UMLS:C1762617 - FACTA Search

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Query: UMLS:C1762617 (weakness)
37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purpose of this study was the identification of new mutations of the connexin 32 (CX32) gene in CMTX families. We report six new mutations of the CX32 gene including two medium sized (29 and 18 bp) deletions. The clinical phenotype is consistent with CMT peripheral neuropathy in all patients. Four families show both male and female patients, with more severe symptoms in males. The disease is asymptomatic in females in two families. The clinical deficit in CMTX families Nos 1, 2 and 4 with missense mutations of the CX32 gene was mild or moderate. Severe weakness of the feet and hands was present in CMTX family No. 5 with a G insertion and family No. 6 with a 29 bp deletion in the carboxyl terminal region of the CX32 gene. Most likely the severe clinical impact in those families was related to frame shift and premature termination of the protein.
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PMID:New point mutations and deletions of the connexin 32 gene in X-linked Charcot-Marie-Tooth neuropathy. 758 Feb 42

Three genetic loci for the Charcot-Marie-Tooth (CMT) syndromes with slow motor nerve conduction velocities (hereditary motor and sensory neuropathy: HMSN type I) have been mapped to chromosomes 1 (CMT1B), 17 (CMT1A), and the X chromosome (CMTX). The clinical features of these three CMT subgroups are similar. To determine whether any clinical features distinguish CMTX families, the range of clinical findings and motor nerve conduction velocities were examined in two large CMTX families, the range of clinical findings and motor nerve conduction velocities were examined in two large CMTX families with CMTX proven by linkage to X-chromosome markers. CMTX males had more wasting and weakness than CMTX females or individuals with CMT1A. Patellar reflexes were more often retained in CMTX. Motor nerve conduction velocities were faster than in CMT1A. Intermediate-range median nerve conduction velocities were present in CMTX females (45 +/- 9 m/sec; range, 26 to 61 m/sec). These velocities were significantly faster than those for CMT1A females (22 +/- 8 m/sec, p < 0.0001). Median nerve conduction velocities in CMTX males (31 +/- 6 m/sec) were significantly slower than in CMTX females and faster than in CMT1A males (20 +/- 6 m/sec, p < 0.0001). The combination of slow conduction velocities in affected males (< 40 m/sec) and intermediate-range median motor conduction velocity results (> 40 m/sec) in affected or obligate carrier females is a useful distinguishing feature to separate CMTX from CMT1A, as intermediate conduction velocities are not present in autosomal-dominant dominant CMT1A families. This feature defines possible CMTX families for linkage studies. Families with no male-to-male inheritance of the syndrome, slow motor nerve conductions in affected males, and normal or intermediate-range conduction velocities in carrier females should be considered to be X-linked CMT families.
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PMID:Intermediate nerve conduction velocities define X-linked Charcot-Marie-Tooth neuropathy families. 825 57

To clarify the clinical phenotype and molecular mechanism in X-linked Charcot-Marie-Tooth disease (CMTX) patients with a deletion of the whole connexin 32 (Cx32) coding sequence, we studied a family with this deletion by electrophysiology, Southern blotting and quantitative PCR analyses. Two brothers with no copy of Cx32, 27 and 25 years old, showed steppage gait, moderate muscle atrophy and weakness, and mild sensory disturbance in the distal parts of the legs. The clinical phenotypes in these brothers were not different from those in patients with other types of severe Cx32 mutations. Their mother, with one copy of Cx32, showed very mild muscle weakness and sensory disturbance. An electrophysiological study showed a nonuniform demyelinating neuropathy with some aspects of an axonal-loss neuropathy. Sural nerve biopsy showed loss of myelinated fibers, many relatively thin myelin sheaths, clusters of small myelinated fibers, and some onion bulb formations. The present findings suggest that both a demyelinating process and an axonal involvement were present in the patients with total defect of Cx32 probably due to loss of the function mechanism of Cx32 as the underlying molecular mechanism, because a dominant negative effect theory is not applicable in these patients.
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PMID:Clinical phenotype in X-linked Charcot-Marie-Tooth disease with an entire deletion of the connexin 32 coding sequence. 1126 88

Charcot-Marie-Tooth disease (CMT) is characterized by distal muscle weakness and wasting, often resulting in foot deformities and gait disturbances, distal sensory impairment and by more or less typical changes in sural nerve biopsy. CMT type 1 is also characterized by reduced nerve conduction velocities. For these demyelinating subtypes, most frequently a 1.5 Mb tandem duplication in chromosome 17p11.2-12 comprising the gene for the peripheral myelin protein 22 (PMP22) is observed (CMT1A), but point mutations in PMP22 have also rarely been reported. X-linked, dominant CMTX1 disease is the second most common type of these hereditary motor and sensory neuropathies (HMSN). Mutations in the X chromosomal gene Connexin32 (Cx32) synonymous gap junction beta-1 (GJB1) are detectable in most X-linked CMT families. We report a novel missense mutation--Tyr65His--in the first extracelullar domain of the Cx32 gene in a Czech CMTX1 family. The mutation was not detectable in 50 healthy controls. The clinical phenotype in both the male proband and his mother was moderate with pronounced peroneal weakness and foot drop. Nerve conduction velocities were intermediately decreased (31-38 m/s) in both patients and slowing of central acoustic conduction (BAEP) was found in both the son and the mother whereas visual central conduction slowing (VEP) was detectable only in the son.
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PMID:Charcot-Marie-Tooth type X: A novel mutation in the Cx32 gene with central conduction slowing. 1156 88

X-linked dominant Charcot-Marie-Tooth (CMTX) disease is a motor and sensory neuropathy caused by mutations in the connexin 32 (CX32) gene. In this study we report the clinical, electrophysiological and genetic features of 93 patients (41 males, 52 females) from 37 unrelated families with CMTX. Age at onset was 15.4 +/- 9.6 years in males (range 1-40 years) and 18.7 +/- 13.1 years in females (range 1-56 years) (P = 0.22) and the duration of disease at the time of examination was 18.3 +/- 14.6 years in males and 23.9 +/- 13.7 years in females (P = 0.11). Males were more severely affected than females, with significantly more frequent muscle weakness, amyotrophy, proprioception loss, upper limb areflexia and pes cavus. Females were more frequently asymptomatic, whereas high functional disability scores were more frequently encountered in males. The electrophysiological studies showed that motor nerve conduction velocities in CMTX females, but not males, were heterogeneous between nerves compared with Charcot-Marie-Tooth type 1A (CMT1A) patients and controls. The terminal latency index (TLI) for the median nerve was 0.37 +/- 0.08; it was similar in men and in women and a little higher than those observed in CMT1A and controls. The range of values for median TLI was wider in both male and female CMTX patients than in controls, but was similar to that of CMT1A patients, suggesting that motor conduction was relatively homogeneous within a given nerve. Twenty-seven different CX32 mutations, including missense (n = 23), nonsense (n = 2) and frameshift mutations (n = 1) and one entire deletion of the CX32 coding sequence, were observed in the 37 families. Four of these mutations are described for the first time. The phenotype of the patients, especially age at onset, is discussed in relation to the functional consequences of CX32 mutations, analysed in vitro in Xenopus oocytes and mammalian cells. CMTX patients with age at onset in the first decade mostly presented non-functional mutations, suggesting that the physiological consequences of the mutations affect age at onset in CMTX.
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PMID:Clinical, electrophysiological and molecular genetic characteristics of 93 patients with X-linked Charcot-Marie-Tooth disease. 1157 Dec 14

X-linked Charcot-Marie-Tooth disease (CMTX) is a clinically heterogeneous hereditary motor and sensory neuropathy with X-linked transmission. Common clinical manifestations of CMTX, as in other forms of Charcot-Marie-Tooth disease (CMT), are distal muscle wasting and weakness, hyporeflexia, distal sensory disturbance, and foot deformities. Motor nerve conduction velocity is reduced. In male patients it is often less than 38 m/s in the median nerve (a value often used to distinguish between "demyelinating" and "axonal" forms of CMT), but in female patients conduction velocity may be faster than this or normal. Mutations in the connexin32 (gap junction protein beta 1 (GJB1)) gene are responsible for the majority of CMTX cases. This report describes six British CMTX families with six novel mutations (four missense, one nonsense, and one frame shift) of the GJB1 gene. Affected members in these six families had typical signs of CMT but in some affected members of three families there was additional central nervous system involvement or deafness in the absence of any other explanation other than CMT.
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PMID:Six novel connexin32 (GJB1) mutations in X-linked Charcot-Marie-Tooth disease. 1218 64

X-linked Charcot-Marie-Tooth disease (CMTX) is a hereditary demyelinating neuropathy caused by mutations in the connexin 32 (Cx32) gene. Cx32 is widely expressed in brain and peripheral nerve, yet clinical manifestations of CMTX mainly arise from peripheral neuropathy. We have evaluated two male patients with CMTX who on separate occasions developed transient ataxia, dysarthria, and weakness within 3 days of returning from ski trips at altitudes above 8,000 feet. Magnetic resonance imaging studies in both patients showed nonenhancing, confluent, and symmetrical white matter abnormalities that were more pronounced posteriorly and that resolved over several months. Magnetic transfer images in one patient demonstrated increased magnetization transfer ratios distinct from that seen in demyelination or edema. Both patients returned to their normal baseline within 2 to 3 weeks. These cases suggest that CMTX patients are at risk for developing an acute, transient, neurological syndrome when they travel to places at high altitudes and return to sea level. Cx32 mutations may cause central nervous system dysfunction by reducing the number of functioning gap junctions between oligodendrocytes and astrocytes, making both cells more susceptible to abnormalities of intercellular exchange of ions and small molecules in situations of metabolic stress.
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PMID:Transient central nervous system white matter abnormality in X-linked Charcot-Marie-Tooth disease. 1232 71

A nationwide study of CMT and FAP has been performed. In FAP TTR Met30 families with late onset, neuropathy showed male preponderance, low penetrance, little relationship to endemic foci, sensorimotor symptoms beginning distally in the lower extremities with disturbance of both superficial and deep sensation, and relatively mild autonomic symptoms, consistent with pathological findings. In contrast, families with early onset showed higher penetrance, concentration in endemic foci, predominant loss of superficial sensation, severe autonomic dysfunction. Demyelinating versus axonal phenotypes are major issues in CMT. CMT1A duplication caused mainly demyelinating phenotype, while axonal features were variably present. In CMT1B, two distinctive phenotypic subgroups were present: one showed exclusively axonal features; and another was exclusively demyelinating. CMTX showed intermediate slowing of MCV, predominantly axonal features, and relatively mild demyelinating pathology. Differing from CMT1B, these axonal and demyelinating features were concomitantly present in individual patients in variable extent. Median nerve MCVs were well maintained independently of age, disease duration, and severity of clinical and pathologic abnormalities. Amplitude of CMAPs was correlated significantly with distal muscle strength, indicating that clinical weakness results from reduced numbers of functional large axons, not from demyelination. CMT patients with demyelinating and/or axonal features, together with FAP patients with axonal feature and scattered distribution, are supposed to increase according to the development of genetic diagnosis for hereditary neuropathy that verifies late-onset, de novo and asymptomatic patients.
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PMID:[Clinical phenotype of Charcot-Marie-Tooth disease (CMT) and familial amyloid polyneuropathy (FAP)]. 1515 60

Charcot-Marie-Tooth disease is a clinically and genetically heterogeneous group of inherited neuropathies. The common clinical symptoms include distal muscle weakness, wasting and impaired distal sensation, more in the legs than in the arms, and reduced or absent reflexes. Moreover, foot and hand deformities are often encountered. A distinction between a primarily demyelinating or axonal neuropathy is often possible by means of nerve conduction studies. The major groups of inheritance are the autosomal dominant CMT1 (demyelinating), CMT2 (axonal) and the X-linked type (CMTX), but there are also autosomal recessive demyelinating (CMT4) and axonal (AR-CMT2) forms. The number of genes and loci is steadily increasing, with genes encoding proteins involved in myelin maintenance and axonal function, but also with genes encoding proteins, the function of which in peripheral nerve maintenance is notyet clear. Despite the increase in the number of known genes, especially for CMT2, there are many patients in whom no mutation can yet be found.
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PMID:[From gene to disease; Charcot-Marie-Tooth disease or the hereditary motor and sensory neuropathies]. 1603 95

Inherited neuropathies are clinically and genetically heterogeneous. At least 28 genes and 12 loci have been associated with Charcot-Marie-Tooth disease (CMT) and related inherited neuropathies. Most causes of inherited neuropathy have been discovered by positional cloning technique and in the past two years, the pace of CMT gene discovery has accelerated. Genetic studies have revealed the following gene mutations as the causes of inherited neuropathies; PMP22, MPZ, EGR2, SOX10, SIMPLE/LITAF, ARHGEF10 for CMT1 (autosomal dominant demyelinating form); GDAP1, MTMR2, SBF2/MTMR13, KIAA1985, NDRG1 PRX for CMT4 (autosomal recessive demyelinating form), MFN2, KIF1B, RAB7, GARS, NEFL, HSPB1, HSPB8 for CMT2 (autosomal dominant axonal form); LMNA, GAN1, KCC3, TDP1, APTX, SETX for AR-CMT2 (autosomal recessive axonal form); GIB1 for CMTX (X-linked CMT); DNM2 for CMT-DI (autosomal dominant CMT with intermediate nerve conduction velocities); and DHH for minifascicular neuropathy. These discovered CMT causing genes/proteins include those which show unpredictable correlations with the peripheral nervous system. However, these genes/proteins are definitely important for the peripheral nerve, and their discovery should pave the way for dramatic progress in the understanding of peripheral nerve biology. On the other hand, genotype-phenotype correlations of these genes are also important in order to understand the pathomechanisms of inherited neuropathy. Because, based on mutation studies, a large number of genes associated with both the CMT1/4 and CMT2 forms have been identified, it is usually difficult to predict the causative gene based on clinical information from patients without specific complications. To clarify the specific features and molecular mechanisms of five diseases that we previously reported, we reviewed recent progress in HMSN-P linked to chromosome 3, CMT4F caused by PRX, CMT4A caused by GDAP1, CMT4B2 caused by SBF2/MTMR13, and SCAN1 caused by TDP1. HMSN-P is characterized by late onset, proximal dominant severe muscle weakness, fasciculations, muscle cramp and sensory involvement. HMSN-P is a primary neuronopathy. Mutations in periaxin are associated with a broad spectrum of demyelinating neuropathies including DSS, a sensory dominant form and early onset slowly progressive CMT. Pathologically, loss of myelinated fibers, demyelination, small onion bulb formations, tomacula formation and myelin foldings were seen in sural nerves. Absence of septate like junction in the paranodal loop suggests that periaxin could be required for the adhesion complex. GDAP1 is a relatively common cause of CMT4. Half of reported patients showed the demyelinating form, while the rest showed the axonal form. The typical feature of CMT4A is paresis of the vocal cords and diaphragm. CMT4B2 is characterized by autosomal recessive, juvenile onset glaucoma and focally folded myelin in sural nerves. SBF2/MTMR13 mutations cause CMT4B2. Early onset glaucoma was seen in patients with nonsense mutations. SBF2/MTMR13 and MTMR2, which is the cause of CMT4B1, could be acting on the same 3-phosphoinositide signaling pathway. Clinical phenotypes of patients with TDP1, APTX, or SETX mutations share common clinical findings, namely cerebellar ataxia and axonal neuropathy. TDP1 and aprataxin both act on the single strand break repair pathway, with TDP1 working specifically on topoisomerase I related SSBR. Senataxin is a RNA helicase acting on RNA maturation and termination in yeast. Since these three proteins share a common pathway, disruption in any of them could induce a delay in the transcription process. The low rate of protein supply could lead to deaths of large neuronal cells.
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PMID:[Molecular genetics of inherited neuropathies]. 1654 90

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