–157, 2016     

Diabetes mellitus exacerbates motor and sensory impairment in CMT1A

Abstract Charcot‐Marie‐Tooth disease type 1A (CMT1A) is caused by a duplication of PMP22 on chromosome 17 and is the most commonly inherited demyelinating neuropathy. Diabetes frequently causes predominantly sensory neuropathy. Whether diabetes exacerbates CMT1A is unknown. We identified 10 patients with CMT1A and diabetes and compared their impairment with 48 age‐matched control patients with CMT1A alone. Comparisons were made with the Charcot‐Marie‐Tooth disease (CMT) neuropathy score (CMTNS) and by electrophysiology. The CMTNS was significantly higher in patients with diabetes (20.25 ± 2.35) compared with controls (15.19 ± 0.69; p = 0.01). Values were particularly higher for motor signs and symptoms. Seven of the 10 diabetic patients had CMTNS >20 (severe CMT), while only 7 of the 48 age‐matched controls had scores >20. There was a trend for CMT1A patients with diabetes to have low compound muscle action potentials and sensory nerve action potentials, although nerve conduction velocities were not slower in diabetic patients compared with controls. Diabetes was associated with more severe motor and sensory impairment in patients with CMT1A.     

Inverted formin 2‐related Charcot‐Marie‐Tooth disease: extension of the mutational spectrum and pathological findings in Schwann cells and axons

Mutations in the gene encoding inverted formin FH2 and WH2 domain‐containing protein (INF2), a Cdc42 effector involved in the regulation of actin dynamics, cause focal segmental glomerulosclerosis (FSGS) and intermediate Charcot‐Marie‐Tooth neuropathy combined with FSGS (FSGS–CMT). Here, we report on six patients from four families with sensorimotor polyneuropathy and FSGS. Nerve conduction velocities were moderately slowed, and amplitudes of sensory and motor potentials were decreased. One patient had internal hydrocephalus and was intellectually disabled. Molecular genetic testing revealed two known and two novel missense mutations in the second and fourth exons of the INF2 gene. Investigations of one nerve biopsy confirmed the diagnosis of intermediate‐type CMT and revealed occasional abnormal in‐ and outfoldings of myelin sheaths and expansions of the endoplasmic reticulum in axons and Schwann cells. While earlier reports suggested that mutations causing FSGS‐CMT are restricted to exons 2 and 3 of the INF2 gene, we found one CMT‐FSGS causing mutation (p.Glu184Lys) in exon 4 extending the critical region of INF2 for rapid CMT‐FSGS molecular genetic diagnosis. Study of a nerve biopsy showed abnormalities that might be related to the known role of the INF2‐binding partner CDC42 in myelination.     

X-LINKED DOMINANT CHARCOT-MARIE-TOOTH NEUROPATHY: ANALYSIS OF A PEDIGREE WITH A NOVEL MUTATION OF CONNEXIN 32

Objective: To report a family with X-linked Charcot-Marie-Tooth neuropathy (CMTX) with a novel mutation of connexin 32 (Cx32).
Background: Cx32, a gap-junction protein, is expressed in various neural and non-neural tissues. In the peripheral nervous system (PNS), Cx32 is expressed by the Schwann cell and it is believed to form reflexive gap-junctions at the Schmidt-Lantermann incisures and paranodes; in the central nervous system, Cx32 is expressed by neurons and oligodendrocytes. Mutations of Cx32 causes an apparently tissue-specific disorder of PNS: CMTX.
Methods: We examined, clinically and electrophysiologically, 2 brothers with CMT and their asymptomatic mother. We performed a sural nerve biopsy in the 29-year-old proband and analysed the Cx32 gene (GJB1) by direct nucleotide sequencing.
Results: We detected a novel GTA→GAA of GJB1 that is predicted to cause a Val23Glu substitution in the first transmembrane domain of Cx32. NCV studies disclosed features of a demyelinating neuropathy in the severely-affected hemizygous brother, and slowing of the sensory conduction velocity in the sural nerve in the mother who showed pes cavus and areflexia. In all three examined patients, BAEPs showed both delayed wave 1 and prolonged interpeak-latency-time (IPL I-V); central motor conduction time by MEPs was normal. The nerve biopsy in the proband was consistent with a primary axonal degeneration.
Conclusions: Cx32 mutations may lead also to a dysfunction of the CNS. Electrophysiological abnormalities of the CNS pathways may orientate the diagnosis of CMT towards Cx32.