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)

The blood content of the enzymes changes under narcosis. The atrophic alterations of the pancreas induced by ligation of its ducts, entail the reduction of the pancreatic enzymes content in the blood. This leads to an increase of the amylase and pepsinogen affinity with the blood plasma proteins participating in the transport of enzymes. In uremia disturbing the fermental homeostasis, the transport properties of proteins and erythrocytes change. Duodenectomy exerts no persistent or obvious effect on the content of pepsinogen, amylase, trypsin and its inhibitor in the peripheral blood plasma and temporarily reduces its lipolytic activity.
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PMID:[Mechanisms stabilizing the concentration of intestinal gland hydrolases in peripheral blood]. 616 64

Prorennin, i.e. the zymogen of rennin, was extracted from fresh calf stomach and purified by ammonium sulfate precipitation, ion exchange chromatography and gel filtration. The purified prorennin was homogeneous as judged by SDS-polyacrylamide gel electrophoresis. A specific antibody to the purified prorennin was induced in rabbits. In a double diffusion test and on immunoelectrophoresis the antibody gave a single precipitin line when run against crude and pure zymogen preparations. In the double diffusion test, the antibody also reacted with a purified rennin but not with gastric proteases (pepsin and pepsinogen) or other proteases (trypsin and Mucor rennin). When the antibody was tested against prorennin and rennin in the double diffusion test, a spur was formed at the junction of the precipitin lines against prorennin and rennin. This result confirms that the two proteins share an antigenically common structure in their molecules and that the activation segment of prorennin contains at least one antigenic determinant.
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PMID:Purification of prorennin and production of its antibody. 617 Jun 33

Chicken pepsinogen is a glycoprotein consisting of a single polypeptide chain and containing the following 367 amino acid residues: Asp23, Asn16, Thr26, Ser41, Glu14, Gln11, Pro18, Gly31, Ala17, Cys7, Val25, Met9, Ile23, Leu28, Tyr22, Phe20, His8, Lys17, Arg7, Trp4. The Mr-value of the protein is 42 074. This value includes the carbohydrate moiety of the protein, i.e. Man3, (GlcNAc)7, (-SO3H)5. The primary fragmentation of the molecule was effected by limited trypsinolysis at arginine residues after preceding modification of the lysines with citraconic anhydride. All eight peptides expected in theory were obtained and their size, amino acid composition, and N-terminal amino acid sequence were characterized. To elucidate the amino acid sequence of these large fragments the latter were subjected to secondary cleavage by CNBr, trypsin (after removal of the protecting groups from the lysines), the proteinase from Staphylococcus aureus V8 strain, alpha-chymotrypsin, hydroxylamine, or dilute acid; the resulting peptides were isolated by gel permeation and ion-exchange chromatography and by the fingerprint techniques. Overlaps at sites of the arginine residues were obtained in an earlier study [Baudys, M. & Kostka, V. (1982) Collect. Czech. Chem. Commun. 47, 2814-2832]. Chicken pepsinogen shows the highest degree of homology with the primary structures of pepsinogens A. The internal homologies are apparent in the neighborhood of the two active aspartic acid residues. We have assigned tentatively chicken pepsinogen to the group of pepsinogens A (EC 3.4.23.1); this assignment is a result both of our sequence studies and of an investigation of the kinetic characteristics of the enzyme.
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PMID:Covalent structure of chicken pepsinogen. 661 63

It is found that for nearly all the proteins under study, the value of 1/P0', cut off on the ordinate by the extrapolation of the dependencies 1/P = f(T/eta . /tau B), is larger than the value of 1/P0 for model compounds--tryptophan, N-acetyltryptophan, glycyl-tryptophan. It is shown, that this may indicate the existence both of high-frequence intramolecular mobility, with the relaxation time rho much less than tau, and low-frequency intramolecular mobility the magnitude rho of which is of the same order as tau, independent on the medium viscosity. This peculiarity in the interpretation of the data, received by the method of rotational depolarization of UV-fluorescence of proteins arises because some tryptophan residues within the macromolecules of proteins are not accessible to the molecules of the solvent and that is why the rotational relaxation time of their intramolecular mobility is not dependent on the viscosity of the solvent. It is indicated that intramolecular mobility is inherent in tryptophan residues both with short wave and long wave spectrum of UV-fluorescence. The relaxation time, measured by the method of fluorescence depolarization, appeared to be smaller than that calculated for the short axe of an equivalent ellipsoid of revolution for a series of proteins (lysozyme, trypsin, pepsin, bovin serum albumin in acid medium, myelin basic protein). This indicates the existence of intramolecular mobility the magnitude rho of which is of the same order as tau dependent on the solvent viscosity in these proteins. Zymogens--trypsinogen and pepsinogen do not have such intramolecular mobilities.
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PMID:[Polarization of intrinsic fluorescence of proteins. III. Intramolecular submobility of tryptophan residues]. 662 23

In the crewmembers of four Salyut-6 long-term flights, enzyme excretory function of the gastro-intestinal tract was investigated. These studies included: gastric proenzyme, pepsinogen, and pancreatic enzymes, amylase and lipase, in blood and urine, trypsin in blood, intestinal enzymes, invertase and glycyl-L-leucine dipeptidase in feces, and lipids in feces. The results obtained demonstrated a correlation between changes in enzyme excretion and space flight duration and profile. After the 140- and 175-day flight the most marked changes in the digestive organs were seen; they manifested as a simultaneous increase in secretory function of the stomach and the pancreas. However, after the 185-day flight, in which advanced countermeasures were used, the above changes were less distinct.
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PMID:[Digestive system status after prolonged space flights]. 707 32

The role of cortisol in the prenatal development of digestive enzymes in the abomasum (prochymosin and pepsinogen) and pancreas (amylase, trypsin, chymotrypsin) has been investigated in the fetal lamb during late gestation. The abomasum and pancreas were collected from 22 unoperated control fetuses (99-145 days gestation; term, 145 +/- 2 days), from seven pairs of twins infused with either saline or cortisol for five days preceding delivery at 127-133 days, and from four 139-143-day-old fetuses adrenalectomized at 120-123 days. Developmental increases (2-8-fold) occurred in protease concentrations in the fetal abomasum and in amylase and chymotrypsin contents in the fetal pancreas. These increases paralleled the normal prepartum rise in fetal plasma cortisol. In addition, the enzyme values were significantly higher in cortisol-infused than in saline-infused fetuses (with the exception of pancreatic amylase) and were significantly lower in adrenalectomized fetuses than in control fetuses at term. The pH of abomasal fluid remained neutral (pH 6.8-8.0) during late gestation and was not affected by cortisol treatment or adrenalectomy. The results suggest that cortisol stimulates the development of the exocrine abomasum and pancreas in fetal sheep and may, thereby, increase the digestive capacity in neonatal lambs. Compared with the pig, another long-gestation species, the sheep has an early development of gastric pepsinogen but a late development of gastric acidity and pancreatic protease activities.
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PMID:Maturational effects of cortisol on the exocrine abomasum and pancreas in fetal sheep. 860 79

In the present study, we investigated whether activation of protease-activated receptor type 2 (PAR-2) with SLIGRL (SL)NH2, a short mimetic agonistic peptide, directly stimulates pepsinogen secretion from gastric-isolated, pepsinogen-secreting (chief) cells. Immunostaining of gastric-dispersed chief cells with a specific anti-PAR-2 antibody demonstrated expression of PAR-2 receptors on membrane and cytoplasm. SL-NH2 and trypsin potently stimulated pepsinogen secretion (EC50 = 0.3 nM) and caused Ca2+ mobilization (EC50 = 0.6 nM). In contrast to SL-NH2, the scramble peptide LSIGRL-NH2 failed to stimulate pepsinogen release. Exposure to SL-NH2 also resulted in ERK1/2 phosphorylation and activation. Exposure of chief cells to phosphotyrosine kinase inhibitors and 2-(2-amino-3-methoxyphenyl)-4H-1-benzopyran-4-one, a selective MEK inhibitor, significantly reduced secretion induced by SL-NH2. Pepsinogen secretion induced by SL-NH2 was desensitized by pretreating the cells with the mimetic peptide and trypsin, and exposure to SL-NH2 abrogates pepsinogen secretion induced by carbachol and CCK-8, but not secretion induced by secretin and vasointestinal peptide. Exposure to Arg-Pro-Lys-Pro-Gln-Gln-Phe-Phe-Gly-Leu-Met-NH2 (substance P) but not to calcitonin gene-related peptide increased pepsinogen release. The neurokinin-1 receptor antagonist, N-acetyl-l-tryptophan 3,5-bis(trifluoromethyl)benzyl ester, inhibited substance P-stimulated pepsinogen secretion, whereas it did not affect secretion induced by SL-NH2. Collectively, these data indicate that PAR-2 is expressed on gastric chief cells and that its activation causes a Ca2+-ERK-dependent stimulation of pepsinogen secretion.
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PMID:PAR-2 modulates pepsinogen secretion from gastric-isolated chief cells. 1274 62

Protease-activated receptor-2 (PAR-2), a G protein-coupled receptor, is activated by proteolytic unmasking of the N-terminal extracellular tethered ligand that presumably binds to the extracellular loop 2 of the receptor itself. PAR-2 is widely distributed in the mammalian body and plays various roles in biological events in the cardiovascular, respiratory, alimentary, and central neurons systems. PAR-2-activating peptides administered systemically to mice and rats trigger prompt salivation in vivo. In an in vitro study, PAR-2 agonists including the endogenous PAR-2 activator trypsin induce secretion of amylase and mucin from isolated rat parotid glands and sublingual glands, respectively. PAR-2-activating peptides administered systemically also modulate pancreatic exocrine secretion in vivo as well as in vitro. In the gastric mucosa, PAR-2 stimulation enhances secretion of mucus and pepsinogen and suppresses acid secretion. Tear secretion can also be caused by PAR-2-related peptides in PAR-2-dependent and -independent manners. PAR-2 thus plays a general or key role in the regulation of exocrine secretion. This review focuses on the physiologic and/or pathophysiologic roles of PAR-2 in glandular exocrine secretion. The possibility of PAR-2 as a target for drug development is also discussed.
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PMID:[Roles of protease-activated receptor-2 (PAR-2), a G protein-coupled receptor, in modulation of exocrine gland functions]. 1681 69

In Burmese pythons fasting and feeding cause dramatic regulation of gastric acid production and intestinal nutrient uptake. Predictably, other components of their gastrointestinal tract are similarly regulated with each meal. We therefore assessed the matched regulation of gastrointestinal performance by comparing the postprandial activities and capacities of gastric (pepsin), pancreatic (amylase and trypsin) and intestinal (aminopeptidase-N and maltase) enzymes, and intestinal nutrient uptake. Tissue samples were collected from pythons fasted and at 0.25, 0.5, 1, 2, 3, 4, 6, 10 and 15 days following their consumption of rodent meals equaling 25% of snake body mass. With feeding, pythons experience no significant change in stomach mass, whereas both the pancreas and small intestine doubled in mass. Feeding also triggered a depletion of gastric mucosal pepsinogen, a respective 5.7- and 20-fold increase in the peak activities of pancreatic trypsin and amylase, and a respective 2.3- and 5.5-fold increase in the peak activities of intestinal maltase and aminopeptidase-N. Enzyme activities peaked between 2 and 4 days postfeeding and returned to fasting levels by day 10. Independent of digestive stage, python intestine exhibited a proximal to distal decline in enzyme activity. For both sugars and proteins, intestinal capacities for enzyme activity were significantly correlated with nutrient uptake capacities. The concomitant postprandial upregulation of tissue morphology, intestinal nutrient transport rates and enzyme activities illustrate, for the python, the matched regulation of their gastrointestinal performance with each meal.
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PMID:Matched regulation of gastrointestinal performance in the Burmese python, Python molurus. 1834 88

Among snakes, the magnitude to which intestinal performance is regulated with feeding and fasting is adaptively linked to their natural feeding frequency. For infrequently feeding boas and pythons, gastrointestinal form and function are widely regulated with each feeding bout. In contrast, snakes that naturally feed more frequently modestly regulate intestinal function with each meal. To further explore the postprandial responses of a frequently feeding snake and assess whether such responses are matched in magnitude, we examined the postprandial metabolic, morphologic, and functional responses of the diamondback water snake (Nerodia rhombifer) following the consumption of catfish meals equaling 25% of their body mass. After feeding, N. rhombifer experienced 5.4-fold increases in metabolic rate and a specific dynamic action of 101 kJ that equaled 25.3% of the ingested energy. Nerodia rhombifer that were fed did not undergo any change in stomach tissue mass but did experience a rapid drop in gastric pH and a decline in tissue stores of pepsinogen. Feeding triggered an increase in pancreatic mass and a temporary loss of trypsin activity. The small intestine of N. rhombifer responded to feeding with a 70% increase in mass and a 27% increase in enterocyte length but no change in microvillus length. Intestinal nutrient uptake rates did not increase with feeding, whereas intestinal aminopeptidase-N activity increased by fivefold. The postprandial increases in metabolism and gastrointestinal morphology and function of N. rhombifer are of a lower magnitude than is characteristic of infrequently feeding snakes and are more similar to the responses observed for other frequently feeding species. In support of an adaptive interplay between feeding habits and digestive physiology, this study demonstrates that the regulation of gastrointestinal structure and function for the frequently feeding N. rhombifer is generally modest and matched in magnitude.
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PMID:Integrated postprandial responses of the diamondback water snake, Nerodia rhombifer. 2043 59

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