EC:3.4.22.32 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.22.32 (bromelain)
1,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hydrolytic and enzymic degradation of poly(L-lactic acid) (PLA) and poly(gamma-benzyl L-glutamate) (PBGA) films, together with a series of surface treatments, were studied, as a function of exposure time. The degradation of these polymers was monitored by weight loss, contact angle, pH changes and tensile strength studies. Glutaraldehyde treatment retained the maximum strength of PLA in buffer, followed by carbodiimide, compared with control films. On the other hand, plasma glow reversed the effect. The ability of alpha-chymotrypsin, carboxypeptidase, ficin, esterase, bromelain and leucine aminopeptidase to modulate the degradation of PLA and PBGA was also investigated. Addition of these enzymes to the polymer-buffer system reduced the tensile strength of these polymers variably. Among the six enzymes studied, leucine aminopeptidase showed the highest enzymic effect on the degradation of the glutaraldehyde-treated and bare PLA or bare PBGA films. However, glutaraldehyde-cross-linked PLA demonstrated maximum stability in buffers or in all other enzyme systems studied compared with bare PLA. It is conceivable that surface treatments on these polymers might have altered their physical and chemical configuration and the subsequent degradation properties. Surface modifications may provide new ways of controlling the biodegradation of polymers for a variety of biomedical applications.
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PMID:Effect of plasma glow, glutaraldehyde and carbodiimide treatments on the enzymic degradation of poly (L-lactic acid) and poly (gamma-benzyl-L-glutamate) films. 172 Jun 76

Four different proteases were screened for their capability of selectively digesting murine monoclonal IgGl to obtain active F(ab)2. For the screening, a series of five different mouse monoclonal antibodies (IgGl, k) was used, recognizing different tumor-associated antigens and currently used for radioimmunoimaging studies. The enzymes (pepsin, bromelain, ficin and elastase) showed different fragmentation capability and the fragments obtained showed different stability and immunoreactivity. No digestion was noticed using elastase. Pepsin gave discontinuous results, in that its activity ranged from reduction of IgG to small inactive fragments to an inability to digest the immunoglobulin. Pepsin activity was strongly pH-dependent and immunoreactivity of the obtained fragments was not always conserved. Bromelain and, in particular, ficin gave excellent results. Digestion was always rapid and stable, all five MAbs were reduced to F(ab)2 in a comparable time range and with high yields. Moreover, ficin-obtained F(ab)2 showed a highly conserved immunoreactivity. Therefore, ficin was selected as the murine monoclonal IgGl digestion enzyme to obtain active bivalent antibody fragments. The digestion procedure gave a uniform result for all five different MAbs and was easily scaled up to produce hundreds of milligrams of F(ab)2.
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PMID:A new enzymatic method to obtain high-yield F(ab)2 suitable for clinical use from mouse IgGl. 201 Nov 30

Peptide synthesis catalysed by papain was studied using thio-alpha-amino acids (S-acids) as a carboxyl component. It was found, for example, that with Z-AlaSH (pK 2.70) the maximal yield of the peptide Z-AlaValNH2 was obtained at pH 8-8.5. A two-fold excess of Z-AlaSH furnished peptides with yields close to 100%. Thio-amino acids with bulky side groups, for example, Z-IleSH, Z-Asp(OBu')SH, gave peptides with a low yield. Papain interacts with Z-AlaSH better than do bromelain or ficin.
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PMID:Thio-alpha-amino acids (S-acids) as a carboxyl component in peptide synthesis catalysed by papain. 234 57

In order to maximize staining, modifications of immunostaining methods have included proteolytic enzyme digestion of tissue. The authors performed a study of the effect of ficin in 110 paraffinized specimens, including tonsil, lymph nodes, benign vascular and nerve sheath tumors, and various carcinomas and sarcomas. This agent was compared with pepsin and bromelain, as alternative proteases. A panel of monoclonal and polyclonal antibodies was used, with and without previous digestion by ficin, pepsin, and bromelain. A score was assigned to each stain, based on the number and intensity of reactive cells. Ficin enhanced staining markedly in immunostains with antibodies to keratin and Factor VIII-related antigen (F8RAG). Conversely, it abolished staining for LN-2 (a lymphoid marker) and weakened reactivity for S-100 in nerve sheath tumors. Bromelain produced similar results, except that it enhanced S-100. Pepsin was comparatively less active than ficin and bromelain overall but did produce the greatest amplification of vimentin staining in sarcomas. Digestion with any of the three enzymes failed to influence reactivities of leukocyte common antigen, UCHL-1 (a lymphoid marker), alpha-1-antichymotrypsin, carcinoembryonic antigen, epithelial membrane antigen, and blood group isoantigens. These results may reflect a dissimilar recognition of peptide targets in some antigenic proteins, by ficin, bromelain, and pepsin. Hence, one enzymatic agent is unlikely to produce optimal staining for all determinants. With this proviso, however, ficin appeared to be the best general enhancer for antigens known to require vigorous digestion (e.g., keratin; F8RAG) for optimal reactivity in paraffin sections.
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PMID:The use of proteolysis with ficin, for immunostaining of paraffin sections. A study of lymphoid, mesenchymal, and epithelial determinants in human tissues. 245 44

Because substrate specificities differ between proteolytic enzymes and because knowledge of the optimal enzyme activity levels is necessary in order to standardize procedures used in antibody screening, a study was made of the best common assay method for the routinely employed enzymes bromelain, papain and ficin. Casein degradation was found better suited to this purpose than azoalbumin. With standardization achieved, a useful two-phase bromelain inhibitor technique was devised using bromelain at 20 casein units of activity. This method improved upon the one-stage bromelain technique in terms of sensitivity, freedom from false positive reactions and it compared well with the two-phase papain inhibitor technique.
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PMID:Differences in substrate specificities for cysteine proteinases used in blood group serology, and the use of bromelain in a two-phase inhibitor technique. 267 50

New thiol protease inhibitors, estatins A and B, were isolated from the culture filtrate of Myceliophthora thermophila M4323. The basic, water-soluble inhibitors were characterized as having an agmatine, trans-epoxysuccinic acid and L-phenylalanine or L-tyrosine moieties in the structure. The molecular formulas C18H25N5O5 and C18H25N5O6 for A and B were indicated by elemental analysis and fast atom bombardment MS. Estatins were specific inhibitors against thiol proteases such as papain, ficin and bromelain. They suppressed IgE antibody production in mice, but not IgG.
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PMID:Isolation and characterization of new thiol protease inhibitors estatins A and B. 279 91

When membrane-bound human liver alkaline phosphatase was treated with a phosphatidylinositol (PI) phospholipase C obtained from Bacillus cereus, or with the proteases ficin and bromelain, the enzyme released was dimeric. Butanol extraction of the plasma membranes at pH 7.6 yielded a water-soluble, aggregated form that PI phospholipase C could also convert to dimers. When the membrane-bound enzyme was solubilized with a non-ionic detergent (Nonidet P-40), it had the Mr of a tetramer; this, too, was convertible to dimers with PI phospholipase C or a protease. Butanol extraction of whole liver tissue at pH 6.6 and subsequent purification yielded a dimeric enzyme on electrophoresis under nondenaturing conditions, whereas butanol extraction at pH values of 7.6 or above and subsequent purification by immunoaffinity chromatography yielded an enzyme with a native Mr twice that of the dimeric form. This high molecular weight form showed a single Coomassie-stained band (Mr = 83,000) on electrophoresis under denaturing conditions in sodium dodecyl sulfate, as did its PI phospholipase C cleaved product; this Mr was the same as that obtained with the enzyme purified from whole liver using butanol extraction at pH 6.6. These results are highly suggestive of the presence of a butanol-activated endogenous enzyme activity (possibly a phospholipase) that is optimally active at an acidic pH. Inhibition of this activity by maintaining an alkaline pH during extraction and purification results in a tetrameric enzyme. Alkaline phosphatase, whether released by phosphatidylinositol (PI) phospholipase C or protease treatment of intact plasma membranes, or purified in a dimeric form, would not adsorb to a hydrophobic medium. PI phospholipase C treatment of alkaline phosphatase solubilized from plasma membranes by either detergent or butanol at pH 7.6 yielded a dimeric enzyme that did not absorb to the hydrophobic medium, whereas the untreated preparations did. This adsorbed activity was readily released by detergent. Likewise, alkaline phosphatase solubilized from plasma membranes by butanol extraction at pH 7.6 would incorporate into phosphatidylcholine liposomes, whereas the enzyme released from the membranes by PI phospholipase C would not incorporate. The dimeric enzyme purified from a butanol extract of whole liver tissue carried out at pH 6.6 did not incorporate. We conclude that PI phospholipase C converts a hydrophobic tetramer of alkaline phosphatase into hydrophilic dimers through removal of the 1,2-diacylglycerol moiety of phosphatidylinositol. Based on these and others' findings, we devised a model of alkaline phosphatase's conversion into its various forms.
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PMID:The solubilization of tetrameric alkaline phosphatase from human liver and its conversion into various forms by phosphatidylinositol phospholipase C or proteolysis. 284 68

Binding experiments with radioactively labelled influenza C virions were carried out to investigate the interaction of the virus with human erythrocytes. The erythrocytes from any of 35 different individuals were found to contain influenza C virus-binding sites though their number was variable among the individuals and was much less than that on mouse, rat and chicken erythrocytes. Attachment of influenza C virus to human erythrocytes was inhibited completely by prior treatment of the virus with anti-HE monoclonal antibody having a strong haemagglutination inhibition activity. Pretreatment of erythrocytes with neuraminidase or the neuraminate-O-acetylesterase of influenza C virus resulted in a marked reduction in the level of virus binding. Thus it appears that human erythrocytes have a low level of O-acetylated sialic acid-containing glycoconjugates that can interact specifically with the HE glycoprotein of influenza C virus. Proteolytic digestion of erythrocytes with ficin, bromelain or V-8 protease inhibited virus binding almost completely, suggesting that the erythrocyte receptor for influenza C virus is a glycoprotein. In contrast to these enzymes, trypsin treatment of erythrocytes reduced virus binding by only about 50%, and alpha-chymotrypsin treatment did not inhibit at all. It was also found that treatment of erythrocytes with monoclonal antibody to the M or N blood group antigen greatly inhibited virus binding to the cells. These results, taken together, suggest that most influenza C virus receptors on human erythrocytes, if not all, reside on glycophorin A which is known to possess the M or N blood group activity.
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PMID:Attachment of influenza C virus to human erythrocytes. 304 38

N-Succinyl-glycyl-leucyl-cystein(S-benzyl) p-nitroanilide and N-succinyl-leucyl-leucyl-cystein(S-benzyl) p-nitroanilide were found to be very sensitive substrates for the assay of papain, ficin, and bromelain. These p-nitroanilides were hydrolyzed only very slightly by chymotrypsin, but not detectably by trypsin.
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PMID:Sensitive assay of cysteine proteinases using new peptide p-nitroanilides. 319 47

N-Succinyl-alanyl-methionyl-S-benzylcysteine p-nitroanilide has been found to be a very sensitive chromogenic substrate for the assay of cysteine proteinase papain, ficin and bromelain. N-Succinyl-alanyl-S-benzylcysteine p-nitroanilide and N-succinyl-alanyl-alanyl-S-benzylcysteine p-nitroanilide are also suitable for this purpose. These substrates were hydrolyzed only very slightly or not hydrolyzed at all by trypsin.
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PMID:N-succinyl-alanyl-methionyl-S-benzylcysteine p-nitroanilide as a sensitive substrate for assaying activity of cysteine proteinases. 322 Oct 40

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