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)

Proximal spinal muscular atrophy (SMA) is a common autosomal recessive neuromuscular disorder characterized by degeneration of anterior horn cells in the spinal cord leading to weakness and wasting of voluntary muscles. Here we present the molecular analysis of both SMA candidate genes, the survival motor neuron gene (SMN; exons 7 and 8) and the neuronal apoptosis inhibitory protein gene (NAIP; exons 5, 6 and 13), in 195 patients and 348 parents of SMA families mainly of German origin. The SMN gene is homozygously deleted for both exons 7 and 8 or exon 7 only in 96% of type I SMA, 94% of type II SMA and 82% of type III SMA as well as in 0.3% of SMA parents. The NAIP gene is homozygously deleted in 46% of type I SMA, 17% of type II SMA, 7% of type III SMA and 2% of SMA parents. The frequencies of deletions in patients for both genes, SMN and NAIP, correspond to those for the NAIP gene only. SMA patients of this series who did not show deletions were clinically indistinguishable from deleted patients. In addition to one unaffected mother of a type II SMA patient, we found homozygous deletions of the SMN gene exons 7 and 8 in six further unaffected individuals, all sibs of type II and III patients. These belonged to four families with affected and unaffected sibs who showed identical haplotypes for all SMA flanking markers; therefore, we had regarded these families as chromosome 5 unlinked. All seven unaffected individuals in whom we detected SMA deletions do not show any signs of muscle weakness and are physically inconspicuous. The largest divergence between age at onset of an affected subject and the present age of unaffected deleted sibs is four decades now. The occurrence of SMN deletions in unaffected individuals suggests that other genes or mechanisms may be necessary to produce the SMA phenotype.
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PMID:Molecular analysis of candidate genes on chromosome 5q13 in autosomal recessive spinal muscular atrophy: evidence of homozygous deletions of the SMN gene in unaffected individuals. 859 17

Three type III spinal muscular atrophy (SMA) families are described in which the same deletion pattern for SMN gene and flanking loci is apparent in both affected and unaffected siblings. Deletions extending to include the NAIP gene are reported in one sibship. All three individuals in which SMN and/or NAIP deletions were detected showed the same haplotypes for SMA linked microsatellite markers as their affected sibs. The three index cases had a SMA III with early onset (1.5-2 yr) and became chairbound at the age 4, 5 and 20 yr. The three haploidentical sibs were given a clinical severity score. One of them showed no sign of the disease at the age of 4 yr and was considered "unaffected"; a 35-yr-old female, who had no symptoms but showed tongue fasciculations and hand tremor was considered "asymptomatic"; a 34-yr-old female, who had mild muscular weakness since the age of 24, was rated "mild". These observations demonstrate the presence of a continuum of clinical variability within SMA III families. These data suggest that, in these three families at least, the SMA phenotype is caused or influenced by another gene(s) additional to SMN.
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PMID:Discordant clinical outcome in type III spinal muscular atrophy sibships showing the same deletion pattern. 888 55

Progressive proximal muscle weakness is present both in spinal muscular atrophy (SMA) type III (Kugelberg-Welander disease) and in GM2 gangliosidosis, diseases that segregate in an autosomal recessive fashion. The SMN gene for SMA and the HEXA gene for GM2 gangliosidosis were investigated in a woman with progressive proximal muscle weakness, long believed to be SMA type III (Kugelberg-Welander type). She and her family underwent biochemical studies for GM2 gangliosidosis. Analysis of SMN excluded SMA. Biochemical studies on GM2 gangliosidosis showed deficiency in hexosaminidase A activity and increased GM2 ganglioside accumulation in the patient's fibroblasts. The HEXA gene was first analyzed for the Gly269-->Ser mutation characteristic for adult GM2 gangliosidosis. Since the patient was carrying the adult mutation heterozygously, all 14 exons and adjacent intron sequences were analyzed. A novel mutation in exon 1 resulting in an A-to-T change in the initiation codon (ATG to TTG) was identified. The adult patient is a compound heterozygote, with each allele containing a different mutation. Although mRNA was transcribed from the novel mutant allele, expression experiments showed no enzyme activity, suggesting that neither the TTG nor an alternative codon serve as an initiation codon in the HEXA gene.
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PMID:Juvenile-onset spinal muscular atrophy caused by compound heterozygosity for mutations in the HEXA gene. 915 25

We present a father and son with congenital foot deformity. The father at age 41 years used crutches and the son at 7 years walked unaided. Both had atrophy and weakness of lower leg muscles and mild proximal and hand intrinsic weakness. Knee and ankle myotactic reflexes were absent and sensation was intact. Creatine kinase level was normal, nerve conduction studies wer normal and electromyography showed chronic neurogenic change. In both, nerve biopsies were normal and muscle biopsies showed type 1 predominance. The boy's serum hexosaminidase, spinal MRI and SMN gene were normal. This may be the first well documented example of congenital autosomal dominant distal spinal muscular atrophy affecting legs and arms.
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PMID:Congenital autosomal dominant distal spinal muscular atrophy. 971 59

Spinal muscular atrophy is a common cause of disability in childhood and is characterized by weakness and wasting of voluntary muscle. It is frequently fatal. The gene for this disorder has been identified as the SMN gene and is part of a highly complex duplicated region of chromosome 5 that is subject to a high rate of gene deletion and gene conversion. The severity of muscle weakness correlates with the amount of full-length SMN protein produced. Molecular genetic studies support a model in which patients are compound heterozygotes of deleted and converted alleles that predicts a progressively decreasing amount of protein product with severity of muscle weakness. The function of SMN is beginning to be understood and it appears to be involved in ribonucleoprotein biogenesis and thus indirectly in post-transcriptional processing of mRNA. There are theoretical grounds for motor neurons having a cell-specific vulnerability to disturbances of mRNA processing and transport and these are briefly reviewed.
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PMID:Spinal muscular atrophy. 1040 86

Spinal muscular atrophy (SMA) is an autosomal recessive disorder occurring at a rate of between 1/5,000 and 1/10,000 births in most European countries. The phenotype results from the degeneration of the anterior horn cells of the spinal cord, resulting in symmetrical muscle weakness and wasting. The disorder can be classified according to the severity of the disease and the age of onset into three major types. Two candidate SMA genes, NAIP and SMN, isolated from the 5q13 region, have been reported to be homozygously deleted in approximately 30% and >95% of SMA patients, respectively. Black SMA patients have been reported to have facial muscle weakness more commonly. This study aimed to determine the molecular basis of SMA in South African black SMA patients. The SMN gene was found to be homozygously deleted in 65.5% (19/29) of patients, significantly less frequently than in previous studies. Similarly, the NAIP gene was homozygously deleted in a smaller number, 14% (4/29) of patients; 47% (9/19) of SMN deletion patients appeared to have deletions of telomeric exon 7, but not exon 8. In at least six of these patients a gene conversion event has occurred. No detectable deletions were found in 35% (10/29) of patients. Haplotype analysis in the nondeletion patients, using six closely linked markers, provided no evidence for a founder mutation. No mutations were found in exons 3 and intron 6 through exon 8 by sequence analysis of these nondeletion patients. It is proposed that the differences in the SMA phenotype observed in black patients may in part be explained by a different molecular basis.
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PMID:Different molecular basis for spinal muscular atrophy in South African black patients. 1050 82

The survival motor neuron gene is present in humans in a telomeric copy, SMN1, and several centromeric copies, SMN2. Homozygous mutation of SMN1 is associated with proximal spinal muscular atrophy (SMA), a severe motor neuron disease characterized by early childhood onset of progressive muscle weakness. To understand the functional role of SMN1 in SMA, we produced mouse lines deficient for mouse Smn and transgenic mouse lines that expressed human SMN2. Smn-/- mice died during the peri-implantation stage. In contrast, transgenic mice harbouring SMN2 in the Smn-/- background showed pathological changes in the spinal cord and skeletal muscles similar to those of SMA patients. The severity of the pathological changes in these mice correlated with the amount of SMN protein that contained the region encoded by exon 7. Our results demonstrate that SMN2 can partially compensate for lack of SMN1. The variable phenotypes of Smn-/-SMN2 mice reflect those seen in SMA patients, providing a mouse model for this disease.
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PMID:A mouse model for spinal muscular atrophy. 1061 30

Twenty-two patients (12 men, 10 women, age range 16 to 60) affected with an adult-onset, sporadic, lower motor neuron disease were studied. Motor weakness was associated with a severe muscular atrophy but never in a peripheral nerve distribution. Weakness predominated in the proximal parts of the limbs in 3 cases, in distal parts in 10 cases involving predominantly the upper limbs in 10. It was diffuse in all four limbs in six cases and was monomelic in the last 2 two others. Reflexes were generally lost in weak muscles. Electrodiagnostic findings consisted of pure motor axonal features, subtle sensory involvement was present in 3 cases with an IgM monoclonal gammopathy, in only one case the neurological syndrome was associated with a lymphoproliferative disorder despite complete investigations. All patients had dysimmune biological features (MGUS or anti-GM1 antibodies). We studied SMN gene in 12 patients and found no deletion. 16 patients were treated with IVIg and five improved but in 2 cases the improvement was transcient and lasted less than six months. Intravenous cyclophosphamide (1g/m(2) repeated monthly during 6 to 9 months) was used in six patients and three improved. Among these three patients two received also plasma exchanges on two days before the infusion. In all three patients, muscle weakness gradually deteriorated in the months following the end of the treatment. Nor the weakness pattern nor the type of biological marker was predictive of a good response to treatment. Lower motor neuron diseases appear to be much less sensitive to treatment than multifocal motor neuropathy with conduction block. However, treatment with IVIg or cyclophosphamide must be considered in the most severe forms or in case of a young onset.
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PMID:[Lower motor neuron disease and signs of dysimmunity]. 1079 14

We present the clinical and histopathological features of a child affected by diaphragmatic spinal muscular atrophy. The child was born with mild distal arthrogryposis, mild hypotonia and developed marked diaphragmatic and bulbar muscle weakness in the first week of life. Electrophysiological and pathological investigations performed at presentation were not conclusive, while the investigations performed at 3 months showed a clear neurogenic picture. Genetic studies excluded involvement of the SMN gene, or of other genes located on chromosome 5q, confirming that this syndrome represents a different entity from typical proximal spinal muscular atrophy.
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PMID:Diaphragmatic spinal muscular atrophy with bulbar weakness. 1081 87

Spinal muscular atrophy (SMA) is an autosomal recessive neuromuscular disease characterized by degeneration and loss of motor neurons of the anterior horn of the spinal cord. The clinical manifestations include proximal symmetric weakness and progressive atrophy of muscle. SMA is classified by age of onset, severity of symptoms, and evolution in three groups: type I, severe or Werdnig-Hoffmann disease, type II or intermediate and type III, moderate-mild, Kugelberg-Welander disease. The identification of the SMN1 gene as determinant of SMA opened new alternatives to study the disease. Most of the patients have deletions and conversion of SMN1 and in a small number of cases, point mutations were detected. There is no obvious genotype-phenotype correlation because homozygous absence of SMN1 was associated to a wide spectrum of manifestations from congenital disease to non symptomatic cases. Modifier factors, such as the number of copies of SMN2, could influence the phenotype. Other possible modifier genes are under study. The SMN gene is expressed in various neuronal populations. However, only motor neurons are responsible for the manifestations of the disease. The SMN protein is part of a complex with various proteins involved in the splicing reaction. This apparent essential function for all cells could be critical in motor neurons. When SMN1 is absent or dysfunctional, the motor neurons could be more sensitive because they have an increased transcription activity. In this situation, other cells and tissues could be protected by genetic or cellular factors still undiscovered.
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PMID:[Molecular basis of spinal muscular atrophy: th SMN gene]. 1119 46

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