Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
 9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The goals of this study were to evaluate how metabolism and poor membrane permeability act as barriers to absorption of a model peptide, leucine enkephalin (YGGFL), and how those barriers can be overcome. The in vitro everted rat intestine method was used. YGGFL was rapidly metabolized when exposed to the mucosa of the jejunum, and destyrosyl leucine enkephalin was formed. Metabolism was slower for ileal intestinal segments, however, and was almost absent when colonic segments were used. The aminopeptidase inhibitor boroleucine, an aminoboronic acid derivative, reduced the YGGFL metabolism rate 2-fold at 1/100th the concentration of substrate when the intestine was simultaneously exposed to substrate and inhibitor. Pretreatment of the intestine with boroleucine further reduced the metabolism rate. Thiorphan, an inhibitor of endopeptidase 24.11, had additive inhibitory effects with boroleucine. Inhibition of metabolism alone did not enable YGGFL to permeate the membrane. The permeability enhancer, sodium glycocholate, also did not alone enable membrane permeation. Substantial YGGFL permeated the membrane only when metabolism was inhibited and permeability was enhanced. EDTA had both these effects.
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PMID:An in vitro evaluation of metabolism and poor membrane permeation impeding intestinal absorption of leucine enkephalin, and methods to increase absorption. 192 Jan 13

Opioid peptides are present in human cerebrospinal fluid (CSF), and their levels are reported to change in some pathologic conditions. However, less is known about their degradation in CSF. In the present study, human CSF was found to contain aminopeptidase activity which hydrolyzed alanyl-, leucyl- and arginyl-naphthylamides in a ratio of 100:28:27. Twelve CSF samples hydrolyzed alanyl-2-naphthylamide and degraded Met5-enkephalin (N-terminal hydrolysis) at rates of 188 +/- 38 and 420 +/- 79 pmol/min/mL respectively. Further, the distribution of alanyl-naphthylamidase activity in individual samples (39-437 pmol/min/mL) was closely correlated with that of Met5-enkephalin degradation (37-833 pmol/min/mL). Both alanyl-naphthylamidase and enkephalin degradation were optimal at pH 7.0 to 7.5 and were inhibited by aminopeptidase inhibitors amastatin (IC50 = 20 nM), bestatin (4-7 microM) and puromycin (30-35 microM). Conversely, degradation was unaffected by inhibitors of neutral endopeptidase (phosphoramidon), carboxypeptidase N (MERGETPA) or angiotensin converting enzyme (captopril). The Km of Met5-enkephalin for the CSF aminopeptidase activity was 201 +/- 19 microM (N = 4). Rates of hydrolysis of the Tyr1-Gly2 bond of larger opioid peptides decreased with increasing peptide length. Pooled, concentrated CSF hydrolyzed Leu5-enkephalin, dynorphin A fragments [1-7], [1-10] and [1-13] and dynorphin A at rates of 2.05 +/- 0.27, 1.27 +/- 0.18, 0.94 +/- 0.06, 0.55 +/- 0.14 and 0.16 +/- 0.03 nmol/min/mL respectively. When analyzed by rocket-immunoelectrophoresis against antisera to aminopeptidase M (EC 3.4.11.2), the concentrated CSF formed an immunoprecipitate which could be stained histochemically for alanyl-naphthylamidase activity. These data are consistent with a significant role for aminopeptidase M activity in the degradation of low molecular weight opioid peptides in human CSF.
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PMID:N-terminal degradation of low molecular weight opioid peptides in human cerebrospinal fluid. 197 24

Leu-enkephalin (YGGFL) and several analogues were chosen as model peptides for the study of peptide absorption and hydrolysis in the rat jejunum. An HPLC assay was adapted to detect YGGFL or the analogues and metabolites. Peptide hydrolysis was studied in the rat jejunum using a single-pass perfusion method. Extensive hydrolysis of YGGFL was observed in the rat jejunum and approaches to reduce its metabolism were studied. The brush border enzymes are a major site of enkephalin hydrolysis. Lumenal peptidases were secondary to the brush border enzymes in hydrolyzing the enkephalins in this system. In the in situ perfusion system, YGGFL is hydrolyzed primarily to Tyr and GGFL by the brush border aminopeptidase and to YGG and FL by brush border endopeptidase. Lowering the jejunal pH below 5.0 significantly reduces aminopeptidase activity and, to a lesser extent, endopeptidase activity. An aminopeptidase inhibitor, amastatin, produced more pronounced inhibitory effects at higher pH and the endopeptidase inhibitors, tripeptides YGG and GGF, are effective even below pH 5.0. Coperfusion of YGGFL with a combination of aminopeptidase and endopeptidase inhibitors, e.g., amastatin and YGG, is more effective in inhibiting hydrolysis since both metabolic pathways are inhibited. Leu-D(Ala)2-enkephalin, while showing enhanced stability against aminopeptidase hydrolysis, is hydrolyzed at the Gly-Phe bond by the endopeptidase. Its hydrolysis is not affected by pH changes or amastatin but is decreased by YGG. The YGGFL wall permeability was estimated and is not a limiting factor for oral absorption.
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PMID:Oral absorption of peptides: influence of pH and inhibitors on the intestinal hydrolysis of leu-enkephalin and analogues. 201 16

Glucagon-(19-29) is 1000-fold more potent that glucagon as an inhibitor of the liver plasma membrane calcium pump, which suggests that this peptide fragment is naturally occurring. Since glucagon-(19-29) is undetectable in plasma, the processing of glucagon into its (19-29) fragment may occur upon interaction of glucagon with its target tissues. The use of a specific radioimmunoassay for glucagon-(19-29) in association with the separation and identification of peptides by high performance liquid chromatography revealed that, upon incubation at 37 degrees C with hepatic plasma membranes, glucagon is processed into its (19-29) C-terminal fragment. The identity of the fragment was confirmed by amino acid sequencing. The processing activity was inhibited by reagents of the thiol group and by 1,10-phenanthroline, suggesting that a thiol endopeptidase containing a catalytically active metal is involved in this processing. Following its production, glucagon-(19-29) was degraded with a half-life of less than 10 s. This degradation was inhibited by bacitracin and by the aminopeptidase inhibitors bestatin and amastatin. When glucagon was incubated with liver plasma membranes in the absence of inhibitors, the accumulation of glucagon-(19-29) reached a maximum at 2 min (1% of initial glucagon), followed by a slow decline. In the presence of bacitracin and bestatin, the amounts of glucagon-(19-29) obtained from glucagon increased continuously, 1 and 2% of glucagon being transformed after 10 and 30 min, respectively. The production of glucagon-(19-29) did not appear to be associated with the binding of glucagon to its receptors, since (i) guanosine 5'-(3-O-thio)triphosphate, a compound which decreases the glucagon-receptor interaction, could not decrease the conversion of glucagon into glucagon-(19-29); (ii) a glucagon analogue which displays a strongly decreased affinity for the hepatic glucagon receptors was processed similarly to glucagon. The conversion also occurs upon incubation with intact hepatoma cells in monolayer culture. These observations suggest that, under physiological conditions, glucagon is processed in liver by cleavage of the Arg17-Arg18 basic doublet, leading to the production of a fragment which is known to display an original biological specificity, namely the modulation of the hepatocyte plasma membrane calcium pump.
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PMID:Glucagon-(19-29), a Ca2+ pump inhibitory peptide, is processed from glucagon in the rat liver plasma membrane by a thiol endopeptidase. 214 84

In order to assess changes in enkephalin release and biosynthesis, the levels of the tripeptide Tyr-Gly-Gly (YGG), a characteristic extracellular metabolite of enkephalins, and of the proenkephalin mRNA in mouse striatum were evaluated after a single administration of GABAergic agents. Significant and long-lasting decreases in steady state YGG levels were elicited by muscimol, a gamma-aminobutyric acid-A (GABAA) receptor agonist, diazepam, a benzodiazepine receptor agonist, or aminooxyacetic acid, a GABA-transaminase inhibitor. In addition, muscimol offset the elevation of striatal YGG elicited by bestatin, an aminopeptidase inhibitor, which entirely drives the released enkephalins into the metabolic pathway operated by enkephalinase (EC 3.4.24.11). Diazepam potentiated the effect of muscimol so that the YGG decrease induced by the combination of these two drugs was maximal after 30 min (-60%) and still significant (-40%) after 6 h, this potentiation being antagonized by pre-treatment with Ro 15-1788, a specific benzodiazepine receptor antagonist. By contrast [Met5]enkephalin steady-state levels were marginally affected by GABAergic agents, being only slightly reduced 6 h after the combination of muscimol and diazepam. After 3 h the same treatment also reduced by about 30% the level of proenkephalin mRNA, this change being maximal after 6 h (-45%) and still present after 24 h. These compared changes in various indexes of enkephalin neuron activity suggest that stimulation of GABAA receptors depresses enkephalin release immediately and for several hours, whereas preproenkephalin gene expression is decreased in a somewhat delayed and longer lasting manner. These patterns of temporal changes in biosynthesis and release of the neuropeptide presumably account for the limited changes in its steady state levels.
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PMID:Enkephalin biosynthesis and release in mouse striatum are inhibited by GABA receptor stimulation: compared changes in preproenkephalin mRNA and Tyr-Gly-Gly levels. 217 Aug

The protease activity in serum-free conditioned medium of chinese hamster ovary (CHO) cells was measured using peptidyl (or aminoacyl)-4-methylcoumaryl-7-amides (MCAs) as the substrates. Aminopeptidase increased in level as amounts of nonviable cells increased during cultivation in serum-free medium, indicating that the activity seems to be originated from intracellular proteases. The activity toward Boc-Leu-Arg-Arg-MCA, which was strongly inhibited by p-chloromercuribenzonate and N-ethylmaleimide, was the strongest among those toward peptidyl-MCAs in the conditioned medium within 48 h-cultivation in serum-free medium. In contrast to the case of aminopeptidase activity, the endopeptidase activity decreased in level after 48 h-cultivation although amounts of nonviable cells increases. Thus, CHO cells continuously secrete the cysteine proteases.
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PMID:Chinese hamster ovary cells continuously secrete a cysteine endopeptidase. 227 98

Peptidases degrade neuropeptides and thereby limit the duration and extent of their influence. This investigation examined the importance of peptidases in the degradation of the neuropeptide enkephalin in the stomach wall of the rat. Metabolism of [Leu5]- and [D-Ala2][Leu5]enkephalin by gastric membranes was examined in vitro. Degradation of [Tyr1-3H][Leu5]enkephalin was studied in the gastric submucosa of anesthetized and conscious rats in vivo by using a catheter to deliver peptide to tissues and implanted dialysis fibers to collect the metabolites. Specific inhibitors were used to assess the contribution of particular enzymes. [Leu5]- and [Tyr1-3H][Leu5]enkephalin were metabolized by membranes and in the stomach wall by hydrolysis of the Tyr1-Gly2 bond. Degradation was inhibited by the aminopeptidase inhibitor amastatin (10(-5) M in vitro, 10 nmol in vivo). Inhibitors of endopeptidase-24.11 (phosphoramidon) and angiotensin-converting enzyme (captopril) did not inhibit degradation. Metabolism of the aminopeptidase-resistant analogue [D-Ala2][Leu5]enkephalin by membranes was unaffected by amastatin and weakly inhibited by phosphoramidon affected by amastatin and weakly inhibited by phosphoramidon and captopril. A carboxypeptidase removed the COOH-terminal leucine residue and made a substantial contribution to degradation of both peptides by gastric membranes.
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PMID:Metabolism of enkephalin in stomach wall of rats. 240 5

We have investigated the effect of chronic administration of enalapril on the carboxypeptidases responsible for the formation of angiotensin II from angiotensin I and other peptidases known to recognize angiotensin I as a substrate in the rat. These studies have shown an increase in activity in rate of formation of des-Leu-angiotensin I in both kidney S2 and P2 centrifugal fractions as well as a decrease in the rate of degradation of angiotensin I substrate. Similar increases in the formation of A(1-8) have been observed in kidney using A(1-9) as substrate. These two enzyme activities have been named carboxypeptidase K1 and K2, respectively to reflect their presence in rat kidney. These changes were accompanied by significant decreases in the activity of an amastatin-sensitive aminopeptidase and endopeptidase 24.11 in the kidney P2 fraction. These data suggest that chronic treatment with ACE inhibitors may differentially affect the activity of other enzymes capable of degrading angiotensin causing a substantial re-direction of angiotensin metabolism.
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PMID:Effect of chronic enalapril treatment on enzymes responsible for the catabolism of angiotensin I and formation of angiotensin II. 240 44

Membrane vesicles, showing a 21 +/- 2-fold enrichment in the activity of 5'-nucleotidase and a 11 +/- 4-fold enrichment in the activity of angiotensin-converting enzyme relative to homogenate, were prepared from the myenteric plexus-containing longitudinal muscle layer of guinea pig ileum. Incubation of the vesicles with substance P and neurokinin A led to degradation of the peptides, and metabolites were isolated by reverse-phase HPLC and identified by amino acid composition. Cleavages of substance P between Glu6-Phe7, Phe7-Phe8, and Gly9-Leu10 and of neurokinin A between Gly8-Leu9 were observed and could be inhibited in a dose-dependent manner by phosphoramidon, an inhibitor of neutral endopeptidase 24.11. Formation of these metabolites was not completely inhibited by this agent, indicating that a phosphoramidon-insensitive form of endopeptidase 24.11 was present in the gut. Substance P was resistant to degradation by aminopeptidases, but neurokinin A was a substrate for bestatin-sensitive aminopeptidase(s), so that the neurokinin A (3-10) fragment represented the predominant metabolite in the chromatograms. The rate of formation of all the metabolites was not inhibited by enalapril and not enhanced by an increased Cl- concentration, indicating that angiotensin-converting enzyme was unimportant in the degradation process. Degradation of neurokinin A by the vesicles (Km 30 microM; Vmax 7.2 +/- 0.8 nmol min-1 mg of protein-1) was more rapid than degradation of substance P (Km 25 microM; Vmax 4.4 +/- 0.4 nmol min-1 mg of protein-1).
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PMID:Proteolytic inactivation of substance P and neurokinin A in the longitudinal muscle layer of guinea pig small intestine. 242 10

Substance P is a neuropeptide released in vivo from the substantia nigra, the principal substance P nerve terminal region in the rat brain. Its inactivation was investigated in a purified nigral synaptic membrane preparation. The membrane-bound enzyme shares many features with the endopeptidase 24-11 (EC 3.4.24.11): 1) hydrolysis of peptide bonds Gln6-Phe7, Phe7-Phe8 and Gly9-Leu10, 2) sensitivity to the inhibition by phosphoramidon and 3) relative affinity for substance P. Bestatine and captopril inhibit only the hydrolysis of the metabolites. These results suggest that substance P is inactivated in substantia nigra by endopeptidase 24-11 and that a bestatin-sensitive aminopeptidase and angiotensin converting enzyme may play a role in subsequent degradation of the substance P metabolites.
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PMID:Metalloendopeptidase (EC 3.4.24.11) but not angiotensin converting enzyme is involved in the inactivation of substance P by synaptic membranes of the rat substantia nigra. 247 Oct 29


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