Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1762617 (weakness)
 37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Muscular dystrophy is defined as "a group of hereditary disorders with the major symptom of progressive muscle weakness due to muscle fiber degeneration and necrosis". After the discovery of the dystrophin gene and the gene product for Duchenne muscular dystrophy in 1986, there has been remarkable progress in the differential diagnosis and in understanding the pathogenetic mechanism of muscle fiber necrosis. With discoveries of genes responsible for many other disorders, the classification of muscular dystrophy has become more complicated; for instance, there are at least 15 diseases in the limb-girdle muscular dystrophy (LGMD) group, including the autosomal dominant forms, LGMD1A-1E and the recessive forms, LGMD2A-2I. Among them, gene defects in the sarcoglycan complex (sarcoglycanopathy) have been added to LGMD2C-2F. Sarcoglycanopathy seems to be rare in Japan since only 6-7% of LGMD patients had this defect. There are two major possible strategies in treating these patients. One is gene therapy, which is recently being investigated in the mdx mouse by using adenovirus-associated virus (AAV) vector inserted with a microdystrophin gene. Dr Takeda has reported favorable results in mdx mouse muscle with this method. Another is regeneration therapy using stem cells. There are many barriers to overcome to treat patients with stem cells isolated from bone marrow. The most difficult problem to solve is how to culture the stem cells to increase their numbers for application and how to introduce the normal dystrophin gene into these cells.
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PMID:[Muscular dystrophy: advances in research works and therapeutic trials]. 1565 26

Mutations in the fukutin-related protein (FKRP) have recently been demonstrated to cause limb girdle muscular dystrophy type 2I (LGMD2I), one of the most common forms of the autosomal recessive LGMDs in Europe. We performed a systematic clinical and muscle MRI assessment in 6 LGMD2I patients and compared these findings with those of 14 patients with genetically confirmed diagnosis of other forms of autosomal recessive LGMDs or dystrophinopathies. All LGMD2I patients had a characteristic clinical phenotype with predominant weakness of hip flexion and adduction, knee flexion and ankle dorsiflexion. These findings were also mirrored on MRI of the lower extremities which demonstrated marked signal changes in the adductor muscles, the posterior thigh and posterior calf muscles. This characteristic clinical and MRI phenotype was also seen in LGMD2A. However, in LGMD2A there was a selective involvement of the medial gastrocnemius and soleus muscle in the lower legs which was not seen in LGMD2I. The pattern in LGMD2A and LGMD2I were clearly different from the one seen in alpha-sarcoglycanopathy and dystrophinopathy type Becker which showed marked signal abnormalities in the anterior thigh muscles. Our results indicate that muscular MRI is a powerful tool for differentiating LGMD2I from other forms of autosomal recessive LGMDs and dystrophinopathies.
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PMID:Diagnostic value of muscle MRI in differentiating LGMD2I from other LGMDs. 1572 52

Limb gird muscular dystrophies (LGMD2) are a clinically and genetically heterogeneous group of hereditary diseases with autosomal recessive trait, characterized by progressive atrophy and weakness predominantly in the proximal limb muscles. The authors present clinical, histological, immunohistochemical and immunoblot results of two sisters suffering from so far unclassified autosomal recessive limb girdle muscular dystrophy. Haplotype analysis for genes possibly involved in autosomal recessive limb girdle muscular dystrophies was performed in the genetically informative family. All of the results pointed to a molecular genetic defect of the calpain-3 (CAPN3) gene. Direct sequencing of the CAPN3 gene revealed compound heterozygous state for two mutations previously described in association with limb girdle muscular dystrophy, proving pathogenicity. The authors would like to emphasize the importance of the above described combined strategy in diagnosing limb girdle muscular dystrophies.
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PMID:[Calpain-3 gene defect causing limb gird muscular dystrophy in a Hungarian family]. 1588 99

Diagnosis of limb girdle muscular dystrophy type 2A can be complex due to phenotypic variability, lack of precision of protein analysis in muscle biopsies, and absence of mutational hot spots in the CAPN3 gene. The aim of this study was to review clinical and biopsy data from a group of patients with known CAPN3 genetic status to validate and refine our current diagnostic strategy, which combines clinical information and protein analysis to direct gene testing. We analysed 85 patients in whom CAPN3 gene sequencing had been performed. Forty-two patients had two mutations, 15 a single mutation and in 28 no mutation was found. We identified clinical features that clearly discriminated the LGMD2A patients. These were: presence of scapular winging, contractures and normal respiratory function. In addition, a typical pattern of muscle weakness on manual muscle testing could be confirmed. Interpretation of protein expression obtained by Western blot was complex and involved the analysis of a number of bands detected by two antibodies for calpain 3. Loss of all calpain 3 bands was 100% specific for LGMD2A, but this pattern was found in only 23%. Absence or reduction of the approximately 60 kDa bands was also highly specific for LGMD2A, while increased abundance was highly predictive of no mutations being found even where other bands were reduced, suggesting that this is the most sensitive marker of artefactual protein degradation. Twenty-three percent of the patients with two mutations had normal full-sized calpain 3 protein, consistent with the finding of mutations localized in parts of the gene likely or proven to be involved in autolytic activity. Clinical and biochemical findings in patients with only one mutation were similar to patients with two mutations, indicating that other gene analysis techniques should be used before excluding the diagnosis. Our analysis confirms that our strategy is still valid to prioritize genetic testing in this complex group of patients, provided patients with normal protein but a suggestive clinical phenotype are not excluded from genetic testing.
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PMID:Analysis of the UK diagnostic strategy for limb girdle muscular dystrophy 2A. 1805 93

Calpainopathy is an autosomal-recessive limb girdle muscular dystrophy (LGMD2A) characterized by selective atrophy and weakness of proximal limb girdle muscles. The clinical phenotype of the disease is highly variable inter-familial, but little is known about intra-familial variability. This study reports the phenotypic variability in eight sibling pairs with genetically proven LGMD2A. Although siblings with identical mutations were often similarly affected, in some families the age of onset and the clinical course varied considerably.
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PMID:Phenotypic variability in siblings with calpainopathy (LGMD2A). 1936 62

Limb-girdle muscular dystrophy (LGMD) is a genetically heterogeneous group of inherited muscular disorders manifesting symmetric, proximal, and slowly progressive muscle weakness. Using Affymetrix 250K SNP Array genotyping and homozygosity mapping, we mapped an autosomal-recessive LGMD phenotype to the telomeric portion of chromosome 8q in a consanguineous Turkish family with three affected individuals. DNA sequence analysis of PLEC identified a homozygous c.1_9del mutation containing an initiation codon in exon 1f, which is an isoform-specific sequence of plectin isoform 1f. The same homozygous mutation was also detected in two additional families during the analysis of 72 independent LGMD2-affected families. Moreover, we showed that the expression of PLEC was reduced in the patient's muscle and that there was almost no expression for plectin 1f mRNA as a result of the mutation. In addition to dystrophic changes in muscle, ultrastructural alterations, such as membrane duplications, an enlarged space between the membrane and sarcomere, and misalignment of Z-disks, were observed by transmission electron microscopy. Unlike the control skeletal muscle, no sarcolemmal staining of plectin was detected in the patient's muscle. We conclude that as a result of plectin 1f deficiency, the linkage between the sarcolemma and sarcomere is broken, which could affect the structural organization of the myofiber. Our data show that one of the isoforms of plectin plays a key role in skeletal muscle function and that disruption of the plectin 1f can cause the LGMD2 phenotype without any dermatologic component as was previously reported with mutations in constant exons of PLEC.
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PMID:Mutation in exon 1f of PLEC, leading to disruption of plectin isoform 1f, causes autosomal-recessive limb-girdle muscular dystrophy. 2110 28

Infancy- or childhood-onset muscular dystrophies may be associated with profound loss of muscle function, affecting ambulation, posture, cardiac and respiratory functions, while those of late onset may be mild and associated with slight weakness or fatigability induced by effort. In addition to the distribution of muscle weakness, symptoms, and course of the disease, the diagnosis of muscular dystrophy is usually ascertained by histological findings. There is connective tissue proliferation in the perimysium and endomysium, variation in muscle fiber size, cytoarchitectural alterations of myofibers such as internal nuclei, myofibrillar whorls, and fiber splitting and lobulation, but, most of all, degeneration and regeneration of myofibers. Causes of muscular dystrophies characterized by muscle weakness and wasting are heterogeneous and include dysfunction of diverse genetic pathways and genes encoding proteins of the plasma membrane, extracellular matrix, sarcomere, and nuclear membrane components. Duchenne and Becker muscular dystrophies are prototypes illustrating advances in the field of myology. Limb-girdle muscular dystrophies (LGMDs) are clinically and genetically heterogeneous, some with autosomal dominant (LGMD1) and others with autosomal recessive (LGMD2) inheritance. Neither clinical and genetic grounds nor biopsy patterns are specific enough to distinguish them, but two common denominators are: (1) weakness and wasting predominating in pelvic and shoulder girdle muscles, with occasional involvement of the myocardium; and (2) necrosis and regeneration of myofibers. While identification of genetic causes and molecular diagnosis are increasingly improved, especially with the advent of new generation sequencing technologies, optimized care, information for the family, and prevention, including genetic counseling and prenatal diagnosis, require multidisciplinary follow-up with genetic, pediatric, and psychological involvement.
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PMID:Progressive muscular dystrophies. 2362 59

Limb-Girdle Muscular Dystrophy type 2A (LGMD2A) is an autosomal recessive disorder characterized by progressive weakness of proximal muscles. Here, we describe a patient with clinical features consistent with LGMD2A who harbors 2 rare changes in the CAPN3 gene sequence of unknown clinical significance. Mechanisms by which these 2 mutations could affect the protein are discussed. The c.C479G mutation seems to affect the proteolytic domain of calpain-3. Whereas the novel mutation c.G1818A seems to affect mRNA translation of the protein region involved in titin binding. We strongly believe that these genomic variants in CAPN3 are indeed deleterious and thus are currently misclassified. Since LGMD2 is considered a disorder of autosomal recessive inheritance, further population studies involving the molecular characterization of symptomatic patients must be performed as well as in vitro studies to ascertain the functional effects of these specific variants.
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PMID:Limb-Girdle Muscular Dystrophy Type 2A Resulting From c.C479G and c.G1818A Mutations in the Calpain-3 Gene. 2658 91

Autosomal recessive limb girdle muscular dystrophies (LGMD2) are a group of genetically heterogeneous diseases that are typically characterised by progressive weakness and wasting of the shoulder and pelvic girdle muscles. Many of the more than 20 different conditions show overlapping clinical features with other forms of muscular dystrophy, congenital, myofibrillar or even distal myopathies and also with acquired muscle diseases. Although individually extremely rare, all types of LGMD2 together form an important differential diagnostic group among neuromuscular diseases. Despite improved diagnostics and pathomechanistic insight, a curative therapy is currently lacking for any of these diseases. Medical care consists of the symptomatic treatment of complications, aiming to improve life expectancy and quality of life. Besides well characterised pre-clinical tools like animal models and cell culture assays, the determinants of successful drug development programmes for rare diseases include a good understanding of the phenotype and natural history of the disease, the existence of clinically relevant outcome measures, guidance on care standards, up to date patient registries, and, ideally, biomarkers that can help assess disease severity or drug response. Strong patient organisations driving research and successful partnerships between academia, advocacy, industry and regulatory authorities can also help accelerate the elaboration of clinical trials. All these determinants constitute aspects of translational research efforts and influence patient access to therapies. Here we review the current status of determinants of successful drug development programmes for LGMD2, and the challenges of translating promising therapeutic strategies into effective and accessible treatments for patients.
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PMID:Where do we stand in trial readiness for autosomal recessive limb girdle muscular dystrophies? 2681 Mar 73

The limb-girdle muscular dystrophies (LGMDs) encompass a collection of genetic muscle diseases with proximal-predominant weakness of the limbs. Thirty-two of these disorders are named via the common nomenclature, including 8 autosomal-dominant (LGMD1A-H) and 24 autosomal-recessive (LGMD2A-X) disorders.(1) In addition, numerous other genetic muscle diseases, including Bethlem myopathy, dystrophinopathies, ryanodine receptor-associated myopathies, and many more, may clinically present with similar proximal-predominant weakness.(2) Therefore, current genetic testing panels targeting neuromuscular weakness frequently encompass >75 genes. These disorders are quite rare, each with minimum prevalence estimates of 0.01-0.60 cases per 100,000 persons.(3) LGMD2A (attributable to mutations in the gene for calpain-3) and LGMD2B (attributable to mutations in the gene for dysferlin) consistently are the 2 most prevalent LGMD subtypes in a variety of ethnic cohorts.
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PMID:Rare disease clinical trials: Power in numbers. 2754 May 92


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