EC:3.4.21.4 - FACTA Search

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)

The effects of a highly-purified, potently bactericidal fraction from rabbit polymorphonuclear leukocytes on the envelope of Escherichia coli (W) have been examined. This leukocyte fraction has equally enriched bactericidal, permeability-increasing and phospholipase A2 activities, and is essentially devoid of lysozyme, myeloperoxidase and protease activities (Weiss, J., Franson, R.C., Beckerdite, S., Schmeidler, K. and Elsbach, P. (1975) J. Clin. Invest. 55, 33-42). Rapid killing of E. coli by this fraction is accompanied by two almost immediate alterations in the bacterial envelope: (1) a discrete increase in envelope permeability (measured by inhibition of bacterial leucine incorporation by normally impermeant actinomycin D), and, (2) hydrolysis of 14C-labeled fatty acid-prelabeled E. coli phospholipids. Both envelope effects are promptly reversed during further incubation at 37 degrees C, But not at 0 degrees C, with 40 mM Mg2+. Reversal is also produced by Ca2+ (40 mM) and trypsin (200 mug/ml), but 200 mM K+ causes only partial recovery and Na+ and hyperosmolar sucrose are ineffective. Upon addition of Mg2+, phospholipid degradation ceases abruptly and the labeled products of hydrolysis (free fatty acids and lysocompounds) disappear with a corresponding reaccumulation of radioactive diacylphosphatides. The time course of resynthesis of phospholipids coincides with that of restoration of the permeability barrier. Higher concentrations of the leukocyte fraction and prolonged incubation increase both the extent of phospholipid degradation and the time required for reversal of both envelope effects. These findings suggest that both the initiation of the increased permeability and its reversal are linked to respectively the breakdown and resynthesis of major E. coli membrane phospholipids, and thus depend on the fact that the biochemical apparatus of E. coli remains capable of biosynthesis despite loss of viability. Treatment of E. coli, exposed to the leukocyte fraction, with albumin results in extracellular sequestration of the products of hydrolysis and also restores the permeability barrier to actinomycin D, suggesting that the accumulation of lytic products of lipid hydrolysis within the bacterial envelope, rather than the loss of phospholipids per se, causes increased permeability Whereas the effects on the envelope are reversible as long as 2 h after nearly complete loss of ability to multiply by E. coli, the effect on bacterial multiplication is irreversible within 5 min.
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PMID:Reversible envelope effects during and after killing of Escherichia coli w by a highly-purified rabbit polymorpho-nuclear leukocyte fraction. 77 27

Nerve growth factor (NGF) receptor binding in membrane fractions of rabbit superior cervical ganglia has been measured after treatment with a variety of enzymes, protein-modifying reagents, and ions. Receptor binding is degraded by low concentrations of trypsin but is much less sensitive to alpha-chymotrypsin. Low concentrations of phospholipase A from Vipera russelli decrease NGF receptor binding by lowering the number of binding sites, while phospholipase A preparations from Crotalus terrificus terrificus and bee venom do not affect binding. Phospholipase C and D, neuraminidase, DNase, and RNase have minimal effects on receptor binding. NGF receptor binding appears to be absolutely dependent upon calcium ion. Removal of calcium from the incubation medium greatly reduces binding as does treatment with EDTA. Maximal receptor binding occurs at 5 mM calcium. Magnesium and sodium are unable to substitute for calcium. Receptor binding is greatly reduced by treating membranes with 2-hydroxy-5-nitrobenzyl bromide, 2-methoxy-5-nitrobenzyl bromide, diazonium tetrazole, and tetranitromethane. NGF receptor sites can be protected from 2-hydroxy-5-nitrobenzyl bromide by incubation with NGF.
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PMID:Nerve growth factor receptor binding. Influence of enzymes, ions, and protein reagents. 80 4

Various enzymes and protein reagents inhibited [3H]prostaglandin F2alpha binding to bovine corpus luteum cell membranes. Studies were undertaken (a) to explore further on the dose response relationships with the above agents, (b) to investigate the mechanism of inhibition of binding with respect to receptor affinities and number and (c) to assess whether decreased binding reflected changes in receptors and/or other membrane components. Preincubation of membranes with phospholipase A, trypsin, pronase, lipase, tetranitromethane, dinitrofluorobenzene, acetic anhydride and N-ethylmaleimide resulted in moderate to drastic inhibitions of [3H]prostaglandin F2alpha binding. The dose-dependent inhibition of binding by enzymes, but not by protein reagents (except for N-ethylmaleimide), exhibited a biphasic pattern: at lower concentrations, the loss of binding was low and relatively plateaued, but at higher concentrations, the losses were dramatic. The drastic reduction in binding by trypsin was due to destruction rather than solubilization of receptors from membranes. Phospholipase A was intrinsically more effective than phospholipases C and Ca2+ was not required for its inhibition of [3H]prostaglandin F2alpha binding. Protein reagents inhibition of binding was differently influenced by added Ca2+ i.e., loss of binding increased with some (N-ethylmaleimide), decreased with others (tetranitromethane, dinitrofluorobenzene and azobenzene sulfenylbromide). These results are interpreted to indicate that Ca2+ induced conformational changes in membranes which may result in exposure of new groups and burying of already exposed modifiable groups. Treatment of membranes with trypsin and N-ethylmaleimide selectively abolished high affinity prostaglandin F2alpha receptors. The low affinity receptors were present but their numbers as well as their affinity were decreased. Lipase, phospholipase A, acetic anhydride, dinitrofluorobenzene and tetranitromethane appear to decrease binding by totally abolishing all prostaglandin F2alpha receptors or by severely reducing their affinities. The occupancy of receptors by prostaglandin F2alpha afforded considerable protection against trypsin, phospholipase A, lipase and dinitrofluorobenzene. These data indicated that the inhibition of binding by the above agents, at least in part, can be attributable to changes in receptor sites alone.
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PMID:Prostaglandin F2alpha receptors in bovine corpus luteum cell membranes. Effect of enzymes and protein reagents. 81 35

A 4% cholesterol diet fed to rats for four weeks was found to increase the phospholipid and cholesterol contents and the activities of drug metabolizing enzymes in rat liver microsomes. Microsomes from rats on a high cholesterol diet were able to enhance the fluorescence of membrane bound 1-anilinonaphthalene 8-sulphonate (1,8-ANS) and ethidium bromide more than microsomes from rats on a standard diet. In the case of 1,8-ANS, the enhanced fluorescence was found to be due to the increased affinity of the molecules for microsomes. In the case of ethidium bromide the fluorescence increased partly because of the larger amount of binding sites and partly because of the enhanced quantum yield of the molecules. P-nitrophenol was found to compete with 1,8-ANS for the same binding sites in microsomes. On the other hand, 1,8-ANS lowered the rate of drug metabolism when present in the incubation mixture. In vitro treatments of microsomes with trypsin, phospholipase A or digitonin altered the binding properties of 1,8-ANS and ethidium bromide to microsomes. It is concluede that the binding sites of 1,8-ANS in microsomes are important for the activity of drug-metabolizing enzymes. The mechanisms of dietary cholesterol in enhancing the drug metabolism and the role of microsomal phospholipids in regulating the activity of drug-metabolizing enzymes are discussed.
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PMID:Dietary cholesterol caused modification in the structure and function of rat hepatic microsomes, studied by fluorescent probes. 82 81

The complete amino acid sequence of phosphlipase A2 (EC 3.1.1.4) from horse pancreas was determined. The protein controls of a single polypeptide chain of 125 amino acids and has a molecular weight of 13,927. The chain is crosslinked by seven disulfide bridges. The sequence was determined by automated Edman degradation of the intact protein and several of the large peptide fragments. Smaller peptides were analyzed by manual Edman degradation. Fragmentation of the peptide chain was accomplished by enzymatic digestion with trypsin, chymotrypsin, and thermolysin. The final overlap was found by digestion of the polypeptide with a staphylococcal protease specific for glutamoyl bonds. Phospholipase A2 from horse pancreas shows homology to snake venom phospholipases A2 and to the enzyme from porcine pancreas, provided that the published amino acid sequence of the porcine phospholipase A2 is revised to some extent.
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PMID:Amino acid sequence of phospholipase A2 from horse pancreas. 83 12

Recently we reported that rapid killing of Escherichia coli by granulocytes or granulocyte fractions is accompanied by an equally rapid and discrete increase in permeability of the microbial envelope (Beckerdite, Mooney, Weiss, Franson, and Elsbach. 1974. J. Exp. Med. 140: 396-409). Most of this permeability-increasing activity (PI) is found in a crude granule preparation. PI is quantitatively recovered in a 23,000-g supernatant fraction (Sup II) after sulfuric acid extraction of granulocyte homogenates prepared in water. PI is nondialyzable, destroyed by pronase and trypsin, stable at 4degreesC for at least 2 mo, and destroyed by heating at 94degreesC. Anionic substances, such as heparin sulfate and isolated E. coli lipopolysaccharide, bind to and inhibit PI. PI has been purified up to 1,000-fold from homogenate in a yield of 50percent by acid extraction and carboxymethyl-Sephadex chromatography. Such purified fractions have bactericidal activity that equals that of disrupted granulocytes and Sup II, are similarly enriched with respect to granule-associated phospholipase, and protease activities. Whereas E. coli, sensitive to PI, binds or inactivates solubilized PI, a resistant strain of Serratia marcescens does not. Binding of PI to sensitive microorganisms seems to be necessary for expression of its biological activity since both the apparent binding to and the biological effect of PI on E. coli are completely blocked by 10-20 mM Mg2+ or Ca2+. Mg2+ or Ca2+ can reverse the effect on E. coli permeability produced by Sup II or the carboxymethyl-Sephadex fraction but not that produced by granulocyte homogenate. The close association of bactericidal, phospholipase A2, and permeability-increasing activities towards several gram-negative bacterial species suggests that they may be related.
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PMID:Partial characterization and purification of a rabbit granulocyte factor that increases permeability of Escherichia coli. 108 9

Reduced and S-carboxymethylated phospholipase A (Fraction DE-III) from Naja melanoleuca venom was digested with trypsin, chymotrypsin and thermolysin. The resulting peptides were purified by ion-exchange chromatography on DEAE-cellulose, gel filtration on Sephadex G-25 or G-50 and chromatography and electrophoresis on paper. The amino acid sequences of the intact enzyme and the pur peptides were determined by the Edman procedure, either through the use of the automatic sequencer or by manual manipulation. The chymotryptic digest provided the necessary overlapping peptides which allowed the alignment of the tryptic peptides into a single chain of 119 amino acids. The amino acid sequence of N. melanoleuca phospholipase A shows a high degree of homology with phospholipases A from Bitis gabonica and also from porcine pancreas.
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PMID:Naja melanoleuca (forest cobra) venom. The amino acid sequence of phospholipase A, fraction DE-III. 112 91

The complete amino acid sequences of phospholipase A (Fractions DE-I and DE-II) from Naja melanoleuca (Forest cobra) have been elucidated. The reduced and S-carboxymethylated isoenzyme were digested with trypsin and thermolysin and the peptides were purified by ion-exchange chromatography, gel filtration and chromatography or electrophoresis on paper. The Edman procedure, either through the use of the automatic sequencer or by manual manipulation, was employed to obtain the sequences of the intact isoenzymes and the pure peptidesmthe thermolysin digest provided the necessary overlapping peptides which allowed the alignment of the tryptic peptides of Fraction DE-I. The tryptic peptides of Fraction DE-II were either identical or homologous to the tryptic peptides of Fraction I and Fraction III [12] and were aligned in the same order as that of Fractions DE-I or DE-III. The amino acid sequence of N. melanoleuca phospholipase A, Fraction I, shows a high degree of homology with Fraction DE-II and also with Fraction DE-III, previously reported on [12].
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PMID:The amino acid sequence of phospholipase A, fractions DE-I and DE-II. 112 92

1. Intestinal brush border enzymes have heterogeneous rates of turnover, the largest proteins having the fastest turnover. Since the membrane faces the intestinal lumen, the effects of pancreatic factors were examined in mediating this turnover. Surgical subtotal pancreatectomy was used as an experimental model to study the turnover of brush border proteins in the absence of most pancreatic secretions. 2. Subtotal (95%) pancreatectomy of rats was found to cause elevations by about 50% of total activity and specific activities of certain brush border enzymes (maltase, sucrase, lactase), but not of others (alkaline phosphatase, trehalase). Rats were judged to be functionally deficient in pancreatic proteolytic enzymes (a) by demonstration of vitamin B-12 malabsorption, which was corrected by trypsin, and (b) by the finding of only about 20% of proteolytic activity appearing in the lumen after a test meal when compared to control. 3. To measure protein turnover in vivo the method of double labelling was used, where [3H]- and [14C]valine were administered intraduodenally in sequence 10 h apart. With this technique, a high 3H/14C ratio is correlated with rapid turnover. Proteins with apparent molecular weights of about 200 000-270 000 were found to turn over more rapidly than smaller proteins. 3H/14C ranged from 4.7 to 6.2 in animals without pancreatic insufficiency. In the face of decreased pancreatic proteolysis, the 3H/14C ratio was 2.3-3.1, similar to that of proteins with a slow half life. 4. Estimates of relative synthetic rates of large brush border proteins were lower than normal in pancreatectomized animals, but were constant over the period of the labelling experiment. The high enzyme levels in the face of lower synthetic rates confirms that, at the new steady rate, degradation rates must be slower for large brush border proteins in pancreatic insufficiency. 5. In vitro, using purified brush borders, unfractionated pancreatic enzymes were found to remove sucrase, maltase and lactase, but not alkaline phosphatase and trehalase. The enzyme most potent in this respect was the pancreatic protease, elastase. Non-proteolytic enzymes (amylase, lipase, phospholipase A) were inactive in removing enzyme from the brush border. The addition of elastase to pancreatectomized animals in vivo restored the rapid turnover rate of large brush border proteins. 6. A model is thus proposed for the normal catabolism of some large intestinal brush border proteins. It is suggested that the surface of intestinal absorptive cells is being constantly remodelled, and that certain surface enzymes are in part removed from the membrane by the action of pancreatic proteases. A possible special role for elastase is suggested.
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PMID:The possible role of pancreatic proteases in the turnover of intestinal brush border proteins. 114 88

Treatment of porcine pancreatic prophospholipase A2 with methyl acetimidate converted all lysine residues into epsilon-acetimidolysine residues. Enzymatically active epsilon-amidinated phospholipase A2 (AMPA) was obtained from the epsilon-amidinated zymogen by limited tryptic proteolysis cleaving the Arg7-Ala8 bond. AMPA was used to prepare des-Ala8-, des-(Ala8,Leu9)- and des-(ALa8),Leu9,Trp10)-AMP by successive Edman degradations, and des-(A la 8-Arg13)-AMPA by selective splitting of the Arg13-Ser14 bond by trypsin. Structural analogues of AMPA with different N-terminal amino acid residues, viz., D-Ala, beta-Ala, and Gly, have been prepared by reacting des-Ala8-AMPA with the corresponding N-t-Boc-N-hydroxysuccinimide esters of these amino acids. Similarly, the only Trp10 residue has been substituted for Phe by coupling of des-(Ala8-,Leu9,Trp10)-AMPA with N-t-Boc-L-Ala-L-Leu-L-Phe-N-hydroxysuccinimide ester. The feasibility of these substitutions has been proven unambiguously by the retroconversion of des-Ala8-AMPA and of [Ala7]AMPA into AMPA having identical enzymatic activity as the starting AMPA. The single Trp10 residue in native phospholipase A2 and its zymogen was specifically sulfenylated using 0-nitrophenyl-sulfenyl chloride. The homogenous proteins were kinetically analyzed using short-chain lecithins in the monomeric and micellar region. All modified AMPA analogues, except those in which two or more of the N-terminal amino acid residues are removed, show enzymatic activities toward monermic substrate comparable to that of AMPA, indicating that the active site region is still intact. Only [Gly8]-, [beta-Ala8]-, and [Ala8,Leu9,Phe10]AMPA exhibit a dramatic increase in enzymatic activity similar to that of AMPA upon passing the critical micellar concentration (cmc) of the substrate. From these results it can be concluded that the N-terminal region of the enzyme requires a very precise architecture in order to interact with lipid-water interfaces and consequently to display its full enzymatic activity.
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PMID:Specific transformations at the N-terminal region of phospholipase A2. 123 12

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