Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
.
...
PMID:Composite effects of actinonin when inhibiting enkephalin-degrading enzymes. 288 48
The research on endogenous opioid is only a decade old but the considerable number and the variety of studies devoted to this subject suggest that these neuropeptides might play a pivotal role in various biological functions. The most abundant opioid peptides enkephalins are synthesized as large precursors. They bind to several classes of receptors as mu and delta types and are degraded by specific enzymes (
aminopeptidase M
, enkephalinase, dipeptidylaminopeptidase) belonging to the group of metallopeptidases. The analysis of the functions of the enkephalinergic system can now be investigated by using recently designed selective mu (DAGO, TRIMU 5), delta (DTLET, DEPDPE), kappa (U 50, 488) agonists or antagonists (ICI 174, 864 for the delta type) and kelatorphan a complete inhibitor of enkephalin metabolism. The former probes were obtained by a rational approach based on the conformational adaptability of the endogenous peptides while inhibitors of enkephalin degrading enzymes were designed by taking into account crystallographic data on metallopeptidases. mu and delta receptors present distinct distributions in the brain. Enkephalinase visualized by autoradiography seems to be closely associated with opioid receptors. Pain control could be insured in brain structures by mu receptor-stimulation whereas both mu and delta types might be involved at the level of the spinal cord. In both cases, a "physiological"
analgesia
is produced by kelatorphan.
...
PMID:[The pharmacology of various classes of cerebral opioid receptors]. 302 30
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.
...
PMID:Analgesic effect of actinonin, a new potent inhibitor of multiple enkephalin degrading enzymes. 329 9
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
.
...
PMID:New bidentates as full inhibitors of enkephalin-degrading enzymes: synthesis and analgesic properties. 389 41
The recently discovered native endomorphins play an important role in opioid
analgesia
, but their metabolic fate in the organism remains relatively little known. This paper describes the application of high-performance liquid chromatography combined with electrospray ionization mass spectrometry to identify the degradation products resulting from the incubation of endomorphins with proteolytic enzymes. The native endomorphin-1, H-Tyr-Pro-Trp-Phe-NH2 (1), and endomorphin-2, H-Tyr-Pro-Phe-Phe-NH2 (2), and an analog of endomorphin-2, H-Tyr-Pro-Phe-Phe-OH (3), were synthetized, and the levels of their resistance against carboxypeptidase A, carboxypeptidase Y,
aminopeptidase M
and proteinase A were determined. The patterns of peptide metabolites identified by this method indicated that carboxypeptidase Y first hydrolyzes the C-terminal amide group to a carboxy group, and then splits the peptides at the Trp3-Phe4 or Phe3-Phe4 bond. The remaining fragment peptides are stable against the enzymes investigated. Carboxypeptidase A degrades only analog 3 at the Phe3-Phe4 bond. Aminopeptidase M cleaves the peptides at the Pro2-Trp3 or Pro2-Phe3 bond. The C-terminal fragments hydrolyze further, giving amino acids and Phe-NH2-s while the N-terminal part displays a resistance to further
aminopeptidase M
digestion. Proteinase A exhibits a similar effect to carboxypeptidase Y: the C-terminal amide group is first converted to a carboxy group, and one amino acid is then split off from the C-terminal side.
...
PMID:Liquid chromatographic study of the enzymatic degradation of endomorphins, with identification by electrospray ionization mass spectrometry. 1042 May 97
The endogenous opioid peptides enkephalins are degraded in vitro by several metallopeptidases (aminopeptidases, enkephalinase, dipeptidylaminopeptidases). Selective and mixed inhibitors of these enzymes were obtained by a rational approach taking into account crystallographic data on Thermolysin, a bacterial enzyme, used as model of metallopeptidase active site. This strategy is supported by recent cloning of enkephalinase. As expected, a physiological
analgesia
is produced by administration of inhibitors, especially kelatorphan and analogues, demonstrating unambiguously the implication of enkephalinase and
aminopeptidase M
in enkephalin metabolism. The intensive studies on endogenous opioid system have shown that inhibitors of enkephalin metabolism represent very useful probes and promising new analgesics.
...
PMID:Design and evaluation of inhibitors of enkephalin degrading enzymes. 2050 Dec 41
