UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
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A novel human tissue kallikrein inhibitor designated as kallistatin has been purified from plasma to apparent homogeneity by polyethylene glycol fractionation and successive chromatography on heparin-Agarose, DEAE-Sepharose, hydroxylapatite, and phenyl-Superose columns. A purification factor of 4350 was achieved with a yield of approximately 1.35 mg per liter of plasma. The purified inhibitor migrates as a single band with an apparent molecular mass of 58 kDa when analyzed on SDS-polyacrylamide gel electrophoresis under reducing conditions. It is an acidic protein with pI values ranging from 4.6 to 5.2. No immunological cross-reactivity was found by Western blot analyses between kallistatin and other serpins. Kallistatin inhibits human tissue kallikrein's activity toward kininogen and tripeptide substrates. The second-order reaction rate constant (ka) was determined to be 2.6 x 10(4) M-1 s-1 using Pro-Phe-Arg-MCA. The inhibition is accompanied by formation of an equimolar, heat- and SDS-stable complex between tissue kallikrein and kallistatin, and by generation of a small carboxyl-terminal fragment from the inhibitor due to cleavage at the reactive site by tissue kallikrein. Heparin blocks kallistatin's complex formation with tissue kallikrein and abolishes its inhibitory effect on tissue kallikrein's activity. The amino-terminal residue of kallistatin is blocked. Sequence analysis of the carboxyl-terminal fragment generated from kallistatin reveals the reactive center sequence from P1' to P15', which shares sequence similarity with, but is different from known serpins including protein C inhibitor, alpha 1-antitrypsin, and alpha 1-antichymotrypsin. The results show that kallistatin is a new member of the serpin superfamily that inhibits human tissue kallikrein.
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PMID:Kallistatin: a novel human tissue kallikrein inhibitor. Purification, characterization, and reactive center sequence. 133 88

A previously found proteinase possibly involved in the modification of hexokinase to eliminate the mitochondria-binding ability without appreciable change in the catalytic activity (called hexokinase-processing enzyme hereafter), was purified by sequential chromatographies from rat liver and its properties were examined. The hexokinase-processing enzyme had carbohydrate moieties as evidenced by adsorption on immobilized concanavalin A, and had a molecular weight of about 23,000 as estimated by SDS-PAGE and gel filtration chromatography. Benzyloxycarbonyl-phenylalanyl-L-arginine-4-methylcoumaryl-7-amide (Z-Phe-Arg-MCA)-hydrolyzing activity was co-purified with this processing activity throughout the purification, while the hydrolyzing activity for benzyloxycarbonyl-L-arginyl-L-arginine-4-methylcoumaryl-7-amide (Z-Arg-Arg-MCA) was not. The processing activity, as well as Z-Phe-Arg-MCA hydrolyzing activity, was highly sensitive to cysteine proteinase inhibition, for example, by leupeptin and N-[N-3-(trans-carboxirane-2-carbonyl)-L-leucyl]agmatine (E-64). Furthermore, the enzyme preparation reacted with an antibody against cathepsin L purified from rat kidney. These results indicated that cathepsin L may be involved in the above-mentioned processing of hexokinase.
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PMID:Possible involvement of cathepsin L in processing of rat liver hexokinase to eliminate mitochondria-binding ability. 142 31

1. Cathepsin H was purified about 5400-fold from hepatopancreas of carp (Cyprinus carpio) by the method involving ammonium sulfate fractionation, and chromatography on S-Sepharose, DEAE-Sephacel, Ultrogel AcA54, Concanavalin A-Sepharose 4B and GPC on Protein-Pak 125. 2. The purified cathepsin H gave a single protein band on analytical-PAGE, but migrated as two bands of 27,000 and 23,000 mol. wt on SDS-PAGE. 3. Cathepsin H had a pH and temperature optimum of 6.5 and 45 degrees C using Arg-MCA as a substrate, respectively, and was activated by sulfhydryl compounds and inhibited by cysteine protease inhibitors and metal compounds having high reactivities at cysteine residue. 4. The carp hepatopancreas cathepsin H immunoreacted with the monospecific antibody against rat liver cathepsin H, and did not react with the antibodies against carp hepatopancreas cathepsins B and L by the method of immunoelectrophoretic blotting.
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PMID:Purification and characterization of cathepsin H from hepatopancreas of carp Cyprinus carpio. 149 87

One of the pathways of action of the differentiation-inducing agent DMF, in chemically transformed AKR-MCA fibroblastic cells, is through the concurrent restoration of the synthesis of the cell-surface adhesion molecule fibronectin and receptors for fibronectin. In order to identify plasma membrane components that are intimately associated with the induction of differentiation by DMF in the AKR-MCA cells, we have purified, characterized and compared the plasma membranes prepared from DMF treated and untreated AKR-MCA cells and from DMF treated and untreated AKR-2B cells (untransformed control cells). While DMF was found to have a non-discernible effect on the plasma membranes of the untransformed AKR-2B control cells, it restored the expression of several major AKR-2B associated plasma membrane proteins to the transformed AKR-MCA cells. These included major plasma membrane proteins of molecular weight 46 and 38 kilodaltons which were identified by one-dimensional SDS-PAGE, and two other major silver staining proteins identified by two-dimensional gel electrophoresis. Plasma membrane carbohydrate moieties were also analyzed by 125I-lectin probes following SDS-PAGE fractionation and electrophoretic transfer of plasma membranes to nitrocellulose. Differences in the radiolabeled Con A and RCA 1 binding profiles were observed between the untransformed and transformed cells. DMF induced an overall restoration of the untransformed AKR-2B associated lectin binding profiles to the differentiated AKR-MCA cells. This study identified several plasma membrane proteins and lectin binding carbohydrate moieties, the qualitative or quantitative alterations of which were intimately associated with chemical transformation and differentiation induction of the transformed cells.
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PMID:Differentiation-related alterations in the plasma membranes of chemically transformed murine fibroblasts. 224 Nov 9

A novel latent proteinase of which activity was induced by heating in the presence of NaCl was purified to homogeneity from threadfin-bream muscle by a combination of DEAE-cellulose, Con A-Sepharose, Arg-Sepharose, and Shim-pack HAC chromatographies. This proteinase was a glycoprotein having a monomeric subunit structure; Mr was estimated to be 77,000 on SDS-PAGE analysis. The proteinase hydrolyzed Boc-Leu-Thr-Arg-MCA as well as myosin heavy chain in the presence of 2-4% NaCl at pH 7.0 and at 60 degrees C, optimally. The proteinase was classified as serine proteinase based on the effects of soybean trypsin inhibitor, leupeptin, and antipain.
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PMID:Purification and properties of a novel latent proteinase showing myosin heavy chain-degrading activity from threadfin-bream muscle. 235 32

From rat skeletal muscle tissue we have isolated and purified a proteolytic activity of molecular mass 750 kDa. The enzyme, designated 'proteinase I', which has been found to be located in capillaries of skeletal muscle tissue, catalyzes the hydrolysis of Z-Phe-Arg-MCA and [14C]methylcasein and this process is activated about 2-fold by ATP. As judged by SDS-polyacrylamide gel electrophoresis the subunit pattern of 'proteinase I' is similar to alpha-macroglobulin. Immunoelectrophoretic analyses of 'proteinase I' with antisera to rat alpha 1-macroglobulin, alpha 2-macroglobulin, and rat liver cathepsins reveal that this high-molecular-mass proteinase is a complex of alpha 1-macroglobulin and the cysteine proteinases cathepsin B, H and L. A similar 'proteinase' has been isolated from rat serum. Two ATP-activated high molecular-mass proteinases that have been previously identified in liver and heart muscle by other investigators equally show a positive immunological reaction with the antiserum raised against 'proteinase I'. From these data, together with results presented in an accompanying paper (Kuehn, L., Dahlmann, B., Gauthier, F. and Neubauer, H.-P. (1989) Biochim. Biophys. Acta 991, 263), we conclude that the ATP-stimulated high-molecular-mass proteolytic activity is partly due to the presence of a complex of alpha-macroglobulin and cysteine proteinases.
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PMID:ATP-activated, high-molecular-mass proteinase-I from rat skeletal muscle is a cysteine proteinase-alpha 1-macroglobulin complex. 247 Apr 10

Human pancreatic kallikrein (H. Panc. K.) was purified from human pancreas by serial liquid chromatographies. The final preparation had a specific activity of 9.2 AU/A280 (AU: amidase unit for H-Pro-Phe-Arg-MCA) and its N-terminal sequence coincided with the reported sequence determined from cloned cDNA analysis. In HPLC (gel filtration), one symmetrical peak corresponding to a molecular weight of 48,000 was obtained. In SDS-PAGE without 2-mercaptoethanol, one band corresponding to a molecular weight of 52,000 was obtained. Protease inhibitor specificities of H. Panc. K. were the same as those of human urinary kallikrein (HUK) and hog pancreatic kallikrein (hog Panc. K.), while anti-HUK rabbit antibody inhibited the activities of H. Panc. K. and HUK, but not that of hog Panc. K. From the analysis of affinity for concanavalin A and erythroagglutinating phytohemagglutinin, the carbohydrate parts of H. Panc. K. are relatively rich in bi-(or multi-) antennary complex type sugar chains with bisecting GlcNAc compared with those of human salivary kallikrein and HUK. These findings will be a help to clarify the physiological and pathophysiological roles of H. Panc. K. in the pancreas and pancreatic diseases, especially in acute pancreatitis.
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PMID:[Purification of human pancreatic kallikrein and organ-specificities of human glandular kallikreins]. 260 Nov 18

Human pancreatic kallikrein (H.Panc.K.) was purified from human pancreas by ion exchange chromatography on DEAE-cellulose, affinity chromatographies on p-aminobenzamidine Sepharose 6B and aprotinin aminocellulofine, followed by gel filtration on Sephacryl S-200. The final preparation had a specific activity of 9.2 AU/A280 (AU; amidase unit for H-Pro-Phe-Arg-MCA) and its N-terminal sequence coincided with the reported sequence for H.Panc.K.. In HPLC (gel filtration), one symmetrical peak corresponding to a molecular weight of 48,000 was obtained. In SDS-PAGE without 2-mercaptoethanol (2-ME), one band corresponding to a molecular weight of 52,000 was obtained, but with 2-ME, 2 bands, 52,000 and 30,000, were obtained. Km value for MCA was 4.9 x 10(-2) mM. Proteinase inhibitor specificities of H.Panc.K. were the same as those of human urinary kallikrein (HUK) and hog pancreatic kallikrein (hog Panc.K.), while anti-HUK antibody inhibited the activities of H.Panc.K. and HUK, but not that of hog Panc.K.. From the analysis of affinity for concanavalin A (Con A) and erythroagglutinating phytohemagglutinin (E-PHA), the carbohydrate parts of H.Panc.K. are relatively rich in biantennary complex type sugar chains with bisecting GlcNAc compared with those of human salivary kallikrein (H.Saliv.K.) and HUK.
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PMID:Characterization of human pancreatic kallikrein. 261 57

Two children with Alport's syndrome are described, who developed anti-glomerular basement membrane (GMB) antibody-mediated nephritis after renal transplantation. The reactivity of antibodies in their serum with collagenase-solubilized normal GBM was examined by SDS-PAGE with one- and two-dimensional immunoblotting. The specificity was compared with that of antibodies present in serum from a patient with Goodpasture's syndrome, and a mouse monoclonal antibody (MCA-P1), directed against the Goodpasture antigen. All reacted in a similar way with collagenase-solubilized GBM. Since abnormalities in the composition of the GBM are present in Alport's syndrome, it is proposed that differing antigen composition of GBM in the host compared with the donor kidney, together with transplant rejection, may have provoked the development of post-transplant anti-GBM antibodies.
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PMID:The development of anti-glomerular basement membrane nephritis in two children with Alport's syndrome after renal transplantation: characterization of the antibody target. 264 9

The hatching enzyme is an embryo-secreted enzyme(s) which digests the egg envelope, allowing the embryo to emerge at the time of hatching. The hatching enzyme of the fish, Oryzias latipes, has recently been found to consist of two kinds of proteases which may digest the inner layer of chorion (egg envelope) cooperatively [Yasumasu, S. et al. (1988) Zool. Sci. 5, 191-195]. In the present study, one of them, high choriolytic (egg envelope digesting) enzyme (HCE) was purified and some biochemical and enzymological properties were examined. The enzyme was a basic protein with a molecular weight of about 24 kDa, and exhibited choriolytic activity as well as proteolytic (caseinolytic) activity. The results of inhibitor studies and metal analyses strongly suggested that it was a zinc-protease. The purified HCE consisted of two probable isomers, HCE-1 and HCE-2. Both of them were markedly similar in amino acid composition, specific activities of choriolysis and proteolysis, and substrate specificity as determined using MCA-peptides. Moreover, they were not separable on SDS-PAGE, electrofocusing PAGE, or ultracentrifugal analysis, but were discriminated only on HPLC with a CM-300 column. Thus, the mixture of HCE-1 and HCE-2 could be regarded as almost a single enzyme, HCE. When it acted on an intact chorion, the purified HCE caused a remarkable swelling of its inner layer with concomitant release of peptides from it. Once the inner layer of chorion was swollen, the enzyme hardly digested it.
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PMID:Purification and partial characterization of high choriolytic enzyme (HCE), a component of the hatching enzyme of the teleost, Oryzias latipes. 265 64

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