Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 covers a group of genetically determined disorders that cause progressive weakness and wasting of the skeletal muscles. Dysferlin was identified as a gene mutated in limb-girdle muscular dystrophy (type 2B) and Miyoshi myopathy. The discovery of dysferlin revealed a new family of proteins, known as the ferlin family, which includes four different genes. Recent work suggests the function of dysferlin in membrane repair and demonstrates that defective membrane repair is a novel mechanism of muscle degeneration. These findings reveal the importance of a basic cellular function in skeletal muscle and a new class of muscular dystrophy where the defect lies in the maintenance, not the structure, of the plasma membrane. Here, we discuss the current knowledge of dysferlin function in the repair of the plasma membrane of the skeletal muscle cells.
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PMID:Dysferlin and the plasma membrane repair in muscular dystrophy. 1506 38

Miyoshi myopathy is characterized by weakness of the calf muscles during early adulthood. We report a case of late-onset Miyoshi myopathy presenting at 48 years of age, with novel mutations in the dysferlin gene. Muscle computed tomography clearly revealed severe atrophy in the soleus and medial gastrocnemius muscles. Even older patients with atrophy in the posterior compartment of the distal lower extremities and a relatively high serum creatine kinase level should be examined for the dysferlin gene.
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PMID:Novel dysferlin mutations and characteristic muscle atrophy in late-onset Miyoshi myopathy. 1511 77

A 57-year-old woman first noticed difficulty in walking at the age of 34 years, and since then muscle wasting and weakness in the lower limbs and proximal portion of the upper limbs had progressed slowly. Serum CK was elevated. Immunohistochemical study of the biceps brachii muscle showed deficiency of dysferlin in sarcolemma, and the dysferlin gene analysis disclosed 3370 G-->T missense mutation. These findings led us to diagnose her as LGMD2B. Moreover echocardiogram revealed ventricular enlargement and diffuse hypokinesia suggesting secondary cardiomyopathy atributable to muscular dystrophy. Careful cardiac monitoring should be carried out in dysferlinopathy patients.
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PMID:[A patient with limb girdle muscular dystrophy type 2B (LGMD2B) manifesting cardiomyopathy]. 1529 63

Limb girdle muscular dystrophies (LGMDs) are a genetically heterogeneous group of primary myopathies involving progressive weakness and wasting of the muscles in the hip and shoulder girdles, with distal spread to the bulbar or respiratory musculature in rare cases. Depending on the mode of genetic transmission, six autosomal dominant forms (LGMD1A-F, 10-25%) and ten autosomal recessive forms (LGMD2A-J, 75-90%) are currently known. The prevalence of LGMDs is 0.8/100,000. These conditions are caused by mutations in genes encoding for myotilin (5q31, LGMD1A), lamin A/C (1q11-q21.2, LGMD1B), caveolin-3 (3p25, LGMD1C), unknown proteins (7q, LGMD1D, 6q23, LGMD1E, 7q32.1-32.2., LGMD1F), calpain-3 (15q15.1-21.1, LGMD2A), dysferlin (2p13.3-13.1, LGMD2B), gamma-sarcoglycan (13q12, LGMD2C), alpha-sarcoglycan, also known as adhalin (17q12-q21.3, LGMD2D), beta-sarcoglycan (4q12, LGMD2E), delta-sarcoglycan (5q33-q34, LGMD2F), telethonin (17q11-q12, LGMD2G), E3-ubiquitin ligase (9q31-q34.1, LGMD2H), fukutin-related protein (19q13.3, LGMD2I), and titin (2q31, LGMD2J). Cardiac involvement has been described for LGMD1B-E, LGMD2C-G, and LGMD2I. The time of onset varies between early childhood and middle age. There is no male or female preponderance. Disease progression and life expectancy vary widely, even among different members of the same family. The diagnosis is based primarily on DNA analysis. The history, clinical neurological examinations, blood chemistry investigations, electromyography, and muscle biopsy also provide information that is helpful for the diagnosis. No causal therapy is currently available.
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PMID:[Limb girdle muscular dystrophies]. 1531 18

We report a 40-year-old man who noticed difficulty in standing on his tiptoe from approximately 36 years-old. He presented with selective calf muscle weakness on flexion. The serum creatine kinase (CK) level slightly increased to 569IU/l. Muscle computed tomography (CT) revealed selective gastrocnemius and soleus muscle atrophy with fat tissue replacement. A biopsy of the left gastrocnemius muscle revealed a marked variation in muscle fiber size and some necrotic and regenerating fibers. Immunohistochemical analysis using an anti-dysferlin antibody showed a faint and irregular immunostaining of the muscle surface membrane and abnormal immunoreactive depositions in the cytoplasm, although normal dysferlin content was detected by Western blotting. The sequence analysis of all exons of the dysferlin gene revealed no responsible mutations. The case had clinical and pathological findings similar to those of Miyoshi myopathy. The present study indicates that there may be a secondary abonormality of dysferlin derived from some other factors in patients with clinical and pathological findings similar to those of Miyoshi myopathy. The mechanism of dysferlin expression should be elucidated to obtain a conclusive pathogenetic mechanism underlying this disorder.
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PMID:[A patient with distal muscular dystrophy without mutations in dysferlin gene but with abnormal dysferlin localization in muscle fibers]. 1556 88

Dysferlinopathy and rigid spine syndrome occurring in a 50-year-old man is reported. The patient noticed stiffness of knee and ankle joints, which gradually extended to neck, wrist and elbow joints leading to difficulty in anterior flexion. Muscular weakness and wasting of the lower extremities had developed since age 40, accompanied by a limitation of anterior bending of the spine. Elevated serum CK was noticed. Muscle CT revealed atrophy with moderate fatty replacement of muscles in the neck, shoulder and pelvic girdle, and marked replacement in the para-vertebral muscles, posterior compartment of hamstrings and calf muscles. Electromyography showed a typical myogenic pattern, and muscle biopsy disclosed dystrophic changes, compatible with limb-girdle muscular dystrophy 2B. Loss of dysferlin expression was verified by immunohistochemistry, which was confirmed by a mini-multiplex Western blotting system. Gene analyses of the dysferlin gene disclosed compound heterozygotes for frameshift (G3016 + 1A) and a missense mutation (G3370T). This study might propose some clues to resolve the combination of musular dystrophies and rigid spine syndrome.
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PMID:Dysferlinopathy associated with rigid spine syndrome. 1564 96

A 30 year-old man with CFTD was reported. He had normal motor milestone during infancy but had been poor at sports. At 28, he experienced exertional and nocturnal dyspnea and had been diagnosed as having dilated cardiomyopathy. At 29, a cardiac pace-maker was implanted because of the complete atrio-ventricular block. Around that time, he began to notice limb muscle weakness. Examination at 30 showed mild diffuse muscle atrophy and weakness at the torso and limbs. No dysmorphic features or joint contractures were noted. His serum CK was normal. A histochemical study of his muscle biopsy showed type 1 fiber predominancy (64.6%) and that the mean diameter of type 1 fibers was smaller than that of type 2 by 14.6% (36.9 microm vs. 42.3 microm). Results of immunostaining of dystrophin, emerin, laminA/C, alpha, beta, gamma, delta-sarcoglycan or dysferlin were normal. He was diagnosed as having CFTD because there were no histochemical abnormalities which characterize other congenital myopathies except for the type 1 predominancy and atrophy.
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PMID:[An adult case of congenital fiber type disproportion (CFTD) with cardiomyopathy]. 1596 Jan 77

The muscular dystrophies are a heterogeneous group of inherited disorders characterized by progressive muscle wasting and weakness. These disorders present a large clinical variability regarding age of onset, patterns of skeletal muscle involvement, heart damage, rate of progression and mode of inheritance. Difficulties in classification are often caused by the relatively common sporadic occurrence of autosomal recessive forms as well as by intrafamilial clinical variability. Furthermore recent discoveries, particularly regarding the proteins linking the sarcolemma to components of the extracellular matrix, have restricted the gap existing between limb girdle (LGMD) and congenital muscular dystrophies (CMD). Therefore a renewed definition of boundaries between these two groups is required. Molecular genetic studies have demonstrated different causative mutations in the genes encoding a disparate collection of proteins involved in all aspects of muscle cell biology. These novel skeletal muscle genes encode highly diverse proteins with different localization within or at the surface of the skeletal muscle fibre, such as the sarcolemmal muscle membrane (dystrophin, sarcoglycans, dysferlin, caveolin-3), the extracellular matrix (alpha2 laminin, collagen VI), the sarcomere (telethonin, myotilin, titin, nebulin and ZASP), the muscle cytosol (calpain-3, TRIM32), the nucleus (emerin, lamin A/C) and the glycosilation pathway enzymes (fukutin and fukutin related proteins). The accumulating knowledge about the role of these different proteins in muscle pathology has led to a profound change in the original phenotype-based classification and shed new light on the molecular pathogenesis of these disorders.
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PMID:Molecular etiopathogenesis of limb girdle muscular and congenital muscular dystrophies: boundaries and contiguities. 1600 60

Dysferlin is expressed in skeletal and cardiac muscles. However, dysferlin deficiency results in skeletal muscle weakness, but spares the heart. We compared intraindividual mRNA expression profiles of cardiac and skeletal muscle in dysferlin-deficient SJL/J mice and found down-regulation of the complement inhibitor, decay-accelerating factor/CD55, in skeletal muscle only. This finding was confirmed on mRNA and protein levels in two additional dysferlin-deficient mouse strains, A/J mice and Dysf-/- mice, as well as in patients with dysferlin-deficient muscular dystrophy. In vitro, the absence of CD55 led to an increased susceptibility of human myotubes to complement attack. Evidence is provided that decay-accelerating factor/CD55 is regulated via the myostatin-SMAD pathway. In conclusion, a novel mechanism of muscle fiber injury in dysferlin-deficient muscular dystrophy is demonstrated, possibly opening therapeutic avenues in this to date untreatable disorder.
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PMID:Increased susceptibility to complement attack due to down-regulation of decay-accelerating factor/CD55 in dysferlin-deficient muscular dystrophy. 1623 20

Duchenne/Becker and limb-girdle muscular dystrophies share clinical symptoms like muscle weakness and wasting but differ in clinical presentation and severity. To get a closer view on the differentiating molecular events responsible for the muscular dystrophies, we have carried out a comparative gene expression profiling of hindlimb muscles of the following mouse models: dystrophin-deficient (mdx, mdx(3cv)), sarcoglycan-deficient (Sgca null, Sgcb null, Sgcg null, Sgcd null), dysferlin-deficient (Dysf null, SJL(Dysf)), sarcospan-deficient (Sspn null), and wild-type (C57Bl/6, C57Bl/10) mice. The expression profiles clearly discriminated between severely affected (dystrophinopathies and sarcoglycanopathies) and mildly or nonaffected models (dysferlinopathies, sarcospan-deficiency, wild-type). Dystrophin-deficient and sarcoglycan-deficient profiles were remarkably similar, sharing inflammatory and structural remodeling processes. These processes were also ongoing in dysferlin-deficient animals, albeit at lower levels, in agreement with the later age of onset of this muscular dystrophy. The inflammatory proteins Spp1 and S100a9 were up-regulated in all models, including sarcospan-deficient mice, which points, for the first time, at a subtle phenotype for Sspn null mice. In conclusion, we identified biomarker genes for which expression correlates with the severity of the disease, which can be used for monitoring disease progression. This comparative study is an integrating step toward the development of an expression profiling-based diagnostic approach for muscular dystrophies in humans.
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PMID:Common pathological mechanisms in mouse models for muscular dystrophies. 1630 63


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