EC:3.4.21.4 - FACTA Search

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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)

It was the purpose of this study to define the chromogranin A-processing proteinases present in highly purified preparations of bovine chromaffin granules. The most active enzyme had a pH optimum of 5.0 and was inhibited by pepstatin. It could be identified immunologically as a cathepsin D-like enzyme and subcellular fractionation established its lysosomal origin. After removal of this enzyme the remaining activity at pH 5.0 was mainly due to a cathepsin B-like proteinase. The presence of this enzyme could also be attributed to lysosomal contamination. In the presence of calcium, a further proteolytic activity became apparent at pH 5.0. This enzyme which was inhibited by rho-chloromercuriphenylsulfonic acid was localized in chromaffin granules. A trypsin-like peptidase, most active at pH 8.2, was enriched in a membrane wash of chromaffin granules. Subcellular fractionation indicated that this enzyme is preferentially bound to the membranes of very dense particles probably representing a subpopulation of chromaffin granules. This study establishes that the most active chromogranin A-degrading proteinases present in highly purified chromaffin granules are attributable to lysosomal contamination. Two enzymes with low activity (a Ca2+ activated proteinase and a trypsin-like enzyme) are, apparently, true constituents of chromaffin granules.
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PMID:Chromogranin A-processing proteinases in purified chromaffin granules: contaminants or endogenous enzymes? 215 64

True protein digestibilities of 17 protein sources were estimated by 6 laboratories using an in vitro, 3-enzyme digestion system in a pH stat. Samples from animal, vegetable, and mixed food sources were freeze-dried (if not already dried), ground, mixed, and shipped to each collaborator along with a sodium caseinate standard and trypsin, chymotrypsin, and peptidase. The uptake of titrant during enzymatic digestion was used to calculate estimates of digestibility. Digestibilities ranged from 100% for casein to 89.9% for whole wheat cereal. Mean relative standard deviations for repeatability were 1.4% for rolled oats and less than 1% for the remaining 16 samples. Mean relative standard deviations for reproducibility ranged from 5.0 to 0.8%; values were less than 2.5% for 13 of the 17 samples.
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PMID:In vitro assay for protein digestibility: interlaboratory study. 221 87

Peptidases, including chymotrypsin, thermolysin, trypsin, V8 protease, and carboxypeptidases A, B, and Y, were immobilized for use in conjunction with HPLC/thermospray MS for the analysis of neuropeptides. The optimal operating conditions for each immobilized enzyme bioreactor were determined. Optimal hydrolysis usually occurred at the highest percentage of aqueous solution in the mobile phase at pH 7-8 and 40-50 degrees C. Often post-HPLC column addition of aqueous solutions before the bioreactor could improve activity and thermospray sensitivity without changing the HPLC separation. Enzymatic hydrolysis requirements were compatible under conditions for HPLC separation and thermospray MS detection of the selected neuropeptides. Synthetic alpha-, beta-, and gamma-endorphins were the primary neuropeptides used to evaluate on-line immobilized enzyme bioreactor/MS. HPLC followed by peptidase hydrolysis produced characteristic hydrolysis products for confirming the peptides' identity using thermospray MS detection. Furthermore, the peptide formed from enzymatic hydrolysis resulted in a MS ion current 10-40 times higher than that of the [M + 2H]2+ ion for unhydrolyzed beta-endorphin. The increased sensitivity achieved for detecting the hydrolysis products permits detection and quantitation of synthetic peptides down to 800 fmol.
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PMID:Optimization of immobilized enzyme hydrolysis combined with high-performance liquid chromatography/thermospray mass spectrometry for the determination of neuropeptides. 222 71

Met-enkephalin and related proenkephalin A-derived peptides circulate in plasma at picomolar concentration as free, native pentapeptide and at nanomolar concentration in cryptic forms. We have optimized conditions for measurement of immunoreactive Met-enkephalin in plasma and for generation by trypsin and carboxypeptidase B of much greater amounts of total peptidase-derivable Met-enkephalin in plasma of rats, dogs, and humans. Free Met-enkephalin (11 pM) is constituted by native pentapeptide and its sulfoxide. Characterization of plasma total Met-enkephalin derived by peptidic hydrolysis revealed a small amount (38 pM) of Met-enkephalin associated with peptides of molecular mass less than 30,000 D, and probably derived from proenkephalin A, but much larger amounts of Met-enkephalin associated with albumin (1.2 nM) and with a globulin-sized protein (2.8 nM). Thus, plasma protein precursors for peptidase-derivable Met-enkephalin differ structurally and chemically from proenkephalin A. Met-enkephalin generated from plasma by peptidic hydrolysis showed naloxone-reversible bioactivity comparable to synthetic Met-enkephalin. Prolonged exposure of adult, male rats to restraint stress produced biphasic plasma responses, with peaks occurring at 30 s and 30 min in both free native and total peptidase-derivable Met-enkephalin. Repeated daily exposure to this 30-min stress resulted in adaptive loss of responses of both forms to acute restraint. Initial plasma responses of Met-enkephalin paralleled those of epinephrine and norepinephrine, but subsequently showed divergence of response. In conclusion, Met-enkephalin circulates in several forms, some of which may be derived from proteins other than proenkephalin A, and plasma levels of both free native, and peptidase-derivable Met-enkephalin are modulated physiologically.
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PMID:Plasma native and peptidase-derivable Met-enkephalin responses to restraint stress in rats. Adaptation to repeated restraint. 231 29

Plasma concentrations of both native (pentapeptide plus its sulfoxide) and peptidase-derivable (trypsin followed by carboxypeptidase-B) Met-enkephalin showed brisk increases in response to the stresses of immobilization, hemorrhage, and electric footshock in conscious, freely moving, adult male rats. Daily exposure to 150-min periods of immobilization resulted in a maintained increase in baseline plasma concentrations of native Met-enkephalin 21.5 h after the sixth day and a further increase after 39 days. The plasma native Met-enkephalin response to acute immobilization was attenuated on day 7 and completely absent on day 40. Unstressed rats showed a plasma native Met-enkephalin response to hemorrhage of 15% blood volume and a further increase in response to 25% hemorrhage. Immediately after initial acute immobilization or 6 days of daily immobilization when plasma native Met-enkephalin was elevated but the response to acute immobilization was attenuated, plasma native Met-enkephalin responses to hemorrhage were also attenuated. Rats that had been immobilized daily for 40 days and showed no plasma native Met-enkephalin response to acute immobilization also showed no responses to hemorrhage. After 39 days of immobilization when there was no plasma native Met-enkephalin response to acute immobilization, there was also no response to footshock. Thus, development of tolerance or adaptive loss of plasma native Met-enkephalin response to immobilization with repeated exposure to this stressor is associated with cross-tolerance or adaptive loss of the responses to the stresses of hemorrhage or electric footshock. Development of tolerance and cross-tolerance of plasma responses of peptidase-derivable Met-enkephalin paralleled that of native Met-enkephalin. Thus, adaptation of plasma Met-enkephalin responses to repeated exposure to a stressor included both increased resting secretion and decreased acute responses to homotypic or novel stressors.
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PMID:Tolerance and cross-tolerance to stress-induced increases in plasma Met-enkephalin in rats with adaptively increased resting secretion. 231 62

1. Lugworm protease C further purified by benzamidine-affinity chromatography, exhibited peptidase specificity for arginyl and lysyl bonds. 2. Protease C consisted of a single polypeptide with a mol. wt of ca 23,000 as determined by SDS polyacrylamide gel electrophoresis, exhibited a u.v. absorption maximum at 280 with an (mg/ml) extinction coefficient of 0.93 and fluorescence spectra typical of a protein containing tryptophan, and had an amino acid composition similar to trypsins. 3. The Kms of the cleavages of the arginyl bond of oxidized insulin B chain and of the lysyl bond of the gly23-ala30 fragment were determined to be 0.72 and 0.96 mM; the corresponding kcats were 38 sec-1 and 1.5 sec-1. The Km and kcat for TAME were 0.042 mM, and 110 sec-1. 4. Lugworm protease C was confirmed to be a trypsin.
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PMID:Characterization and peptidase specificity of lugworm (Arenicola cristata) protease C. 234 31

We present here a detailed study of the effect of detergents on the three peptidase activities (hydrolysis of the LLVY, ARR, and LLE peptides) of the purified multicatalytic proteinase from rat liver. At Triton X-100 and sodium dodecyl sulfate (SDS) concentrations of 0.1%, all three peptidase activities are inhibited. Lower concentrations of the two detergents (0.01%) do not affect the hydrolysis of the ARR peptide, whereas they behave differently on the hydrolysis of the LLVY and LLE peptides. Triton X-100 inhibits and SDS strongly activates LLVY peptide hydrolysis by decreasing and increasing Vmax, respectively. In the absence of detergents, the saturation curve for the LLE peptide can be analyzed as the result of two components, one showing cooperative (nH = 1.6) with higher affinity (S0.5 = 60 microM) and lower Vmax than a second, noncooperative component (Km = 320 microM). SDS (0.01%) activates LLE peptide hydrolysis by suppressing cooperativity, slightly increasing Vmax, and decreasing the half-saturation concentration (Km = 30 microM) of the enzyme. Triton X-100 (0.01%) also suppresses the cooperativity and decreases the half-saturation concentration (Km = 25 microM) for the LLE peptide; in contrast, it reduces Vmax by inhibition of the low affinity, high Vmax component observed in the absence of detergents. Based on these observations, it can be concluded that both detergents behave like allosteric activators of peptidylglutamyl-peptide hydrolyzing activity and that the multicatalytic proteinase has at least three different classes of active sites: two independent noncooperative sites that catalyze the hydrolysis of trypsin and chymotrypsin-like substrates and one class for peptidylglutamyl-peptide hydrolysis having two components: one cooperative (two or more sites) and one noncooperative.
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PMID:Kinetic studies of the differential effect of detergents on the peptidase activities of the multicatalytic proteinase from rat liver. 238 Jan 98

We compared the in vitro degradation of porcine and human insulin in the subcutaneous tissue of rat. The insulin degrading activity was largely confined to the 160000 X g supernatant fraction of subcutaneous tissue. The degradation of human insulin was approximately half that of porcine insulin in the supernatant fraction. The degradation of porcine insulin in subcutaneous tissue was inhibited by bacitracin, leupeptin, phosphoramidon, and Z-Gly-Pro-Leu-Gly, though the human insulin degradation was not. The degradation of both insulins was accelerated by glutathione. While the proteolytic enzyme activities of cathepsin-B and collagenase-like peptidase were detectable in subcutaneous tissue, chymotrypsin, elastase, kallikrein, alpha-thrombin, and trypsin activities were almost negligible. These in vitro studies suggest that human insulin is comparatively stable against proteolytic enzymes, probably collagenase-like peptidase or cathepsin-B, in the subcutaneous tissue, which support the in vivo evidence.
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PMID:Fate of porcine and human insulin at the subcutaneous injection site. II. In vitro degradation of insulins in the subcutaneous tissue of the rat. 240 62

The peptides substance P (SP) and vasoactive intestinal peptide (VIP) released from peptidergic neurons have potent effects on gland secretion and on smooth muscle tone. Because mast cells release proteases during degranulation, and are located in many of the same tissue microenvironments into which SP and VIP are released, we wished to examine whether mast cell proteases, by cleaving and thus inactivating these peptides, could modulate their effects. We used active site-titrated preparations of the two major neutral proteases of mast cell granules, tryptase and chymase, to determine the sites and rates of cleavage of SP and VIP. The proteases were purified from dog mastocytomas. Tryptase cleaved VIP rapidly at two sites with a kcat/Km of 2.2 X 10(5) sec-1 M-1, but had no effect on SP. Chymase cleaved both SP and VIP at primarily a single site with kcat/Km of 3.9 X 10(4) and 5.4 X 10(4) sec-1 M-1, respectively. Thus, these data show that mast cell proteases degrade SP and VIP. The differences in peptidase activity between tryptase and chymase suggest that the consequences of protease release could vary according to mast cell protease phenotype and location in various tissues and species. Tryptase, by cleaving the bronchodilator VIP but not the bronchoconstrictor SP, might promote bronchial hyper-responsiveness in asthma by decreasing the nonadrenergic neural inhibitory influence mediated by VIP. In skin and other tissues, chymase might interrupt axon reflex-mediated neurogenic inflammation by cleaving SP.
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PMID:Substance P and vasoactive intestinal peptide degradation by mast cell tryptase and chymase. 244 73

The biochemical and pharmacological properties of an endogenous anticonvulsant substance(s) found in rat cerebrospinal fluid (CSF) following seizures are described. CSF taken from donor rats following a single maximal electroshock (MES) seizure caused significant elevations in seizure thresholds in naive recipient rats when intracerebroventricularly injected 15 min prior to exposure to the volatile convulsant flurothyl. Anticonvulsant activity was antagonized by pre-injection in recipients of high doses of naloxone or the selective delta-opioid receptor antagonist ICI 174,864. The anticonvulsant activity was also lost when the CSF was exposed to heat (90 degrees C) or immobilized trypsin. Although unaffected by the peptidase inhibitors thiorphan and bestatin, the anticonvulsant activity was significantly potentiated by a combination of aprotinin and bacitracin. Ultrafiltration of CSF revealed that the anticonvulsant activity passed through membranes with a 10,000 molecular weight cut-off, but was retained by membranes with a 5000 molecular weight cut-off. CSF removed from rats following MES had significantly increased concentrations of beta-endorphin-like, but not dynorphin A, Leu- or Met-enkephalin-like immunoreactivities relative to CSF from sham-treated rats. However, significant increases in Met-enkephalin-like immunoreactivity were measured following exposure of the CSF to the proteolytic enzymes trypsin and carboxypeptidase B, suggesting the seizure-induced presence of a higher molecular weight form of Met-enkephalin not recognized immunologically prior to enzyme exposure. These data reconfirm the anticonvulsant actions of postseizure CSF, and indicate that these effects require mediation through delta-opioid receptors in the recipient rat. These data additionally argue against these effects being mediated by Met-enkephalin, Leu-enkephalin or dynorphin A in the CSF, and suggest instead that anticonvulsant effects are attributable to a heat- and trypsin-sensitive opioid peptide(s) with a molecular weight approximately in the range of 5000-10,000 Da.
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PMID:Characterization of opioid peptide-like anticonvulsant activity in rat cerebrospinal fluid. 245 10

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