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

---

Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A group of 44 monoclonal antibodies (mAbs) raised against the central helical rod (25 mAbs) and C-terminal (19 mAbs) regions of dystrophin were prepared using trpE recombinant fusion proteins as immunogens. Some mAbs cross-react with the structurally related proteins, alpha-actinin and utrophin. Epitope mapping revealed uneven distribution of mAb-binding sites, no mAbs being produced against the C-terminal end of the helical fragment or the cysteine-rich region of the C-terminal dystrophin fragment. The failure of these large regions of the recombinant immunogens to elicit anti-dystrophin antibodies may be because of their inability to fold into the correct dystrophin-like conformation. The mAbs were selected for their ability to recognize 427 kDa dystrophin on Western blots after SDS/PAGE, and/or for immunostaining of the membrane in frozen muscle sections. Although some mAbs obtained by Western-blot screening failed to bind native dystrophin in frozen muscle sections, successful binding could be obtained after SDS or urea treatment of the tissue section to expose the epitopes. This increases the range of mAbs available for detection of dystrophin deletions in muscular dystrophy and evaluation of myoblast therapy.
...
PMID:Monoclonal antibodies for dystrophin analysis. Epitope mapping and improved binding to SDS-treated muscle sections. 128 10

All previous studies of the localization of utrophin (the dystrophin-related protein) in muscle and other tissues have been performed only with antibodies against the C-terminal region of the protein. Since several short forms of dystrophin, the apo-dystrophins, are produced from the 3' end of the dystrophin gene, there is a possibility that similar short forms of utrophin exist and that these could be responsible for some of the many different localizations of 'utrophin' in muscle. We have produced a new panel of 15 mAbs against the N-terminal region of utrophin and we have used it together with mAbs against the C-terminal region to show that full-length utrophin is present at neuromuscular junctions, in nerves, blood vessels and capillaries in normal muscle and in the sarcolemma of patients with muscular dystrophy and dermatomyositis. However, two of the 15 mAbs also recognised rat/mouse utrophin and both of these detected an additional 62 kDa protein on Western blots of rat C6 glioma cells. This potential 62 kDa 'apo-utrophin' was not detected in human cerebral cortex, in rat Schwannoma cells nor in any of the non-nerve cells and tissues tested.
...
PMID:Full-length and short forms of utrophin, the dystrophin-related protein. 784 13

The 50-kd dystrophin-associated glycoprotein (50DAG or adhalin) in the skeletal muscle has been shown to be deficient in patients with severe childhood autosomal recessive muscular dystrophy prevalent in North Africa. To elucidate the frequency of patients having the 50DAG deficiency in a muscular dystrophy population in Japan, we immunocytochemically examined 50DAG, 43DAG, dystrophin, and utrophin. A total of 243 patients with muscular dystrophy, among 1,035 diagnostic muscle biopsies during the past 2.5 years, were analyzed. We identified five unrelated patients (three females and two males who have no family history) with 50DAG deficiency in the sarcolemma. Thus, 2.1% (5/243) of our muscular dystrophy patient population had 50DAG deficiency.
...
PMID:The frequency of patients with 50-kd dystrophin-associated glycoprotein (50DAG or adhalin) deficiency in a muscular dystrophy patient population in Japan: immunocytochemical analysis of 50DAG, 43DAG, dystrophin, and utrophin. 864 3

The expression of the 43 kDa dystrophin-associated glycoprotein (43DAG) has been studied using immunohistochemical labelling with a monoclonal antibody, MANDAG-1, and compared with immunolabelling for dystrophin and the dystrophin-related protein, utrophin, in normal muscle and in muscle from 50 patients with neuromuscular disease. 43DAG and dystrophin were expressed in vascular smooth muscle and at the sarcolemma of normal muscle fibres, with increased labelling at neuromuscular and myotendinous junctions. 43DAG expression was reduced in Duchenne and Becker dystrophies with patchy labelling, more intense around presumptive satellite cells. In Duchenne dystrophy, there was increased 43DAG expression in "revertant" fibres. In Becker dystrophy, 43DAG expression was more extensive around individual fibres, showed more interfibre variation and was more closely related to the intensity of immunolabelling for both dystrophin and utrophin than in Duchenne dystrophy. In other neuromuscular diseases, including congenital muscular dystrophy, no abnormalities of 43DAG expression were identified. The results suggest that in the absence of dystrophin, 43DAG is synthesized but is not stabilized in the sarcolemma. Stability is greater in Becker dystrophy but a normal dystrophin molecule appears to be required for the complete and stable membrane integration of 43DAG. Utrophin may confer some additional stability to the membrane integration of 43DAG but this is incomplete where dystrophin is absent or abnormal.
...
PMID:Expression of the 43 kDa dystrophin-associated glycoprotein in human neuromuscular disease. 801 91

Two male cousins with severe childhood, autosomal recessive, Duchenne-like, muscular dystrophy (SCARMD) have been identified with a deficiency of the 50 kDa dystrophin-associated glycoprotein but normal expression of dystrophin. Both boys were from consanguineous marriages and were Asian, having originated from Pakistan. This is in contrast to all previously reported cases from North Africa. Clinical severity varied and the patients were still able to walk at 13 and 12 yr, respectively. Neither had calf hypertrophy, a feature reported to be almost consistent in the North African patients. Abnormal expression of utrophin, the dystrophin-related protein, was observed on the surface of several non-regenerating muscle fibres, with less intense immunolabelling in the clinically more affected child. This family shows that SCARMD is not confined to North Africa and illustrates a hitherto unreported expression of utrophin in this condition.
...
PMID:Deficiency of the 50 kDa dystrophin-associated glycoprotein and abnormal expression of utrophin in two south Asian cousins with variable expression of severe childhood autosomal recessive muscular dystrophy. 801 92

To determine if dystrophin and dystrophin-associated glycoproteins (DAGs) are involved in muscle fiber necrosis in the dystrophic hamster, we examined NSJ-my/my (homozygous dystrophic) hamsters introduced from the BIO14.6 strain, by immunohistochemical and immunoblotting methods. Antibodies against dystrophin, utrophin and DAGs including 50DAG (A2), 43DAG (A3a) and 35DAG (A4) were employed for the examination. Dystrophin was stained strongly and utrophin stained very faintly along the sarcolemma of the dystrophic hamster, similar to the control. On the other hand, in the dystrophic hamster 50DAG (A2) and 35DAG (A4) were selectively defective, and 43DAG (A3a) was also decreased, although to a lesser degree. Since these results were almost identical to those seen in severe childhood autosomal recessive muscular dystrophy (SCARMD), the dystrophic hamster appears to be an animal model of SCARMD in which defects in DAGs may result in muscle fiber necrosis despite normal dystrophin expression.
...
PMID:Selective defect in dystrophin-associated glycoproteins 50DAG (A2) and 35DAG (A4) in the dystrophic hamster: an animal model for severe childhood autosomal recessive muscular dystrophy (SCARMD). 817 51

The first three exons of the human muscle dystrophin gene were expressed as a beta-galactosidase fusion protein. This protein was then used to prepare two monoclonal antibodies (mAbs) which react with native dystrophin on frozen muscle sections and with denatured dystrophin on western blots but which do not cross-react with the dystrophin-related protein, utrophin. Both mAbs recognized dystrophin in muscular dystrophy (MD) patients with deletions of exon 3, and further mapping with 11 overlapping synthetic peptides showed that they both recognize an epitope encoded by the muscle-specific exon 1. Neither mAb recognizes the brain dystrophin isoform, confirming the prediction from mRNA data that this has a different N-terminus. One Becker MD patient with a frameshift deletion of exons 3-7 is shown to produce dystrophin which reacts with the N-terminal mAbs, as well as with mAbs which bind on the C-terminal side of the deletion. The data suggest that transcription begins at the normal muscle dystrophin promoter and that the normal reading frame is restored after the deletion. A number of mechanisms have been proposed for restoration of the reading frame after deletion of exons 3-7, but those which predict dystrophin with an abnormal N-terminus do not appear to be major mechanisms in this patient.
...
PMID:Monoclonal antibodies against the muscle-specific N-terminus of dystrophin: characterization of dystrophin in a muscular dystrophy patient with a frameshift deletion of exons 3-7. 831 78

During the past year significant progress has been made in understanding how dystrophin deficiency leads to muscle cell necrosis in Duchenne muscular dystrophy and Becker muscular dystrophy. Dystrophin interacts with a glycoprotein complex spanning the muscle sarcolemma, effectively linking the actin cytoskeleton to the extracellular matrix. The carboxyl terminus of dystrophin is required for glycoprotein binding. Interestingly, at least three mRNAs transcribed from the distal end of the DMD gene in tissues other than muscle have been shown to encode this domain. Deficiency of a second component of the dystrophin-associated glycoprotein complex has been shown to occur in another muscle-wasting disorder, severe childhood autosomal recessive muscular dystrophy. Sequence analysis of the entire cDNA for the autosomal dystrophin-related protein utrophin has shown that dystrophin and utrophin are closely related. Furthermore, both of these proteins have been shown to bind to the same or a similar glycoprotein complex in muscle.
...
PMID:Dystrophin and related proteins. 835 25

Dystoroglycan is encoded by a single gene and cleaved into two proteins, alpha and beta-dystroglycan, by posttranslational processing. The 120kDa peripheral nerve isoform of alpha-dystroglycan binds laminin-2 comprised of the alpha 2, beta 1, and gamma 1 chains. In congenital muscular dystrophy and dy mice deficient in laminin alpha 2 chain, peripheral myelination is disturbed, suggesting a role for the dystroglycan- laminin interaction in peripheral myelinogenesis. To begin to test this hypothesis, we have characterized the dystroglycan-laminin interaction in peripheral nerve. We demonstrate that (1) alpha-dystroglycan is an extracellular peripheral membrane glycoprotein that links beta-dystroglycan in the Schwann cell outer membrane with laminin-2 in the endoneurial basal lamina, and (2) dystrophin homologues Dp116 and utrophin are cytoskeletal proteins of the Schwann cell cytoplasm. We also present data that suggest a role for glycosylation of alpha-dystroglycan in the interaction with laminin.
...
PMID:Characterization of dp6troglycan-laminin interaction in peripheral nerve. 862 7

Dystrophin serves a variety of roles at the cell membrane through its associations, and defects in the dystrophin gene can give rise to muscular dystrophy and genetic cardiomyopathy. We investigated localization of cardiac dystrophin to determine potential intracellular sites of association. Subcellular fractionation revealed that while the majority of dystrophin was associated with the sarcolemma, about 35% of the 427-kDa form of dystrophin was present in the myofibrils. The dystrophin homolog utrophin was detectable only in the sarcolemmal membrane and was absent from the myofibrils as were other sarcolemmal glycoproteins such as adhalin and the sodium-calcium exchanger. Extraction of myofibrils with KC1 and detergents could not solubilize dystrophin. Dystrophin could only be dissociated from the myofibrillar protein complex in 5 M urea followed by sucrose density gradient centrifugation where it co-fractionated with one of two distinctly sedimenting peaks of actin. Immunoelectron microscopy of intracellular regions of cardiac muscle revealed a selective labeling of Z-discs by hystrophin antibodies. In the genetically determined cardiomyopathic hamster, strain CHF 147, the time course of development of cardiac insufficiency correlated with an overall 75% loss of myofibrillar dystrophin. These findings collectively show that a significant pool of the 427-kDa form of cardiac dystrophin was specifically associated with the contractile apparatus at the Z-discs, and its loss correlated with progression to cardiac insufficiency in genetic cardiomyopathy. The loss of distinct cellular pools of dystrophin may contribute to the tissue-specific pathophysiology in muscular dystrophy.
...
PMID:The association of cardiac dystrophin with myofibrils/Z-disc regions in cardiac muscle suggests a novel role in the contractile apparatus. 864 39


1 2 3 4 5 6 7 8 9 10 Next >>

---