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)

A 60 year old white male presented with atypical chest pain and exercise-induced myalgia. Physical examination revealed slight proximal limb muscle weakness and wasting. Serum creatine phosphokinase levels were persistently elevated and electromyography showed changes consistent with a mild myopathy. Light microscopic and ultrastructural study revealed excess free glycogen within skeletal muscle, and histochemical staining showed absence of myophosphorylase activity. Biochemical quantitation confirmed the diagnosis of McArdle's disease by demonstrating absent phosphorylase activity in skeletal muscle with increased glycogen. In addition, increased amounts of free and membrane-bound glycogen were found within axons, Schwann cells, fibroblasts and occasional vascular smooth muscle and endothelial cells that had been included within the skeletal muscle biopsy. This case demonstrates more widespread glycogen accumulation than has been previously reported in McArdle's disease.
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PMID:Peripheral nerve and vasculature involvement in myophosphorylase deficiency (McArdle's disease). 206 70

Experimental autoimmune myasthenia gravis (EAMG) was studied in 39 rabbits which were repeatedly immunized with purified membrane-bound Torpedo (Nacine timilei) acetylcholine receptor (N-AchR). These rabbits invariably formed anti-AChR antibodies and some of them developed muscular weakness or flaccid paralysis. Pharmacological, physiological and ultrastructural studies showed that the pathological features of EAMG in rabbits closely resembled those of human myasthenia gravis. Antibody titer to AChR of the rabbit sera was determined with ELISA. In some of the rabbits, a rise in antibody Level occurred without appearance of weakness, while it is still likely that AChR antibody could be necessary for the induction of neuromuscular blockage. The sensitivity to curare was found to correlates closely with the severity of the disease. Typical electromyographic changes were found only in some of the EAMG rabbits with these studies. It was considered that anti-AChR concentration would not be the single pathological factor in EAMG.
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PMID:[Clinical correlation of anti-receptor antibody titer, sensitivity to curare and electromyographic changes in experimental autoimmune myasthenia gravis]. 228 84

The skeletal muscle of Japanese quails with acid maltase deficiency (AMD) was studied morphologically at various developmental stages, from the 16th embryonal day up to 3 months after hatching. Membrane-bound glycogen particles began to appear in the affected skeletal muscle at the 16th embryonal day. In normal embryonic muscles, a certain amount of free glycogen particles was observed but they were not membrane-bound. Therefore, this is the earliest morphological event in the muscle of Japanese quails with AMD. In muscle at 3 weeks after hatching, the initial focal degeneration of myofibrils was recognizable but it was not associated with autophagic vacuoles. Quails with AMD developed muscle weakness and difficulty in lifting their wings at about 3 months after hatching: then numerous autophagic vacuoles were present. The formation of large autophagic vacuoles followed by fiber loss and fatty replacement seemed to contribute to the progressive muscle weakness. The study of Japanese quail with AMD will greatly facilitate the elucidation of the pathogenetic mechanism and is also a useful model for therapeutic trials in human AMD.
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PMID:Acid maltase deficiency in the Japanese quail; early morphological event in skeletal muscle. 311 Nov 61

A newly recognized inherited metabolic disease in the Lapland dog is described. The metabolic defect is a deficiency of acid-alpha-glucosidase, a lysosomal hydrolase. The clinical picture is dominated by vomiting related to megaoesophagus, and progressive muscle weakness leading to exhaustion and death before two years of age. Cardiac abnormalities are observed. The main histopathologic lesion consists of glycogen accumulation, notably in membrane-bound vacuoles (glycogenosomes), involving all kinds of muscular tissue in particular. Recessive inheritance of the disease was demonstrated by complementation analysis. The enzyme protein is present in affected tissues, although in an inactive form. Based on the gene dosage phenomenon, an attempt was made to identify carrier dogs by means of a biochemical assay. Glycogen storage disease type II in the Lapland dog appears to be a homologous model for the infantile manifestation of glycogen storage disease type II (Pompe's disease) in man.
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PMID:Glycogen storage disease type II in the Lapland dog. 390 97

We report muscle biopsy abnormalities in four patients with a chronic cholestatic syndrome, low serum vitamin E levels, absent reflexes, mild limb weakness, ataxia, and sensory loss in arms and legs. Skeletal muscle fibers contained multiple autofluorescent inclusions that show strong acid phosphatase and esterase reactivity. By electronmicroscopy, the inclusions lying between myofibrils were membrane-bound dense bodies having characteristics of both lysosomes and lipopigment material. The material was similar to that observed in vitamin E-deficient animals and probably formed in response to disordered intracellular lipid peroxidation.
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PMID:Ultrastructural and histochemical abnormalities of skeletal muscle in patients with chronic vitamin E deficiency. 618 77

This report describes a third mucopolysaccharidosis in animals: canine mucopolysaccharidosis VII. The affected dog was the offspring of a father-daughter mating. Weakness in the rear legs was evident at 8 weeks of age and became progressively worse. He had a large head, a shortened maxilla, and corneal granularities. Most joints were extremely lax, easily subluxated, with joint capsules that were swollen and fluctuant. The dog was alert and had apparently normal pain perception. At 13 months of age, there was radiographic evidence of extensive skeletal disease including bilateral femoral head luxation, abnormalities in the shape and density of the carpal and tarsal bones, radiolucent lesions of the epiphyseal regions of most long bones, and cervical vertebral dysplasia and platyspondylia. The electrophoretic pattern of precipitated glycosaminoglycans indicated a predominance of chondroitin sulfate. The animal died suddenly from gastric dilatation. There was generalized hepatomegaly, thickening of the atrioventricular heart valves, and generalized polyarthropathy. Vacuolated cytoplasm was observed in hepatocytes, keratocytes, fibroblasts, chondrocytes and cells of the synovial membrane, retinal pigment epithelium, and cardiac valves. Neurons had cytoplasmic vacuoles. Electron microscopy demonstrated membrane-bound cytoplasmic inclusions in polymorphonuclear leukocytes, hepatocytes, synovium, heart valves and spleen. The activities of 12 lysosomal hydrolases were determined in liver from the affected and control dogs: beta-glucuronidase (EC 3.2.1.31), beta-hexosaminidases A and B (EC 3.2.1.30), alpha-hexosaminidase (EC 3.2.1.-), alpha-L-iduronidase (EC 3.2.1.76), alpha-galactosidase A (EC 3.2.1.22), beta-galactosidase (EC 3.2.1.23), arylsulfatases A and B (EC 3.1.6.1), acid alpha-mannosidase (EC 3.2.1.24), acid beta-mannosidase (EC 3.2.1.25), and N-acetyl-D-galactosamine-6-sulfate sulfatase (EC 3.1.6.-).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Beta-glucuronidase deficiency in a dog: a model of human mucopolysaccharidosis VII. 643 80

In Duchenne muscular dystrophy, as in other genetic diseases, there must be a biochemical abnormality. This fundamental genetic fault has not been identified, but several indirect lines of evidence suggest that the surface membranes of skeletal muscle are affected. The biochemical evidence implies abnormal egress of soluble enzymes and other proteins from muscle, abnormal permeability, and altered properties of membrane-bound enzymes. As a result of the presumed genetic abnormality, functional properties are altered, and impaired regulation of intracellular calcium content could be responsible for the hallmarks of the disease--progressive weakness and degeneration of muscle. The evidence is by no means conclusive, however, and some of it is contradictory. Technical advances must be made before isolated membranes can be characterized biochemically. Other theories are also being evaluated.
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PMID:Biochemistry of muscle membranes in Duchenne muscular dystrophy. 644 3

A four-year-old boy presented with hepatomegaly, vacuolized granulocytes (Jordans' anomaly) and slightly progressive myopathy as signs of multisystem triglyceride storage disease. The nine-year-old sister of the patient also showed Jordans' anomaly and early fatigability, but no overt weakness. Biochemical analysis revealed normal values for carnitines, carnitine palmityl transferase in serum and striated muscle, and beta-oxidation enzymes in striated muscles. Distribution of non-membrane-bound lipids in granulocytes, fibroblasts, smooth muscle cells and striated muscle was compatible with Chanarin-Dorfman syndrome. In contrast to Chanarin-Dorfman syndrome, our patients lacked congenital ichthyosis.
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PMID:Multisystem triglyceride storage disorder without ichthyosis in two siblings. 819 82

Over 400 P450s have been identified to date in prokaryotes and eukaryotes, plants and animals, mitochondria and endoplasmic reticulum. These enzymes function in areas such as metabolism and steroidogenesis. The eukaryotic members of this gene superfamily of proteins have proved difficult to study because of the hydrophobic nature of their substrates, their various redox partners, and membrane association. To better understand the structure/function relationship of P450s-what determines substrate specificity and selectivity, what determines redox-partner binding, and which regions are involved in membrane binding-we have compared the three crystallized, soluble bacterial P450s (two class I and one class II) and a model of a steroidogenic, eukaryotic P450 (P450arom), to define which structural elements form a conserved structural fold for P450s, what determines specificity of substrate binding and redox-partner binding, and which regions are potentially involved in membrane association. We believe that there is a conserved structural fold for all P450s that can be used to model those P450s that prove intransigent to structural determination. However, although there appears to be a conserved structural core among P450s, there is sufficient sequence variability that no two P450s are structurally identical. NADPH-P450 reductase transfers electrons from NADPH to P450 during the P450 catalytic cycle. This enzyme has usually been thought of as a simple globular protein; however, sequence analysis has shown that NADPH-P450 reductase is related to two separate flavoprotein families, ferredoxin nucleotide reductase (FNR) and flavodoxin. Recent studies by Wolff and his colleagues have shown that the FAD-binding FNR domain and FMN-binding flavodoxin domain of human NADPH-P450 reductase can be independently expressed in Escherichia coli. The subdomains can be used to reconstitute, however poorly, the monooxygenase activity of the P450 system. We have been utilizing the reductase domain of P450BM-3 to study the mechanism of electron transfer from NADPH to P450 in this complex multidomain protein. We have overexpressed both the FNR subdomain and the flavodoxin subdomain in E. coli and fully reconstituted the cytochrome c reductase activity of this enzyme. Our studies have shown that electron transfer from NADPH through the reductase domain to the P450 requires shuttling of the FMN subdomain between the reductase subdomain and the P450. Studies of the factors that control the molecular recognition and interaction among these three proteins are complicated by the weakness of the association and changes in the strength of the interaction depending on the redox state of each of the components. How these structural and mechanistic studies of a soluble bacterial P450 can be extended to gain a better understanding of the control of membrane-bound eukaryotic P450-dependent redox systems is discussed.
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PMID:P450BM-3; a tale of two domains--or is it three? 902 25

The ultimate goal of transplantation is drug-free allograft acceptance, which is rarely encountered in transplant recipients. Using a novel human-to-mouse "trans vivo" delayed-type hypersensitivity assay, we assessed donor-reactive cell-mediated immune responses in kidney and liver transplant patients, four of whom discontinued all immunosuppression. One of these subjects (J.B.) rejected his graft after 7 years of stable function, while the others (D.S., R.D., M.L.) continue to have excellent graft function 5, 28, and 4 years after the cessation of immunosuppression. PBMCs from J.B. exhibited strong responses to both donor and recall antigens whereas PBMCs from patients D.S., R.D., and M.L. responded strongly to recall, but not donor, antigens. Furthermore, when donor and recall antigens were colocalized, the recall response in these three patients was inhibited. This donor antigen-linked nonresponsiveness was observed in four other patients who are still maintained on immunosuppression. The weakness of donor-reactive DTH responses in these patients is due to donor alloantigen-triggered regulation that relies on either TGF-beta or IL-10. In D.S., regulation is triggered by a single donor HLA Class I antigen, either in membrane-bound or soluble form. This demonstrates that allograft acceptance in humans is associated with an immune regulation pattern, which may be useful in the diagnosis and/or monitoring of transplant patients for allograft acceptance.
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PMID:Human allograft acceptance is associated with immune regulation. 1088 58

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