Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bile acids increase the release of human enteropeptidase as well as other brush-border enzymes (alkaline phosphatase, leucine aminopeptidase) from duodenal mucosa, as had been shown earlier in experimental animals. The action of bile acids is independent of their known enhancing effect on enteropeptidase activity. The pH of duodenal juice is an important, hitherto unrecognized, factor in the release mechanism of brush-border enzymes. All of the above enzymes tested were released to a markedly greater extent at pH 8.2 than 6.3, regardless of the presence or absence of bile acid. Contrary to some results obtained with animal tissue, by other investigators, our experiments with human duodenal mucosa indicate that enteropeptidase, under all conditions tested, is released at a rate considerably greater than that for alkaline phosphatase or leucine aminopeptidase. The looser association of enteropeptidase with cellular components relative to that of other brush-border enzymes, as indicated by our observations, may be related to the unique function of enteropeptidase as the trigger enzyme of protein digestion.
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PMID:Effect of bile acids and pH on the release of enteropeptidase in man. 2 91

The postition of a number of human intestine brush border membrane enzyme activities in polyacrylamide gels after electrophoresis has been determined. These activities are, in order from the origin, maltase/glucoamylase, lactase/phlorizin hydrolase, maltase/sucrase/isomaltase, enteropeptidase, trehalase and gamma-glutamyl-transferase. Leucylnaphthylamide hydrolyzing activity was inactivated by sodium dodecylsulfate and its position was not determined. The positions of the activities have been correlated with the positions of protein bands previously determined. One such band situated between enteropeptidase and alkaline phosphatase has not been identified.
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PMID:Enzymes of the human intestinal brush border membrane. Identification after gel electrophoretic separation. 23 25

Intravenous administration of 1 U cholecystokinin-pancreozymin (CCK-PZ) to rats caused the release of enteropeptidase, alkaline phosphatase (AP), and sucrase to the intestinal lumen in the absence of a concomitant increase in luminal DNA. Thus, the hormone elicited hydrolase secretion was not due to cell desquamation. Pentagastrin also stimulated hydrolase release. Following CCK-PZ administration enteropeptidase was released preferentially over sucrase and AP and showed a linear correlation with total protein output. The specific enteropeptidase activity was higher in the perfusate following secretion than in the mocosa. Enteropeptidase was found mainly in soluble form in both mucosa and perfusate; addition of bile following enteropeptidase release further increased its activity. In contrast, sucrase and AP were found mainly in insoluble form in both mucosa and perfusate and their specific activities were higher in the mucosa. The presence of bile rendered both sucrase and AP more soluble in the perfusate. The data indicate that enteropeptidase is released by a specific secretory process and that its subcellular site of origin is different from that of sucrase and AP. By eliciting the coordinated release of trypsinogen, enteropeptidase and bile, CCK-PZ plays a central role in the initiation of protein digestion.
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PMID:Studies on intestinal enzyme secretion; the action of cholecystokinin-pancreozymin, pentagastrin and bile. 68 84

Jejunal perfusion in the rat with Ringer solution containing 10 mmol/l taurocholate removes considerable quantities of protein and brush border membrane enzymes from the intestinal epithelium. The duration of the experiments was 7.5 h. One group of animals was given 200 micrograms cycloheximide per 100 g body weight intramuscularly 1 h before start of the perfusion. Serial estimations of protein and of four brush border membrane enzymes (alanine aminopeptidase, alkaline phosphatase, gamma-glutamyl transferase, and enteropeptidase) were done in the perfusate. The results provide evidence that during the experiments an increasing proportion of the enzymes stems from de novo synthesis. This is consistent with the concept that after loss of 10-30 per cent of enzyme the molecules are replaced by newly synthesized material, provided that the energy metabolism of the mucosa cells remains intact.
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PMID:De novo synthesis of brush border membrane enzymes during intestinal perfusion with bile salt in the rat. 614 76