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: EC:3.2.1.20 (alpha-glucosidase)
4,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kinetic and immunological studies of 1,4-alpha-glucosidase show that the distribution of acid, renal and neutral alpha-glucosidase at pH 4.0 and 6.5 is as follows: in liver and cultured fibroblasts and amniotic fluid cells the activity at pH 4.0 is mainly due to the acid enzyme. Even at pH 6.5, the activity is largely due to the residual activity of the acid enzyme. In kidney and leukocytes, however, the activity by acid enzyme at pH 4.0 represents only 30-60% of the total activity and the remaining activity is from renal enzyme. At pH 6.5, the activity is almost exclusively of renal enzyme. Renal alpha-glucosidase has a higher affinity for maltose (Km, 0.8 mmol/l) than acid enzyme, however; for glycogen acid enzyme shows the highest affinity (20.7 g/l). There is no significant difference in the kinetic characteristics of alpha-glucosidase between fetal and adult tissues. In kidney, however, a relative increase in renal enzyme to acid enzyme with age is found, i.e. in fetal kidney the alpha-glucosidase activity at pH 4.0 is more than twice that at pH 6.5, whereas in adult kidney, the activity ratio at pH 4.0-6.5 is approximately 1. Antibodies for human liver acid alpha-glucosidase decrease the alpha-glucosidase activity in normal leukocytes by 22-75% at pH 4.0 (0.54-3.8 nmol/min per mg protein). The decrease is significantly lower in patients with Pompe's disease (0-0.11 nmol/min per mg protein) as well as in their parents and some siblings (0.15-0.70).
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PMID:Diagnosis of Pompe's disease using leukocyte preparations. Kinetic and immunological studies of 1,4-alpha-glucosidase in human fetal and adult tissues and cultured cells. 389 Nov 51

The 1,4-alpha-glucosidase inhibitor. Acarbose, when injected intraperitoneally disturbs liver lysosome metabolism, causing distinct and persistent inhibition of the enzymes and acute disturbances of lysosomal glycogen metabolism. A feedback control mechanism appears to operate, affecting cytosolic carbohydrate metabolism. A model is suggested for the adult form of lysosomal storage disease. The biochemical effects closely resemble those occurring in glycogenosis type II (Pompe's disease), and these have been confirmed by electron microscopy.
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PMID:Lysosomal glycogen storage induced by Acarbose, a 1,4-alpha-glucosidase inhibitor. 389 20

Pompe's disease (type II glycogenosis), an infantile form of generalized glycogenosis, is characterized biochemically by deficiency of lysosomal acid alpha-1,4-glucosidase and morphologically by intralysosomal glycogen storage in multiple organs, notably the central nervous system, heart, liver, and skeletal muscles. The endocrine system has not been described in detail in the literature. In two infants with Pompe's disease, intralysosomal glycogen was identified in the adrenal cortex and medulla, thyroid gland, parathyroid glands, pancreatic islets, and pituitary gland. Of special interest is the severe glycogen accumulation in the zona fasciculata of the adrenal glands.
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PMID:The endocrine glands in Pompe's disease. Report of two cases. 389 54

acid alpha-glucosidase (EC 3.2.1.20) was purified from fetal bovine muscle by affinity chromatography on concanavalin A and Sephadex G-100 and added to the culture medium of mature muscle cultures from animals affected by glycogenosis type II. The enzyme activity in homogenates of treated cultures was significantly increased within 4 h of the addition of enzyme, was maximal by 18 h and the internalised activity was stable for at least 48 h after the removal of the enzyme from the culture medium. The acid alpha-glucosidase activity was internalised with an uptake constant of 300 nM and a Vmax of uptake of 133 nmol/h per mg protein. The glycogen concentration in affected cultures treated with exogenous acid alpha-glucosidase for 24 h had decreased by 20% and after a further 24 h of culture was comparable to the concentration observed in cultures from non-affected animals.
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PMID:Bovine generalised glycogenosis type II. Uptake of lysosomal alpha-glucosidase by cultured skeletal muscle and reversal of glycogen accumulation. 389 27

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

The control of recessively inherited inborn errors of metabolism may benefit from quantitative biochemical screening assays enabling the identification of heterozygous individuals. Based on the principle of partial enzyme deficiency in heterozygotes, an attempt was made to identify heterozygous animals in a Lapland dog family with canine glycogen storage disease type II (acid alpha-glucosidase deficiency). Acid alpha-glucosidase activity was determined in peripheral blood leucocyte extracts of 12 related Lapland dogs, two of which were obligate heterozygotes. The use of an antiserum against acid alpha-glucosidase was necessary to increase the specificity of the assay. Twice the obligate heterozygous enzyme level was assumed to indicate the homozygous normal level. Five dogs were designated as presumptive heterozygotes, and five as presumptive normal homozygotes. The results in two dogs were inconclusive. The information obtained in this preliminary investigation may be helpful in the control of the disease in the Lapland dog breed.
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PMID:Heterozygote detection in a family of Lapland dogs with a recessively inherited metabolic disease: canine glycogen storage disease type II. 392 81

A technique has been developed for the detection of inborn errors by multiple enzyme analysis of lymphocytes stimulated by phytohemagglutinin. Its practicality has been demonstrated in Pompe's disease in which there is a deficiency of acid alpha-1,4-glucosidase (E.C.3.2.1.20).
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PMID:Pompe's disease: detection of heterozygotes by lymphocyte stimulation. 536 May 84

The present paper describes an animal model of lysosomal glycogenosis as induced by a competitive inhibitor of alpha-glucosidase. Rats received intraperitoneal injections of the inhibitor, a pseudotetrasaccharide (Acarbose, Bay g 5421); liver tissue was examined by light and electron microscopy. Substrate-histochemical and enzyme-cytochemical methods were used to demonstrate intralysosomal glycogen storage within hepatocytes and Kupffer cells. The cytological picture closely resembled that occurring in glycogenosis type II (Pompe's disease) of humans. After cessation of drug treatment, the glycogen storage was slowly reversible. The present results point to the physiological role of the lysosomal apparatus for intracellular glycogen turnover. On the cellular level, this experimentally induced glycogenosis may be useful as a model of Pompe's disease.
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PMID:Lysosomal glycogen storage mimicking the cytological picture of Pompe's disease as induced in rats by injection of an alpha-glucosidase inhibitor. I. Alterations in liver. 611 39

Acid alpha-glucosidase (EC 3.2.1.20) was purified from human placenta and bovine testis by affinity chromatography using concanavalin A (conA) and Sephadex G 200. When added to the culture medium of human fibroblasts, the enzyme purified from bovine testis is taken up with a 200-fold higher efficiency than the enzyme from human placenta. Uptake of acid alpha-glucosidase from bovine testis is mediated by the mannose-6-phosphate receptor, whereas only a minor fraction of placental enzyme appears to be equipped with the mannose-6-phosphate recognition marker. Once internalized, both human and bovine acid alpha-glucosidase demonstrate a half-life of about 10 days in fibroblasts from control individuals and patients with different clinical forms of glycogenosis type II (Pompe's disease, acid alpha-glucosidase deficiency). Evidence is presented that the mannose-6-phosphate receptor is also present on the plasma membrane of the clonal myogenic skeletal muscle cell lines G8-1 and L6J1 (respectively from mouse and rat origin) and on cultured human skeletal muscle cells derived from a muscle biopsy. Addition of bovine testis acid alpha-glucosidase to skeletal muscle cell cultures from an adult patient with glycogenosis type II leads to complete correction of the enzyme deficiency.
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PMID:Uptake and stability of human and bovine acid alpha-glucosidase in cultured fibroblasts and skeletal muscle cells from glycogenosis type II patients. 623 28

The generation of enzymes located in lysosomes, in cytosol or in endoplasmatic reticulum/Golgi complex is studied in heterokaryons in which chick erythrocyte nuclei are reactivated. The lysosomal enzymes, alpha-glucosidase (alpha-glu) and beta-galactosidase (beta-gal), are synthesized in heterokaryons obtained after fusion of chick erythrocytes with human fibroblasts of patients with Pompe's disease (alpha-glu-deficient) and GM1-gangliosidosis (beta-gal-deficient), respectively. The enzymes appear to be of chick origin and their activities can be detected at first around 4 days after fusion, i.e., at a time when the nucleoli in the erythrocyte nuclei have been reactivated. Maximal activities are reached around 15 days after fusion. No generation of the lysosomal enzyme beta-hexosaminidase is detected in the heterokaryons up to 23 days after fusion of chick erythrocyte with either beta-hexosaminidase A- and B-deficient fibroblasts (Sandhoff's disease) or beta-hexosaminidase A-deficient fibroblasts (Tay-Sachs disease). Similarly no expression of the cytosol enzyme glucose-6-phosphate dehydrogenase (G6PD) is fond up to 30 days after fusion, when chick erythrocytes are fused with fibroblasts from two different G6PD-deficient cell strains (residual activities of 4 and 20% respectively). Indirectly we examined N-acetyl-glucosamine-1-phosphate transferase activity, an enzyme located in the endoplasmic reticulum/Golgi region. This enzyme is needed for the phosphorylation of the lysosomal hydrolases and absence of its activity is the cause of the multiple lysosomal enzyme deficiencies in patients with I-cell disease. The retention of both, chick and human beta-galactosidase in the experiments in which I-cell fibroblasts were fused with chick erythrocytes indicates a reactivation of the gene coding for this phosphorylating enzyme. It also implies that this step in the processing of human lysosomal enzymes is not species-specific.
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PMID:Expression of lysosomal enzymes in human mutant fibroblast-chick erythrocyte heterokaryons. 629 65


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