UMLS:C0344307 - FACTA Search

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Query: UMLS:C0344307 (analgesia)
28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peptide bond substitution in the molecules of Lys-Trp(Nps) (LTN) and Trp(Nps)-Lys (TNL) by an aminomethylene and ketomethylene bond, respectively, afforded pseudodipeptides with analgesic activity. The new compounds Lys psi(CH2NH)-Trp(Nps)-OMe (LTNAM) and Trp(Nps)psi(COCH2)(R,S)-Lys (TNLKM) induced a dose-dependent and naloxone-reversible analgesia following intracerebroventricular (ICV) administration to mice. The antinociceptive effects were longer lasting compared to those induced by the parent compounds. The pseudodipeptides protected Met-enkephalin degradation by rat striatal slices and, combined with an ineffective dose of the opioid peptide, induced analgesia. LTNAM and TNLKM were as potent as LTN to inhibit brain aminopeptidase in vitro and ex vivo. An increased resistance to proteolysis of the pseudodipeptides may explain their prolonged analgesic activity.
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PMID:Prolonged antinociceptive activity of pseudodipeptide analogues of Lys-Trp(Nps) and Trp(Nps)-Lys. 162 Jun 57

The intracerebrally administered dynorphin-B produced not only an antinociceptive response but a motor dysfunction such as "barrel-rolling", circling, jumping or ataxia in mice. These two effects were observed in a same dose range. Both responses were also produced by a nonopioid fragment, des-Tyr-dynorphin-B. Bestatin, an aminopeptidase inhibitor, markedly potentiated the antinociceptive response induced by dynorphin-B but not the motor dysfunction. Bestatin did not affect the responses produced by des-Tyr-dynorphin-B. In the presence of bestatin, low doses of dynorphin-B produced an antinociceptive response without the motor dysfunction. Naloxone antagonized the potentiated antinocicpetion but had no effect on the motor dysfunction. These results suggest that dynorphin-B produced an analgesia through opioid receptors and that this peptide also induced a motor dysfunction through a nonopioid receptor.
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PMID:Bestatin potentiates the antinociception but not the motor dysfunction induced by intracerebrally administered dynorphin-B in mice. 256

Actinonin which has been found to be an inhibitor of aminopeptidase M (EC 3.4.11.2) also inhibited enkephalinase A (EC 3.4.24.11) and enkephalin aminopeptidase which were partially purified from the corpus striatum membrane of guinea-pig brain. The IC50 values were 5.6 microM for enkephalinase A and 0.39 microM for enkephalin aminopeptidase. Actinonin also inhibited with an IC50 value of 1.1 microM dipeptidyl aminopeptidase tested on whole brain homogenate of rats in the presence of thiorphan and bestatin. Analgesia was assessed by measuring the tail-flick latency of mice. The analgesic effect of [Met5]enkephalin injected intracisternally (i.cist., 50 micrograms) was potentiated by an intraperitoneal (i.p., 100 and 300 mg/kg) as well as an i.cist. (25 micrograms) injection of actinonin. Actinonin was found to inhibit all three enzymes of enkephalin metabolism and, when given peripherally, to potentiate enkephalin analgesia.
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PMID:Composite effects of actinonin when inhibiting enkephalin-degrading enzymes. 288 48

The demonstration of analgesia following in vivo administration of dynorphin A (Dyn A) has been difficult. In contrast, a number of electrophysiological and behavioral effects reported with in vivo injection of Dyn A can be produced by des-tyrosine dynorphin A (Dyn A 2-17). This suggested the extremely rapid amino terminal degradation of dynorphin A. To test this hypothesis, we examined the degradation of dynorphin A following in vivo injection into the periaqueductal gray (PAG) as well as in vitro using rat brain membranes under receptor binding conditions. In vivo, we observed the rapid amino terminal cleavage of tyrosine to yield the relatively more stable destyrosine dynorphin A. This same cleavage after tyrosine was observed in vitro. Inhibition of this aminopeptidase activity in vitro was observed by the addition of dynorphin A 2-17 or dynorphin A 7-17 but not after the addition of dynorphin A 1-13, dynorphin A 1-8, dynorphin B or alpha-neo-endorphin suggesting a specific enzyme may be responsible. The detection of the behaviorally active des-tyrosine dynorphin A following in vivo injection of dynorphin A suggests that this peptide may play an important physiological role.
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PMID:The degradation of dynorphin A in brain tissue in vivo and in vitro. 288 1

With the aim of producing an analgesia physiologically induced by endogenous opioids, several series of inhibitors of the degradation enzymes of enkephalins have been synthetized by using as a model, at the atomic level, the active site of thermolysin, a bacterial endopeptidase similar to enkephalinase. Thiorphan and retro-thiorphan are very potent inhibitors of enkephalinase (KI = 2 nM), but the retro compound is more selective, as it is unable to recognise the angiotensin conversion enzyme. Recently, a series of inhibitors containing a bidentate group were found to be capable of inhibiting the three metallopeptidases which break down the enkephalins. One of these compounds, kelatorphan, totally protects, in vitro and in vivo, Met-enkephalin from enzymatic degradation. Kelatorphan is the first complete inhibitor of enkephalin metabolism and is the only compound to possess an analgesic activity greater than that of a mixture of thiorphan and bestatin (non-specific aminopeptidase inhibitor). A tritiated derivative of kelatorphan has been used to visualise the enkephalinase in the rat brain by means of autoradiography. The enzyme has a heterogeneous distribution with a particularly high concentration in the nigro-striatal system.
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PMID:[Enkephalinase inhibitors and molecular study of the differences between active sites of enkephalinase and angiotensin-converting enzyme]. 299 52

SCH 34826 [(S)-N-[N-[1-[[(2,2-dimethyl-1,3-dioxolan-4yl) methoxy]carbonyl]-2-phenylethyl]-L-phenylalanine]-beta-alanine] was synthesized as a p.o. active prodrug enkephalinase inhibitor. In vivo, it is de-esterified to SCH 32615 (N-[L-(-1-carboxy-2-phenyl)ethyl]-L-phenylalanyl-beta-alanine), the active constituent. In vitro, the Ki for SCH 32615 to block the degradation of Met5-enkephalin by isolated enkephalinase is 19.5 +/- 0.9 nM. In contrast, SCH 32615 did not inhibit aminopeptidase or diaminopeptidase III degradation of Met5-enkephalin up to 10 microM and did not affect angiotensin converting enzyme up to 10 microM. In vivo, p.o. administered SCH 34826 potentiated the analgesic effects of D-Ala2-Met5-enkephalinamide in mice (ED50 = 5.3 mg/kg p.o.) and rats [minimal effective dose (MED) = 1 mg/kg p.o.]; SCH 32615 had no effect up to 30 mg/kg p.o., but was active parenterally (ED50 in mice = 1.4 ng/kg sc). Direct, naloxone-reversible analgesic effects of SCH 34826 were demonstrated in the mouse low temperature hot-plate test (MED = 30 mg/kg p.o.), the mouse acetic acid-induced writhing test (MED = 30 mg/kg p.o.), the rat stress-induced analgesia test (MED = 10 mg/kg p.o.) and the modified rat yeast-paw test (MED = 100 mg/kg p.o.). Using the rat D-Ala2-Met5-enkephalinamide potentiation test the duration of action of SCH 34826 was at least 4 hs. No respiratory or gastrointestinal side effects of any consequence were noted at doses up to 100 times those active in the D-Ala2-Met-5-enkephalinamide potentiation test.
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PMID:Pharmacology of SCH 34826, an orally active enkephalinase inhibitor analgesic. 316 88

Actinonin, previously isolated as an antibiotic and shown to be an inhibitor of aminopeptidase M (EC 3.4.11.2), has now been shown to inhibit three enkephalin-degrading enzymes from guinea-pig striatum. The values of IC50 were 0.39 microM for striatal membrane aminopeptidase ("enkephalin-aminopeptidase") and 5.6 microM striatal membrane neutral endopeptidase ("enkephalinase A"). Furthermore, soluble dipeptidylaminopeptidase in a rat whole brain homogenate was also inhibited by actinonin with the IC50 value of 1.1 microM. Actinonin administered intracisternally (i.cist., 50 micrograms) or intraperitoneally (i.p., 100 mg/kg), potentiated the analgesic action of met-enkephalin (50 micrograms i.cist.). analgesia by a tail-flick test. The potentiating activity of actinonin i.p. to met-enkephalin analgesia was almost the same potency as that of thiorphan, whereas the inhibitory activity of actinonin against enkephalinase A was 1/1000 that of thiorphan. Actinonin alone, administered either i.cist. or i.p., showed an analgesic action as estimated by the tail-flick test.
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PMID:Analgesic effect of actinonin, a new potent inhibitor of multiple enkephalin degrading enzymes. 329 9

The endogenous opioid peptide enkephalin (EK) is known to be degraded mainly by two enzymes, the dipeptidyl carboxypeptidase 'enkephalinase' and aminopeptidase. Microinjection of the enkephalinase inhibitor thiorphan or the aminopeptidase inhibitor bestatin into the nucleus accumbens of the rabbit produced a dose-dependent analgesic effect. This analgesic effect was totally reversed by the narcotic antagonist naloxone or by antibodies against [Met5]enkephalin (MEK) administered to the same site. Antibodies against [Leu5]enkephalin were not effective. Moreover, microinjection of thiorphan or bestatin into the nucleus accumbens resulted in a marked potentiation of the aftereffect of electroacupuncture (EA) produced analgesia, as well as the analgesia induced by a small dose of morphine. It is concluded that the analgesic effect elicited by EA and morphine is mediated, at least in part, by MEK-like immunoreactive substance(s) in the nucleus accumbens.
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PMID:Electroacupuncture and morphine analgesia potentiated by bestatin and thiorphan administered to the nucleus accumbens of the rabbit. 348 2

New compounds were designed to fully inhibit the in vitro metabolism of enkephalins, ensured by three different metallopeptidases. For this purpose, bidentate ligands as hydroxamate and N-hydroxy-N-formylamino groups were selected as highly potent metal coordinating agents and introduced on Phe-Gly and Phe-Ala related structures. Compounds corresponding to the general formula HC(O)N(OH)CH2CH(CH2Ph)CONHCH2COOH (compound 7) and HN(OH)C(O)CH2CH(CH2Ph)CONHCH(R)COOH (compound 11, R = H; compound 13, R = CH3) behave as full inhibitors of the three enzymes, with IC50's in the nanomolar range for enkephalinase, from 0.3 microM to 1 nM for dipeptidylaminopeptidase, and in the micromolar range for a biologically relevant aminopeptidase. Two diastereoisomers of the most active inhibitor 13 were separated by HPLC and their stereochemistry was assigned by 1H NMR spectroscopy. Both isomers were efficient as enkephalinase blockers, but only the RS isomer, designated kelatorphan, was able to strongly inhibit aminopeptidase and dipeptidylaminopeptidase. Intracerebroventricular injection in mice of these mixed inhibitors, especially kelatorphan, led to naloxone reversible analgesic responses (hot-plate test) that were slightly better than those produced by a mixture of thiorphan and bestatin, two potent inhibitors of enkephalinase and aminopeptidase, respectively. Kelatorphan was also more efficient in potentiating the analgesia induced by a subanalgesic dose of Met-enkephalin. All these results support a physiological role in pain transmission for enkephalinase and a probably synaptic aminopeptidase M.
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PMID:New bidentates as full inhibitors of enkephalin-degrading enzymes: synthesis and analgesic properties. 389 41

Kyotorphin (Tyr-Arg) was rapidly degraded in rat brain homogenates and the Vmax and Km were 29.4 nmol/mg protein/min and 16.6 microM, respectively. This degradation was effectively inhibited by bestatin (IC 50; 0.08 microM) and p-chloromercuribenzoate (IC 50; 0.70 microM). Kyotorphin was also degraded by a membrane-bound aminopeptidase from monkey brains. The Vmax and Km of kyotorphin degradation by the aminopeptidase were 20.0 nmol/mg protein/min and 29.2 microM, respectively. The degradation of kyotorphin was also inhibited effectively by bestatin (KI; 0.4 microM). Co-administration with bestatin 50 micrograms (i.cist.) potentiated the analgesic effects of kyotorphin (i.cist.) by 4.8 times, and these effects were abolished by pretreatment with naloxone 0.5 mg/kg s.c. These results suggest that potentiation of analgesia by bestatin may be due to the protection against the degradation of kyotorphin and released enkephalin by a membrane-bound aminopeptidase.
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PMID:Degradation of kyotorphin by a purified membrane-bound-aminopeptidase from monkey brain: potentiation of kyotorphin-induced analgesia by a highly effective inhibitor, bestatin. 399 May 13

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