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:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vitamin K dependent carboxylation of an exogenous peptide substrate and endogenous protein substrates, vitamin K epoxidation, and reduction of vitamin K epoxide were measured in subcellular fractions from rat liver. The rough microsomal fraction was highly enriched in all four activities; lower levels were found in smooth microsomes. Mitochondria, nuclei, and cytosol had negligible activities. The addition of 0.2% Triton X-100 to intact microsomes resulted in a 10-20-fold stimulation in carboxylation of a peptide substrate. This marked latency suggests that the active site of the carboxylase may be accessible only from the lumen of the microsomal membrane. A lumen-facing orientation of the carboxylase was also supported by its inaccessibility to trypsin in intact microsomes contrasted with marked inhibition by trypsin in detergent-permeabilized microsomes. Vitamin K epoxidase and epoxide reductase activities were also inhibited by trypsin much more effectively in permeabilized than in intact microsomes, although some degree of exposure at the cytosolic surface was also indicated. These data suggest that carboxylation is an early event in prothrombin synthesis occurring primarily on the lumen side of the rough endoplasmic reticulum membrane. The location of the vitamin K epoxidation-reduction cycle enzymes is consistent with their possible role in the carboxylation reaction.
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PMID:Vitamin K dependent carboxylase: subcellular location of the carboxylase and enzymes involved in vitamin K metabolism in rat liver. 624 80

1. The topography of cytochrome P-450 in vesicles from smooth endoplasmic reticulum of rat liver has been examined. Approx. 50% of the cytochrome is directly accessible to the action of trypsin in intact vesicles whereas the remainder is inaccessible and partitioned between luminal-facing or phospholipid-embedded loci. Analysis by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis reveals three major species of the cytochrome. Of these, the variant with a mol.wt. of 52000 is induced by phenobarbitone and this species is susceptible to trypsin. 2. After trypsin treatment of smooth membrane, some NADPH-cytochrome P-450 (cytochrome c) reductase activity remains and this remaining activity is enhanced by treatment with 0.05% deoxycholate, which renders the membranes permeable to macromolecules. In non-trypsin-treated control membranes the reductase activity is increased to a similar extent. These observations suggest an asymmetric distribution of NADPH-cytochrome P-450 (cytochrome c) reductase in the membrane. 3. As compared with dithionite, NADPH reduces only 44% of the cytochrome P-450 present in intact membranes. After tryptic digestion, none of the remaining cytochrome P-450 is reducible by NADPH. 4. In the presence of both a superoxide-generating system (xanthine plus xanthine oxidase) and NADPH, all the cytochrome P-450 in intact membrane (as judged by dithionite reducibility) is reduced. The cytochrome P-450 remaining after trypsin treatment of smooth vesicles cannot be reduced by this method. 5. The superoxide-dependent reduction of cytochrome P-450 is prevented by treatment of the membranes with mersalyl, which inhibits NADPH-cytochrome P-450 (cytochrome c) reductase. Thus the effect of superoxide may involve NADPH-cytochrome P-450 reductase and cytosolically orientated membrane factor(s).
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PMID:Asymmetric distribution of cytochrome P-450 and NADPH--cytochrome P-450 (cytochrome c) reductase in vesicles from smooth endoplasmic reticulum of rat liver. 625 76

A method for purification of detergent-solubilized cytochrome b5 to gel electrophoretic homogeneity from yeast (Saccharomyces cerevisiae) microsomes is described. The purified preparation shows the same absorption spectra as the trypsin-solubilized cytochrome (Y. Yoshida, H. Kumaoka, and R. Sato J. Biochem. 75, 1211-1219 (1974)) in the visible and Soret regions. The detergent-solubilized cytochrome is an amphipathic protein having a monomeric molecular weight of about 18,000 and exists as a hexa- or heptameric aggregate (Mr 122,000) in aqueous media. In the presence of low concentrations of Triton X-100, it interacts effectively with the intact form of NADH-cytochrome b5 reductase purified either from yeast microsomes or from rabbit liver microsomes. Upon trypsin digestion, it is converted to a heme-containing, hydrophilic fragment (Mr 13,000) which retains the spectral characteristics of the original cytochrome, does not form aggregates, and interacts with the reductase only poorly. It is concluded that the preparation purified in this study represents the intact form of yeast cytochrome b5 consisting of a hydrophilic, heme-containing moiety (Mr 13,000) and a hydrophobic, membrane-binding tail (Mr 5000).
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PMID:Purification and characterization of intact cytochrome b5 from yeast microsomes. 633 56

Modification of bovine adrenodoxin with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide (EDC) dramatically inhibited the reaction with adrenodoxin reductase (EC 1.18.1.2). The modification did not cause any change in the visible spectrum of adrenodoxin, indicating that the iron-sulfur center was not perturbed. Furthermore, the anomalous fluorescence of Tyr 82 was not changed in either intensity or wavelength. The inhibition was accompanied by the covalent incorporation of 14C-labeled EDC into adrenodoxin. The sites modified by EDC were determined by hydrolyzing adrenodoxin with either trypsin or Staphylococcus aureus protease and separating the resulting peptides by reverse phase high pressure liquid chromatography. The major carboxyl groups modified were found to be at Glu 74, Asp 79, and Asp 86, which are located in a sequence containing a high negative charge density. We propose that the conversion of negatively charged carboxylate groups at these residues to bulky, positively charged EDC-carboxyl groups inhibits the reaction with the reductase. EDC was also found to cross-link adrenodoxin to cytochrome c in yields up to 90%. The cross-links were found to involve the formation of amide linkages between carboxyl groups on adrenodoxin and the lysine amino groups surrounding the heme crevice of cytochrome c.
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PMID:Identification of specific carboxylate groups on adrenodoxin that are involved in the interaction with adrenodoxin reductase. 636 5

The orientation of 3-hydroxy-3-methylglutaryl coenzyme A reductase within the endoplasmic reticulum was investigated. Microsomal reductase activity was not latent, as addition of various detergents failed to activate the enzyme. Reductase activity was readily inhibited in intact microsomes by impermeable inhibitors such as trypsin, mercury dextran and anti-reductase IgG. Under the conditions used, these agents did not affect the intactness of microsomes as determined by latency of mannose-6-phosphate phosphohydrolase activity. The sensitivity to these inhibitors was not increased in disrupted microsomes. It is concluded that the domain containing the active site of the reductase is situated on the cytosolic surface of the endoplasmic reticulum.
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PMID:Topography of rat liver microsomal 3-hydroxy-3-methylglutaryl coenzyme A reductase. 671 56

Methods are described for incorporation of purified forms of rabbit liver microsomal NADPH-cytochrome P-450 reductase and cytochrome P-450LM2, P-450LM3 and P-450LM4 (LM, liver microsomes) into phospholipid vesicles. It was found that each cytochrome could individually be incorporated into preformed phospholipid vesicles in the absence of cholate. However, NADPH-cytochrome P-450 reductase prevented incorporation of P-450 by this method, a phenomenon possibly inherent in the formation of complexes between P-450 and the reductase in solution. Using the cholate-gel filtration technique it was possible to prepare monolamellar phosphatidylcholine vesicles containing any of the cytochromes and P-450 reductase in good yields. It was found that P-450LM3-containing vesicles had a mean diameter of 47 nm, whereas vesicles formed under the same conditions but containing P-450LM4 were much smaller (mean diameter 33 nm). Vesicles formed with P-450LM2 were homogeneous in density (1.04 g/cm3) according to isopycnic centrifugation in Ficoll but not in size (44-72 nm). These findings, taken together with results obtained from treatment of the cytochromes in soluble form and in reconstituted vesicles with the non-penetrating reagent, p-diazobenzene sulphonate, indicate a unidirectional, relatively peripheral orientation of P-450LM4 with the major part localized on the outside of the vesicles. Experiments with trypsin and cytochrome c-reduction demonstrated a unidirectional orientation of P-450 reductase towards the outside of the vesicles.
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PMID:Incorporation of purified components of the rabbit liver microsomal hydroxylase system into phospholipid vesicles. 677 67

Carbenoxolone may bind to enzymes, inhibiting or activating them. Enzymes inhibited are human pepsins 1, 3 and 5, human pepsinogens 1, 3 and 5, swine pepsin, bovine trypsin, bovine chymotrypsin, porcine elastase, human gastric proteinase 2, human gastric prostaglandin 15-OH dehydrogenase and delta-5 reductase, and pronase. Enzymes activated are papain, bovine carboxypeptidase and gastric microsomal glycosyl transferase. Enzymes unaffected are human pancreatic amylase and porcine pancreatic lipase. Binding occurs away from the active site; inhibition thus occurs when binding impedes access of substrate to, or products from, the active site, and activation when access is facilitated. Carbenoxolone causes increased secretion of mucus; this action can be explained by activation of the gastric glycosyl transferases. Carbenoxolone also causes intraluminal loss of peptic activity and diminished secretion of pepsins; these actions are explained respectively by intraluminal inhibition of the pepsins and intramucosal inactivation of the pepsinogens, particularly of the peptic ulcer-associated enzyme, pepsin 1. The healing effect of carbenoxolone in peptic ulcer involves these actions together with a reduced turnover of gastric mucosal cells. Pepsins 1 and 3 have collagenolytic activity, causing release of alpha-chains from native collagens. Pepsin 1 is five-fold the more active. Carbenoxolone inhibits peptic collagenolysis.
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PMID:The actions of carbenoxolone on enzymes and their relation to its therapeutic effect. 678 51

Detergent-solubilized liver microsomal NADPH-cytochrome P-450 reductase is known to retain the ability to transfer electrons to cytochrome P-450, whereas the trypsin-solubilized reductase transfers electrons only to artificial acceptors. Due to the loss of a hydrophobic fragment by the action of trypsin, the altered reductase is no longer capable of binding cytochrome P-450. In the present study the primary tryptic attack on the rabbit reductase was shown to be at the Lys 44-Ile 45 bond to liberate the hydrophilic domain (molecular weight, 71,000) from the intact enzyme (molecular weight, 77,000). The other fragment (molecular weight, 4,800) undergoes tryptic attack at the Lys 34-Lys 35-Lys 36 sequence to yield a polypeptide representing the hydrophobic domain of the reductase and a nona- or decapeptide (Lys 35 or Lys 36 through Lys 44) which serves as the connecting region. The hydrophobic peptide, which is derived from the NH2-terminal end of the reductase, has an acetylated NH2 terminus and a region (Val 16 through Phe 32) which is exceptionally hydrophobic, with a predicted beta-sheet structure, and is believed to be involved in the binding of cytochrome P-450 and phospholipid. The site of attack on the reductase by various proteases is different, but the cleavage points are localized within a short segment of the polypeptide chain. A comparison of the tryptic forms (representing the hydrophilic domains) of the rabbit and rat reductases by terminal sequence analysis showed a high degree of similarity, with about 80% of the residues in exact correspondence and only a short variable region near the Ile NH2 terminus.
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PMID:Structural features of liver microsomal NADPH-cytochrome P-450 reductase. Hydrophobic domain, hydrophilic domain, and connecting region. 680 23

Ferredoxin-NADP reductase accounts for about 50% of the NADPH diaphorase activity of spinach leaf homogenates. The enzyme is bound to thylakoid membranes, but can be slowly extracted by aqueous buffers. Ferredoxin-NADP reductase can be extracted from the membranes by a 1- to 2-min treatment with a low concentration of trypsin. This treatment completely inactivates NADP photoreduction but does not affect electron transport from water to ferredoxin. It is shown that the inactivation is due to solubilization of ferredoxin-NADP reductase: the activity can be restored by addition of a very large excess of soluble enzyme in pure form. When ferredoxin-NADP reductase is added as a soluble enzyme after extraction or inactivation (by a specific antibody) of the membrane-bound enzyme, NADP photoreduction requires a very large excess of this enzyme, and the apparent Km for ferredoxin is also increased. These observations are discussed as related to the interactions of thylakoids with ferredoxin-NADP reductase.
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PMID:Interaction of ferredoxin and ferredoxin-NADP reductase with thylakoids. 683 5

NADH-cytochrome b5 reductases purified from human red cell membranes and cytosol were compared with those prepared from human liver microsomes. Minimal molecular weights of the membrane and the cytosol enzymes as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) were 36,000 and 32,000 daltons, respectively, which are comparable to those of the detergent-solubilized reductase (dfp) and the protease-solubilized one (tfp) of liver microsomes, respectively. All the enzymes contained FAD and had essentially the same turnover numbers and apparent Km values for NADH and protease-solubilized cytochrome b5. The membrane enzyme and liver dfp reduced cytochrome c in the presence of detergent-solubilized cytochrome b5 70-80 times faster than in the presence of trypsin-solubilized cytochrome b5, whereas the cytosol enzyme and liver tfp showed essentially the same low activities with both preparations of cytochrome b5. SDS-PAGE mapping of the limited proteolytic products of the reductases obtained by digestion with staphylococcal protease or a-chymotrypsin showed essentially the same patterns of peptides between the red cell membrane enzyme and liver dfp and between the red cell cytosol enzyme and liver tfp. These results suggest that the NADH-cytochrome b5 reductase of human red cell membranes is identical with that of liver microsomes and that the enzyme of red cell cytosol is a proteolytic product of the membrane enzyme.
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PMID:Human NADH-cytochrome b5 reductases: comparison among those of erythrocyte membrane, erythrocyte cytosol, and liver microsomes. 684 58


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