EC:3.4.21.9 - FACTA Search

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Query: EC:3.4.21.9 (enterokinase)
675 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Enterokinase initiates digestion of protein by conversion of trypsinogen into trypsin. The interactions between enterokinase and trysin were investigated in 6 patients with intractable diarrhea of infancy and 34 children with celiac disease. The six infants between 2 and 3 months with intractable diarrhea of infancy had reduced mucosal enterokinase activity (9.5 +/- 4.8muM per gram of protein per minute) and reduced intraluminal trypsin activity (2.9 +/- 0.7muM per gram of protein per minute) as compared with healthy controls (109 +/- 34.2muM per gram of protein per minute and 14.3 +/- 5.8muM per gram of protein per minute) respectively. The activities of all enzymes returned toward normal following treatment with intravenous alimentation. The mucosal morphology of all pretreatment biopsies in all cases showed Grade III atrophy which improved. These findings suggest that enterokinase deficiency and reduced intraluminal trypsin activity in intractable diarrhea of infancy may be one of the contributing factors to protein malabsorption and consequent malnutrition. Thirty-four children with celiac disease were between the age of 9 months and 13 years. The 11 newly diagnosed patients with celiac disease demonstrated Grade III to IV atrophy of the mucosa. The 23 patients with treated celiac disease on a gluten-free diet showed a normal to Grade II atrophy. In both treated and untreated celiac disease the enterokinase activities and the intraluminal trypsin activity were within normal limits. The enterokinase activity in celiac disease is near normal in contrast to the marked reduction noted in intractable diarrhea of infancy even though the intestinal mucosa shows marked morphological alteration and the disaccharidase activities are greatly reduced in celiac disease. After a prolonged alimentary fast of up to 26 days on intravenous alimentation, two patients with intractable diarrhea of infancy showed improvement in the activities of enterokinase and trypsin. These findings demonstrate that enterokinase and trypsin activities in the gut were present and improved in the absence of oral feeding.
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PMID:The interrelationship of enterokinase and trypsin activities in intractable diarrhea of infancy, celiac disease, and intravenous alimentation. 80 41

The influence of parenteral nutrition on digestive tolerance was studied in 26 dogs receiving total abdominal irradiation, (1 110 rads were delivered in a single dose at mid-thickness of the abdomen). We studied enzymatic perturbations (lactase, maltase, alkaline phosphatase and enterokinase) in the duodenum, jejunum and ileum and we observed a correction of the 75% decrease of the intestinal enzymatic activities after total abdominal irradiation in the dogs fed exclusively by parenteral routes while the dogs fed orally died in few days with severe digestive and metabolic disturbances.
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PMID:Total abdominal irradiation and parenteral nutrition: an experimental study in the dog. 82 50

In rats fed equal amounts of isocaloric high-protein (HPR) and low-protein (LPR) diets, studies were performed on the mucosal activities of enterokinase and alkaline phosphatase and on the activities of these enzymes and of trypsin in washings obtained from the contents of two standard 5 cm. segments of duodenum, located proximal (Segment I) and distal (Segment II) to the main pancreatic duct. Mean mucosal weights and tissue protein per segment were 1.3-fold higher in rats fed HPR diets. In Segment I, but not Segment II, mucosal activities per segment were higher in HPR for enterkinase (threefold) and alkaline phosphatase (twofold). In luminal washings trypsin did not differ between the two groups; in HPR luminal levels of enterkinase were significantly higher in Segment II and those of alkaline phosphatase were similarly elevated in Segment I. Irrespective of diet the major activity of both enzymes was in mucosal fractions. Studies of total activity of each enzyme showed that the enzymes behave rather similarly, with the major differences between the dietary groups discernible in Segment I. These data stress the importance of dietary protein content in intestinal enzyme adaptation and reveal regional variation in the responses of the different enzymes.
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PMID:Alterations in enterkinase, trypsin, and alkaline phosphatase in response to variation in dietary protein content in the rat. 83 Jul 83

A modification of Weiser's (1973) cell isolation method was used in order to study the developmental pattern of various intestinal enzyme activities in villus and crypt cells of normal rats from 5 days after birth until 8 weeks. Alkaline phosphatase and enterokinase activities were always located in the upper villus zone during postnatal development. Enterokinase activity was higher in the upper villus cells during the third week of life than after this period. Aminopeptidase activity was located in the crypt cells during the first week, its maximum activity remained in this area until the third week. At this time, sucrase activity appeared in the crypt cells, then aminopeptidase and sucrase activities rose to the villus zone during the fourth week. Amylase activity was detected along the entire crypt-villus axis 5 days after birth, reaching maximum activity in crypt cells at the end of the first week and in the upper villus cells after the fourth week. In contrast with the other enzymes studied almost all amylase activity was soluble in the youngest animals whereas at weaning most of the activity appeared in a particulate form in the villus cells. But in the crypt cells the ratio between particulate and soluble form remained unchanged until the adult stage. Various hypotheses are advanced to explain the patterns of evolution of the different enzymes.
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PMID:Intestinal enzymes activities in isolated villus and crypt cells during postnatal development of the rat. 83 93

Experimental pancreatitis (PT) is induced by proximal and distal duodenal closure in the bile-duct-ligated dog, by causing duodeno-pancreatic reflux of lumenal secretions. It has been postulated that trypsin and enterokinase (EK) in the secretions activate trypsinogen within the pancreas, producing PT. There is supporting evidence for trypsin, but EK has not previously been investigated. To determine whether EK alone could cause PT, we injected saline suspensions of partially purified EK, and other test materials, into the duct of Wirsung of dogs and after 24 hr examined their pancreases and estimated the increment in serum amylase. Following 0.5% EK, both PT and hyperamylasemia (HA) ensued; HA without PT occured when EK was inactivated by heat, administered with trypsin inhibitor (TI), or administered in more dilute solution. Injection of TI or of hog gastric mucin likewise leads to HA but not to PT. It is concluded that the PT observed was due to EK activity, and that therefore EK could contribute to the production of PT observed was due to EK activity, and that therefore EK could contribute to the production of PT in the closed-duodenal-loop model. The HA observed in the absence of PT is unexplained but appears to be related to the colloidal properties of the materials injected.
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PMID:Pancreatitis following the intraductal injection of partially purified enterokinase in dogs. 84 25

Enterokinase activity is first detected in the small intestine of the rat at the 20th day of gestation, whereas sucrase activity first appears in the 14th day of postnatal life. Intraperitoneal injection of hydrocortisone to pregnant rats before the normal appearance of enterokinase in fetuses causes the premature appearance of enterokinase (58 +/- 8 units), but not of sucrase activity. The addition of actinomycin D in the pregnant rat results in supermaximal stimulation of enterokinase activity (229 +/- 25 units). Sucrase activity is stimulated by hydrocortisone when given in the first 3 days of life (118 +/- 0.04 units). The maximal induction occurs 2 days before the normal appearance of the enzyme in untreated animals (7.3 +/- 12 units). The addition of actinomycin D diminished the effect of hydrocortisone on sucrase activity in the neonatal rat (1.4 +/- 2 units versus 1.8 +/- 0.4 units in 3-day-old rats). Thus, enterokinase and sucrase of the small intestine of the fetal and infant rat respond differently to combined hydrocortisone and actinomycin D. The response to hydrocortisone is age dependent and the maximal induction occurs before the time of the natural appearance of the enzymes. No effect is elicited after the normal appearance of enterokinase or sucrase. Glucocoticoids stimulate an early appearance of small intestinal enzymes only before the expected time of the natural development burst of activity. In both, sucrase and enterokinase, glucocorticoids have no effect after the enzymes are fully developed. New enzymes develop in clusters during the late fetal, neonatal, and late sucking periods. The effect of glucocorticoids on the "maturation" of the small intestine is limited to the induction of one phase only; i.e., only before the late fetal period is the precocious appearance of enterokinase possible. The induction of enterokinase activity can serve as an indicator for the early phase of maturation. Whereas the induction of sucrase activity can serve as a marker for late phase of maturation of the small intestine in the rat. The superinduction of enterokinase, but not of sucrase activity, by the addition of actinomycin D to glucocorticoids might be related to the different stability of the mRNA's of these enzymes.
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PMID:Induction of fetal rat enterokinase (enteropeptidase EC. 3.4.21.9) in utero by hydrocortisone and actinomycin D. 84 81

The subcellular localization of enterokinase is controversial. In this study, enterokinase was extracted from a soluble fraction and a brush border fraction of rat small intestine by differential centrifugation. The soluble fraction contained 41% of the initial enterokinase activity while the brush border fraction contained only 4.6% of the initial activity. In contrast, alkaline phosphatase monitored as a brush border marker, yielded 26.3% in the brush border fraction and only 6% in the soluble fraction. Further separation of the soluble fraction on a Sepharose 4B column revealed three peaks of enterokinase activity. One small peak (3%) of a bound enzyme (Mr, 2 - 10(6)) and two larger peaks of free enzyme (Mr, 3 - 10(5) and 9 -10). In contrast, alkaline phosphatase major fraction was in a high molecular weight peak of bound enzyme. When the brush border fraction was chromatographed only a single peak of bound enterokinase and alkaline phosphatase were found. In the lower part of the small intestine, no brush border-bound enterokinase was found, while the peak of alkaline phosphatase was the same as in the upper intestine. These data suggest that enterokinase activity in the rat intestine is mainly in a free form localized in the mucin and soluble fraction and to a negligible extent in the brush border.
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PMID:Subcellular localization of enterokinase (enteropeptidase EC 3.4.21.9) in rat small intestine. 87 77

The incorporation of [14C]glucosamine into brush border glycoproteins by human small intestinal mucosa in organ culture has been investigated. The experiments were based on the observations that (1) isolated brush border membrane fragments from cultured explants showed an unchanged pattern of protein bands and brush border enzyme activities on sodium dodecyl sulfate/polyacrylamide gels after electrophoresis and (2) the rate of overall [14C]glucosamine incorporation measured in the tissue homogenate remained constant up to 48 h. After 24 h of culture, the radioactivity peaks on gels due to incorporation of [14C]glucosamine were found exclusively in the high molecular weight region and corresponded to protein bands identified as maltase-glucoamylase, lactase, sucrase-isomaltase, enterokinase and alkaline phosphatase. Enzymatic activity could not be assigned to the three remaining labelled bands. Most of these glycoproteins were already labelled after 5 h. Newly glycosylated brush border enzymes remained predominantly associated with the brush border membrane of intact cells with little release into the medium up to 24 h.
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PMID:Biosynthesis of brush border glycoproteins by human small intestinal mucosa in organ culture. 88 74

Enterokinase has been isolated from the contents of bovine duodena and purified 1200-fold in 41% yield. The isolation procedure employed DEAE chromatography, affinity chromatography on immobilized p-aminobenzamidine, and gel filtration. The resultant pure enzyme exhibits a single band on sodium dodecyl sulfate gel electrophoresis corresponding to a molecular weight of 145 000. Two chains in the molecule, connected by disulfide linkages, have molecular weights of 57 000 and 82 000, respectively. The purified enzyme exhibits a restricted specificity which is directed toward the polyanionic amino acid sequence in the activation peptide of the zymogen substrate. Of the zymogens of the serine proteases tested, including several of those involved in blood coagulation, only native and guanidinated trypsinogen are acitvated by enterokinase, whereas acetylated trypsinogen is not. Partial heat denaturation of bovine enterokinase causes a differential response toward the activation of trypsinogen and the hydrolysis of benzoyl-L-arginine ethyl ester (BZArgOEt), further suggesting that secondary sites are important in the binding of trypsinogen. A sensitive assay for enterokinase (nanomole range) was developed using tritiated BZArgOEt.
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PMID:Bovine enterokinase. Purification, specificity, and some molecular properties. 88

Rat small bowel was perfused in vivo and ex vivo in the absence of biliary and pancreatic secretion. Intraluminal release of sucrase, alkaline phosphatase, aminopeptidase and enterokinase was significantly increased after administration of PG E1 and E2 1 and 5 microgram/kg. This suggests a direct stimulation of the intestinal mucosa, which might be mediated through cyclic AMP; dibutyryl cAMP significantly stimulates intraluminal release of proteins, sucrase and enterokinase.
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PMID:Prostaglandins E1 and E2 stimulate release of intestinal brush border enzymes. 90 72

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