Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.56 (insulin-degrading enzyme)
 737 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A metallothiol protease called insulin-degrading enzyme (IDE) seems to be implicated in insulin metabolism to terminate the response of cells to hormone, as well as in other biological functions, including muscle differentiation, regulation of growth factor levels, and antigen processing. In order to obtain highly pure and biologically active IDE, we have developed an immunoaffinity method using a monoclonal antibody to this enzyme (9B12). When the cytosolic fraction of rat liver was first applied to a 9B12-coupled Affi-Gel 10 column, more than 97% of the insulin-degrading activity was absorbed. Among various kinds of buffers successfully eluting the enzyme, only the buffer with a high pH (pH 11) could retain the full biological activity of this enzyme. IDE was further purified via two steps of chromatography using Mono Q anion exchange and Superose 12 molecular sieve columns. The final preparation showed a single band at 110 kDa on reduced sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). In the eluate from the immunoaffinity column, the inhibitory activity associated with the enzyme was also observed. To better recover this endogenous inhibitor, heat-treated cytosolic fraction was fractionated by ammonium sulfate precipitation and applied to the immunoaffinity column on which IDE had been adsorbed. Then, IDE and its inhibitor could be co-eluted with pH 11 as a complex form. After heat treatment of this fraction, the inhibitor was further purified using the same series of chromatography as IDE to more than 20,000-fold; it showed a 14 kDa band on SDS-PAGE. It inhibited both the insulin degradation by IDE in a competitive manner and the cross-linking of 125I-insulin to IDE. Highly purified IDE and the endogenous inhibitor will be useful tools for better understanding the various biological functions of this enzyme.
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PMID:Affinity purification of insulin-degrading enzyme and its endogenous inhibitor from rat liver. 173 Jun 51

Monoclonal antibodies to a cytosolic insulin-degrading enzyme (IDE) were produced by fusing spleen cells from mouse immunized highly purified human erythrocyte IDE with mouse myeloma cells. Four monoclonal antibodies were identified by their ability to bind to 125I-insulin covalently linked to a cytosolic IDE from human erythrocytes. All four antibodies were found to remove more than 90% of the insulin-degrading activity from erythrocytes extracts, demonstrating that these antibodies were directed against an enzyme which accounts for most of this activity. By immunoprecipitation from metabolically labelled cells and immunoblot procedure, the enzyme from a variety of tissue was shown to be composed of a single polypeptide chain of apparent Mr = 110 kDa. One of these antibodies; 31H7 was coupled to Affi-Gel 10 and used for the purification of this enzyme. Immobilized antigen was eluted at more than 85% efficiency with buffers consisting of either pH2.3, 2.5M MgCl2 or with 6M urea. However, the antigen eluted under 6M urea retained the highest antigenecity (44%) and biological activity (8%) and the yield of the enzyme obtained from this procedure increased up to 17 fold as compared with the conventional method. NaDodSO4/polyacrylamide gel electrophoresis showed a single band of this protein with apparent Mr 110 kDa. These monoclonal antibodies and the purified enzyme will be useful tools for a better understanding of this enzyme, so may lead to the design of specific inhibitors of this enzyme that may be used to treat patients with excessive insulin degradation.
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PMID:[Production of monoclonal antibodies to an insulin degrading enzyme and affinity purification of the enzyme]. 331 32

Insulin-degrading enzyme (IDE), which proteolytically degraded insulin with a high degree of specificity, was purified from pig skeletal muscle by ammonium sulfate precipitation, chromatography on Bio-Gel P-200 and DEAE-cellulose, and finally rechromatography on Sephadex G-200 (rechromatography fraction). The enzyme was also purified by affinity chromatography (affinity fraction). Both fractions migrated as a single component at the same position on polyacrylamidegel disc electrophoresis. Antiserum against pig muscle IDE was obtained by immunization of rabbits using the rechromatography fraction. By means of antiserum, it was shown that pig muscle IDE (affinity fraction), rat muscle cytosol-, and membrane-IDE gave a precipitin band of identity in Ouchterlony double-immunodiffusion systems. Quantitative immunoprecipitin data demonstrated that the antiserum inhibited the activities of the above three IDEs compared with normal rabbit serum. These data suggest that the insulin-degrading enzyme from porcine muscle and that from rat muscle have similar immunologic properties. The antiserum described here should be a useful tool for the examination of subcellular distribution and the quantitative analysis of insulin-degrading enzyme. It may also be helpful in determining the physiologic significance of IDE.
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PMID:Immunochemical studies on the insulin-degrading enzyme from pig and rat skeletal muscle. 677 21

An enzyme capable of degrading insulin was purified from pig skeletal muscle and studied for its characteristics. Purification of the enzyme was successfully achieved by a combination of ammonium sulfate precipitation, chromatography of Bio-Gel P-200 and DEAE-cellulose, and, finally, ampholine isoelectrofocusing. The enzyme obtained showed 741-fold purification in its activity and a single band on polyacrylamide gel electrophoresis. The purified enzyme degraded insulin proteolytically and was sulfhydryl dependent. The Km for insulin was 70 nM. Proinsulin behaved as a competitive inhibitor for insulin degradation; its Ki was 320 nM. Glucagon was also proteolytically degraded, whereas number of other peptides, including A and B chains of insulin, were not appreciably affected by this enzyme. The molecular weight of the enzyme was estimated to be 135,000 by gel filtration on Sephadex G-200 and 60,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. This enzyme and lysosomal enzymes extracted from rat liver were shown to be different, judging from their optimal pH for insulin degradation and substrate specificity. These studies demonstrate the presence of an insulin-degrading enzyme in pig skeletal muscle and suggest that this enzyme is identical to rat insulin protease in most of its biochemical properties.
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PMID:Purification and characterization of insulin-degrading enzyme from pig skeletal muscle. 700 52

Bacitracin is commonly used in metabolic studies as an insulinase inhibitor. The many isoforms of the commercial preparation were fractionated by charge and size in order to find the most active rat-muscle insulinase inhibitors. CM-Sepharose chromatography revealed that most of the inhibitory activity was contained in a fraction (CM-Inh) that amounted to less than 5% of the mixture. The CM-Inh fraction could be further separated by size on Bio-Gel P4 columns. Six subgroups, each with characteristic specific activity, were isolated. The most potent inhibitor fractions have no antibiotic activity and have molecular weights about twice that of bacitracin A. The peaks isolated by means of Bio-Gel P4 chromatography can be further fractionated by reversed phase HPLC on a C8 column, and by electrophoresis on nonreducing acrylamide gels.
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PMID:Purification of nonantibiotic insulinase inhibitors from bacitracin. 848 64