Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 700-kDa multicatalytic proteinase complex from bovine pituitaries separates in polyacrylamide gel electrophoresis under dissociating and reducing conditions into 11 components with molecular masses ranging from 21 to 32 kDa. No higher molecular mass components were detected. A rabbit polyclonal antibody raised against the complex recognizes five immunoreactive components. As reported previously, the complex exhibits three distinct proteolytic activities designated as chymotrypsin-like, trypsin-like, and peptidylglutamyl-peptide hydrolyzing activities. All three activities are rather rapidly inactivated by 3,4-dichloroisocoumarin, a general serine protease inhibitor, however, the pseudo-first-order rate constants of inactivation of the three components differ within a wide range, with the chymotrypsin-like activity being most sensitive to inhibition. The peptidylglutamyl-peptide hydrolyzing activity is greatly activated by low concentrations of sodium dodecyl sulfate and fatty acids and seems to constitute the main component responsible for degradation of protein substrates. In addition to cleaving bonds on the carboxyl side of glutamyl residues, this activity also cleaves, albeit at a slower rate, bonds on the carboxyl side of hydrophobic residues; however, the secondary specificity of this component is clearly different from the chymotrypsin-like activity. Heparin selectively activates the chymotrypsin-like activity. The complex cleaves rapidly both native and dephosphorylated beta-casein in a reaction greatly accelerated by low concentrations of sodium dodecyl sulfate. The nature of proteolytic products, and also the rate of formation of acid-soluble, ninhydrin-reactive products, is different for the phosphorylated and dephosphorylated form of beta-casein, indicating that the degree of phosphorylation influences the rate and pattern of proteolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pituitary multicatalytic proteinase complex. Specificity of components and aspects of proteolytic activity. 253 72

A nonlysosomal alkaline protease which degrades the oxidatively modified form of Escherichia coli glutamine synthetase has been purified to apparent homogeneity from rat and mouse liver acetone powders. Its molecular weight was determined to be 300,000 by Sephacryl S-300 gel filtration but results of further studies using high pressure liquid chromatography gel filtration suggest a value of 650,000. Examination of the subunit structure by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed multiple bands of molecular weights between 22,000 and 34,000. The alkaline protease was inhibited by thiol reagents. Phenylmethylsulfonyl fluoride, aprotinin, leupeptin, antipain, and chymostatin partially inhibited the protease. The inhibition by phenylmethylsulfonyl fluoride was prevented by dithiothreitol, and alpha 1-antitrypsin and soybean trypsin inhibitor did not inhibit. No inhibition was observed with metalloprotease inhibitors. The alkaline protease is active over a broad range of pH with optimum activity for the degradation of oxidized glutamine synthetase around pH 9.0. Its activity is not stimulated by MgATP. A study of the products of insulin B chain degradation demonstrated major cleavage sites at Gln13-Ala14, Leu15-Tyr16, Cys(SO3H)19-Gly20, Gln4-His5, and Leu17-Val18. Based on its endopeptidase activity and its inhibitor specificity, the alkaline protease should be classified as a cysteine proteinase. It appears to be distinct from previously described proteinases and is likely involved in nonlysosomal mechanisms of intracellular protein turnover.
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PMID:Purification of a liver alkaline protease which degrades oxidatively modified glutamine synthetase. Characterization as a high molecular weight cysteine proteinase. 286 41

The high molecular weight multicatalytic proteinase, macropain, has been purified from human erythrocytes in two forms that differ in caseinolytic activity up to 100-fold. Each form has a native molecular weight of 600,000 and is composed of a number of subunits ranging in molecular weights from 35,000 to 21,000. Although the two proteinase forms share a number of electrophoretically indistinguishable subunits, there are also subunits unique to the respective forms. The less active proteinase represents a latent enzyme because it was fully activated by two procedures including dialysis against water and pretreatment with low concentrations of sodium dodecyl sulfate. These procedures caused differential changes in the caseinolytic and two peptidase activities of the proteinase. An Mr 35,000 subunit, characteristic of latent macropain, is immunologically related to at least one of the other components of active macropain and disappeared after proteinase activation by dialysis. Nevertheless, loss of this subunit was not the cause of the increased activity. These results suggest that the proteolytic activity of cells may be regulated by the activation of the latent form of macropain.
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PMID:The high molecular weight multicatalytic proteinase, macropain, exists in a latent form in human erythrocytes. 293 Jul 96

Two forms of a high-molecular-weight proteinase were isolated from rat liver. The purification procedure involved homogenization of the tissue, chromatography on DEAE-cellulose, high-performance liquid chromatography (HPLC: TSK 3000 SWG) and hydroxyapatite chromatography. The breakthrough fraction from the hydroxyapatite column contained the sodium dodecyl sulphate (SDS)- and linoleic acid-activated proteinase, ingensin A, but the other form, ingensin B, which was also activated by SDS and linoleic acid, was bound to the hydroxyapatite and eluted at 200 mM phosphate. A distinct feature of ingensin A was its activation by a brief sonication procedure. The optimum pH of the two forms was 7.5-9.5, and both of them were activated by monovalent cations. Although both enzymes show similar molecular weights of 700,000 on gel filtration, ingensins A and B were separated into a major subunit of 120,000 and subunits of 25,000-35,000, respectively, under the denaturing conditions.
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PMID:Purification of the two forms of the high-molecular-weight neutral proteinase ingensin from rat liver. 301 26

To investigate the effects of dietary sodium on the peripheral dopaminergic mechanism, changes of unconjugated plasma dopamine(DA) and its related humoral factors were studied in 8 patients with essential hypertension(EH) and 8 age-matched normal controls(N) while they were receiving ordinary meals (Na, 130-180 mEq daily) followed by higher sodium (250-300 mEq daily) diets for a week. Plasma and urinary DA, norepinephrine(NE) and epinephrine(E) were measured by the highly sensitive COMT-mediated radioenzymatic procedure, which permits an accurate estimation of plasma DA as low as 5-6 pg/ml. Under high sodium diets, blood pressure and heart rate were not changed significantly in N and EH subjects. Urinary NE and E tended to decrease, while urinary DA increased significantly in both groups of subjects (p less than 0.05). There was a significant correlation between urinary sodium and DA (r = 0.590, p less than 0.001), but plasma DA failed to correlate significantly to urinary sodium or DA in all subjects. Plasma NE and E tended to decrease in both N and EH subjects, while plasma DA increased significantly (p less than 0.05) in EH from 7.2 +/- 0.8 pg/ml [mean +/- SEM] to 9.3 +/- 1.0 and slightly in N from 9.1 +/- 1.8 to 11.2 +/- 1.3. Plasma renin activity(PRA) and plasma aldosterone(PAC) were invariably decreased in all subjects, while plasma prolactin(PRL) remained unchanged. A significant correlation was observed between plasma DA and NE under ordinary meals (r = 0.733, p less than 0.01), but this correlation disappeared under high sodium diets. Plasma DA showed an inverse correlation to PAC (r = 0.351, p less than 0.05) under both dietary conditions. Upright posture induced a significant rise (p less than 0.05) in NE, E, DA, PRA and PAC with ordinary meals, but the responses of NE and PAC were apparently attenuated with high sodium diets. An intravenous injection of metoclopramide (MCP, 10 mg), a DA receptor antagonist, provoked a slight rise in plasma NE and DA with ordinary meals, of which responses were further enhanced with high sodium diets. MCP induced a definite rise in PAC and PRL in all subjects under both dietary conditions (p less than 0.01), while plasma E and PRA remained unchanged after MCP challenge. The results lend support to the view that unconjugated plasma DA could be a useful marker of peripheral dopaminergic activity, which might be a physiological regulator responsible for the suppression of aldosterone secretion and sympathetic nerve activity observed during high sodium intake.
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PMID:[Effects of high sodium diet on dopaminergic mechanism in normal and hypertensive subjects]. 306 95

Purified Pseudomonas aeruginosa elastase and alkaline protease rapidly cleaved soluble laminin, with each enzyme yielding different cleavage products. These cleavage fragments were separated from the intact laminin A and B polypeptide chains by sodium dodecyl sulfate-polyacrylamide gradient gel electrophoresis and detected by their characteristic Coomassie blue staining patterns. Pseudomonas elastase produced rapid and extensive degradation of both A and B chains, including the disulfide-rich regions. Apparently complete degradation to limit digests was obtained after 30 min with a substrate/enzyme ratio of 30:0.5. Under similar conditions, alkaline protease rapidly degraded the A chain while slowly degrading the B chain. In addition, immunoreactive laminin was released from authentic basement membranes after incubation with either enzyme as detected by an enzyme-linked immunoabsorption assay and by immunofluorescence. The results from these studies suggest a direct role for elastase and alkaline protease in both tissue invasion and hemorrhagic tissue necrosis in P. aeruginosa infections.
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PMID:Degradation of soluble laminin and depletion of tissue-associated basement membrane laminin by Pseudomonas aeruginosa elastase and alkaline protease. 309 82

Pseudomonad proteases disrupted the function and structure of demembranated cilia (axonemes) extracted from porcine tracheae. Proteolytic degradation by the two pseudomonad proteases elastase and alkaline protease and by trypsin and subtilisin impaired motility of ATP-activated axonemes. In addition, electron microscopic observation of negatively stained axonemes indicated that exposure to proteases caused dissociation into individual doublet or singlet microtubules. Inhibition of motility and axonemal fraying occurred when axonemes were treated with less than 5 U of proteolytic activity of any of the four proteases tested. When the effects of 2 U of each protease were compared, trypsin and subtilisin were able to produce immotility in less time than pseudomonad elastase and alkaline protease, while alkaline protease and subtilisin caused the most axonemal fraying in 10 min. Proteolytic digestion of axonemal proteins was detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. All four proteases cleaved dynein proteins (proteins necessary for motility), though treatment with trypsin resulted in the most extensive solubilization of axonemal proteins. Trypsin and subtilisin both produced more changes in the protein profiles of treated axonemes, using fewer units of proteolytic activity, than the pseudomonad proteases. However, the limited alteration of only a few axonemal proteins by pseudomonad proteases indicates that cleavage need not be extensive to produce dysfunction. Thus, ciliary axonemes are susceptible to proteolytic attack. Degradation of axonemal proteins by pseudomonad proteases, which are released during active infection, may contribute to the impaired ciliary function associated with pseudomonad colonization of the respiratory tract.
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PMID:Disruption of respiratory cilia by proteases including those of Pseudomonas aeruginosa. 309 41

Recently, the identification of several proteases of nonlysosomal origin has been reported. In this study, a high-molecular-weight protease, ingensin, was purified from human placenta, and the biological and physiological properties of this enzyme were investigated. The activity of ingensin was determined with a synthetic substrate, succinyl-leucyl-leucyl-valyl-tyrosine-methylcoumarinamide (SLLVT-MCA). The molecular weight of ingensin was calculated to be about 700,000 by HPLC gel filtration. Ingensin was separated into a major subunit of 70,000 and minor subunits of 105,000 and about 30,000, respectively, under the denaturating conditions. Maximum ingensin activity was observed in the presence of 0.06 to 0.08% sodium dodecyl sulfate (SDS). Ingensin was activated by linoleic acid and arachidonic acid. A subcellular fractionation study suggested that there was a large amount of ingensin activity in the microsome or cytosol fraction. An indirect immunofluorescent study showed that ingensin was localized in the trophoblast cell layer and epithelium of the vessel interstitial tissue. Ingensin hydrolyzed several proteins in human placental tissue, and had liberated ALP from the placental membrane. These results indicated that a new protease, ingensin, may be involved in protein turnover in placental tissue.
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PMID:[A high-molecular-weight protease, ingensin, from human placental chorionic tissue--purification and studies of biochemical and physiological properties]. 329 81

We purified a high-molecular-weight protease, ingensin, from extract of human placenta by successive DEAE-cellulose, hydroxyapatite, and high performance liquid chromatographies. The activity of ingensin was determined by using a synthetic substrate, succinyl-leucyl-leucyl-valyl-tyrosine-methylcoumarinamide (MCA). The purified ingensin, which gave a single band in 6.5% nondenaturing polyacrylamide gel electrophoresis, was activated by linoleic acid and sodium dodecyl sulfate (SDS). Maximum activity was observed at pH 9.5 in the presence of 0.06% SDS, but at pH 8.0 in the presence of linoleic acid. A subcellular fractionation study showed that a large amount of ingensin activity was present in the cytosol or microsome fraction rather than in the precipitate of low-speed centrifugation. The effect of protease inhibitors on the activated ingensin was also investigated.
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PMID:Purification and characterization of a high-molecular-weight protease, ingensin, from human placenta. 352 35

Membrane cofactor protein (MCP or gp45-70) is a recently described regulatory glycoprotein of the complement system which binds iC3 or C3b and is present on human platelets, T cells, B cells, monocytes, and mononuclear-derived cell lines. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, MCP migrates as a doublet with an Mr of the upper band of 63,000 and the lower band of 58,000. The same pattern was found on all cell populations in a given individual and was stable over time. In order to further characterize the two band pattern on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, MCP was isolated by affinity chromatography or immunoprecipitation from 72 healthy unrelated donors. All individuals expressed both bands and, based on the densitometric scanning of gels, three patterns were noted: upper band predominant in 65%, approximately equal distribution of upper and lower bands in 29%, and lower band predominant in 6%. These observed phenotypic frequencies fit with expectations based on Hardy-Weinberg equilibrium for a two-allele system. Family studies also support this model as none of the 26 offspring had a phenotype that deviated from the expected, assuming an autosomal codominant model of inheritance. These results are consistent with a simple two-allele system that controls the expression of the two bands of MCP.
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PMID:A polymorphism of the complement regulatory protein MCP (membrane cofactor protein or gp45-70). 358 71


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