UMLS:C0344307 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0344307 (analgesia)
28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

TRIMU-5 (Tyr-D-Ala-Gly-NH-(CH2)2CH(CH3)2) is a potent enkephalin analog with analgesic actions. Detailed studies show high affinity for both mu 1 and mu 2 sites, with poor affinity for delta, kappa 1 and kappa 3 receptors. Of all the mu ligands examined in binding assays, TRIMU-5 was the most mu-selective. In mice, TRIMU-5 administered either intracerebroventricularly (i.c.v.) or intrathecally elicited analgesia which was readily reversed by the mu-selective antagonist beta-funaltrexamine (beta-FNA). However, the analgesia observed following i.c.v. injections differed from traditional mu ligands: (1) the dose of drug required for analgesic activity i.c.v. was 100-fold greater than those following intrathecal administration; (2) although sensitive to beta-FNA, the analgesia was not antagonized by naloxonazine; and (3) the analgesia was reversed by an opioid antagonist given intrathecally (i.t.) but not i.c.v. Thus, TRIMU-5 analgesia appeared to be mediated spinally through mu 2 receptors. TRIMU-5 did have supraspinal actions, inhibiting gastrointestinal transit, another mu 2 action. In binding studies TRIMU-5 had high affinity for mu 1 sites, but pharmacological studies revealed antagonist actions at this receptor. In mice, the analgesia produced by morphine given i.c.v. was antagonized by coinjection of a low TRIMU-5 dose which was inactive alone. Similarly, TRIMU-5 coadministered with morphine into the periaqueductal gray of rats reversed the analgesia seen with morphine alone. Thus, TRIMU-5 is a highly selective mixed mu 2 opioid receptor agonist/mu 1 opioid receptor antagonist.
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PMID:Analgesic potency of TRIMU-5: a mixed mu 2 opioid receptor agonist/mu 1 opioid receptor antagonist. 132 12

TRIMU-5 (Tyr-D-Ala-Gly-NHC2H4CH(CH3)2) is a potent mu 2-opioid agonist/mu 1-opioid antagonist. A supraspinal dose (0.5 micrograms i.c.v.) of TRIMU-5 which is not analgesic when given alone antagonizes the analgesia produced by intracerebroventricular (i.c.v.) morphine, a mu 1 action. In contrast, in a synergy model consisting of the simultaneous administration of intrathecal morphine (0.1 micrograms) with multiple doses of i.c.v. morphine, the same supraspinal TRIMU-5 dose (0.5 micrograms i.c.v.) enhances analgesia. Supraspinal TRIMU-5 also potentiates spinal morphine directly, shifting its dose-response to the left. These results imply that within the brainstem mu 1 receptors mediate supraspinal analgesia while mu 2 receptors mediate the synergy with spinal mu systems.
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PMID:Supraspinal mu 2-opioid receptors mediate spinal/supraspinal morphine synergy. 133 Jun 18

Pharmacological assays in isolated tissues and binding tests have recently shown that two peptides, with the sequence Tyr-D-Ala-Phe-Asp-(or Glu)- Val-Val-Gly-NH2, isolated from skin extracts of Phyllomedusa bicolor and named [D-Ala2]deltorphin I and II, respectively, possess a higher affinity and selectivity for delta-opioid receptors than any other known natural compound. Since much evidence supports the role of spinal delta-opioid sites in producing antinociceptive effects, we investigated whether analgesia might be detected by direct spinal cord administration of [D-Ala2]deltorphin II (DADELT II) in the rat. The thermal antinociceptive effects of intrathecal DADELT II and dermorphin, a potent mu-selective agonist, were compared at different postinjection times by means of the tail-flick test. The DADELT II produced a dose-related inhibition of the tail-flick response, which lasted 10-60 min depending on the dose and appeared to be of shorter duration than the analgesia produced in rats after intrathecal injection of dermorphin (20-120 min). The analgesic effect of infused or injected DADELT II was completely abolished by naltrindole, the highly selective delta antagonist. These results confirm the involvement of delta receptors in spinal analgesic activity in the rat.
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PMID:Spinal antinociceptive effects of [D-Ala2]deltorphin II, a novel and highly selective delta-opioid receptor agonist. 136 79

The effect of chronic opioid antagonist-induced functional supersensitivity and receptor upregulation on morphine tolerance was examined in Swiss Webster mice obtained from Taconic Farms and Charles River Laboratories. Mice were implanted s.c. with either naltrexone (NTX) or placebo pellets for 8 days. After 8 days, the pellets were removed, and 24 h later mice were either injected with morphine (50 or 100 mg/kg) or saline (acute tolerance protocol) or implanted with a 75-mg morphine or placebo pellet for 72 h (chronic tolerance protocol). Mice were tested for morphine analgesia 24 h after injections or 72 h after pellet implantations. Mice from Taconic Farms were more sensitive to morphine analgesia than Charles River mice, although the degree of tolerance in both strains was similar. Acute morphine produced a 1.7- and 1.9-fold increase in the ED50 for morphine analgesia in NTX and placebo pretreated mice, respectively. the chronic tolerance protocol produced the same shift (2.4-fold) in the ED50 in both NTX and placebo pretreated mice. In both tolerance protocols, NTX-pretreated mice were significantly more sensitive to the analgesic effects of morphine than placebo pretreated controls. Binding studies ([3H][D-Ala,2NMePhe4,Gly-ol5]enkephalin) indicated an approximately 40% increase in opioid receptor density with no significant alteration in affinity after chronic NTX treatment. These results indicate that acute and chronic tolerance to morphine develops comparably in control and upregulated, supersensitive mice. These findings suggest that new binding sites in upregulated mice mediate tolerance similarly to existing binding sites and that the degree of tolerance is unrelated to the density of opioid receptors.
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PMID:The role of opioid receptor density in morphine tolerance. 184 2

The mu opioid receptors are unquestionably implicated both in supraspinal and spinal analgesia, but there is some controversy about the role of delta receptors in the control of pain at the supraspinal level. This could be due, at least in part, to the local or i.c.v. administration of the opioid agonists. It was therefore interesting to reassess the overall contribution of mu and delta opioid receptors in modulating nociceptive thermal stimuli in the hot plate-test in mice after i.v. injections of DAMGO (Tyr-D-Ala-Gly-(NMe)Phe-Gly-ol) and BUBU (Tyr-D-Ser(O-tert-butyl)-Gly-Phe-Leu-Thr(O-tert-butyl), two highly selective mu and delta receptor agonists, respectively, whose passage into the brain has been demonstrated recently. Both agonists induced dose-dependent, short-lasting (less than 30 min), antinociceptive responses that peaked 5 min after the administration of DAMGO and 10 min after the administration of BUBU. At these times, DAMGO [ED50: 1.26 mumols (0.65 mg)/kg] was 34 times more potent than BUBU [ED50: 42.5 mumols (34 mg)/kg] in the jump response and 13 times more potent in the paw lick. Apparent pA2 values of naloxone (0.004-0.1 mg/kg s.c.) antagonism for DAMGO and BUBU did not differ significantly, 6.95 +/- 0.054 and 7.28 +/- 0.030 for paw lick tests and 7.11 +/- 0.045 and 7.25 +/- 0.027 for jump tests, respectively. The slopes of the pA2 plots were close to the theoretical -1 value for competitive antagonism.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Systemic administration of (Tyr-D-Ser(O-tert-butyl)-Gly-Phe-Leu-Thr(O-tert-butyl), a highly selective delta opioid agonist, induces mu receptor-mediated analgesia in mice. 185 37

A novel bivalent opioid tetrapeptide, biphalin (Tyr-D-Ala-Gly-Phe-NH)2, was synthesized based on structure-activity relationships. The analgesic activity of biphalin was assessed in comparison to morphine in rats. Drugs were administered subcutaneously (s.c.), intravenously (i.v.) and intrathecally (i.t.). Tail flick and tail pinch were used as tests for analgesia. Biphalin s.c. showed negligible analgesic activity, but when given i.v. produced significant analgesia, although less potent than morphine via this route. In contrast, intrathecal biphalin was more potent than morphine. These results indicate that biphalin has intrinsic activity that is compromised by enzymatic degradation or redistribution in the periphery, properties that may render it useful in exploring analgesic actions of locally applied opioids in the periphery without the likelihood of unwanted central effects.
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PMID:Analgesic activity of a novel bivalent opioid peptide compared to morphine via different routes of administration. 195 Aug 24

The aim of the present study was to investigate if a physical dependence could be induced by chronic activation of the endogenous enkephalinergic system. We have therefore evaluated naloxone-induced withdrawal syndrome in rats after central infusion during 7 days of comparable antinociceptive doses of RB 38 A ((R,S)HONH-CO-CH2-CH(CH2C6H5)-CONH-CH(CH2C6H5)-COOH), a mixed enkephalin catabolism blocker and of the selective mu, DAGO (Tyr-D-Ala-Gly-(Me)Phe-Gly-ol) and delta, DSTBULET (Tyr-D-Ser(OtBu)-Gly-Phe-Leu-Thr), opioid agonists. The responses were compared to those induced by RB 38 B ((S,S)HONH-CO-CH2-CH(CH2C6H5)-CONH-CH(CH2C6H5)-COOH), a selective inhibitor of the 24.11 neutral endopeptidase (NEP) 'enkephalinase'. DAGO induced a severe withdrawal syndrome evidenced by a large weight loss, hypothermia, jumping, mastication, teeth chattering, diarrhoea, lacrimation and salivation. In contrast, DSTBULET and RB 38 A produced only a moderate physical dependence. Only two signs were statistically different in these two groups: wet dog shakes and temperature. Chronic i.c.v. administration of DAGO, DSTBULET and RB 38 A produced a time-dependent reduction in analgesia, but 120 h after continuous infusion only RB 38 A was able to still induce a significative antinociceptive effect. The present data suggest that even in the drastic conditions used here long-term complete inhibition of enkephalin catabolism induces a weak tolerance and a moderate physical dependence, similar to that produced by delta opioid agonists. This effect was not observed after chronic selective inhibition of NEP by RB 38 B.
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PMID:Differences in physical dependence induced by selective mu or delta opioid agonists and by endogenous enkephalins protected by peptidase inhibitors. 216 53

Dermorphin (Tyr-D-Ala-Phe-Gly-Tyr-Pro-Ser-NH2), a naturally occurring peptide isolated from arboreal frog skin, is endowed with outstanding structural and biological features. It has no structural community with the sequence of mammalian opioid peptides and is a unique example of a D-aminoacid containing peptide which is synthesized via ribosomal route. Dermorphin is the most potent of the opioid peptides or opiates in producing long lasting analgesia and catalepsy. Since most amphibians' secretory peptides have counterparts in the mammalian central nervous system and gastrointestinal tract, we have developed a sensitive enzyme immunoassay that can detect 1 pg dermorphin to verify the possibility of dermorphin or dermorphin-related peptides occurrence in mammalian tissues. Dermorphin-related peptides were purified by fast protein liquid chromatography followed by reverse phase high pressure liquid chromatography. Identification was achieved by chromatographic comparison with synthetic standards and immunological analysis. A peptide behaving like authentic dermorphin was detected (2 ng/g) in rat small intestine. Immunoreactive species of higher Mr were also detected in the brain, adrenal glands and gastrointestinal tract, they may represent extended forms of dermorphin or homologous peptides.
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PMID:Dermorphin and related peptides in rat tissues. 264 50

The tail-flick assay in chronic implanted rats was used to test the analgesic potency of agonists selective for mu opioid receptors: [D-Ala2,MePhe4,Gly-ol5]enkephalin (DAGO), Tyr-D-Ala-Gly-NH(CH2)2-CH(CH3)2 (TRIMU 5) and for delta receptor subtypes: [D-Ser2,Leu5]enkephalyl-Thr6 (DSLET), [D-Thr2,Leu5]enkephalyl-Thr6 (DTLET) and cyclic [D-Pen2,L-Pen5]enkephalin (DPLPE). DAGO produced an analgesic response at a concentration 500 times lower than DPLPE. The relative activity of these compounds was significantly correlated with their affinity for central or peripheral mu receptors but not with their delta receptor affinity. Diffusion studies of tritiated mu and delta agonists showed that after i.c.v. injection, these enkephalin analogues remained essentially localized within supraspinal structures. Taken together these results suggest strongly that the analgesia produced at the supraspinal level by opioid peptides is related to mu receptor stimulation.
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PMID:Use of mu and delta opioid peptides of various selectivity gives further evidence of specific involvement of mu opioid receptors in supraspinal analgesia (tail-flick test). 282 13

[D-Ala(2)(2R,3S)-delta(E)Phe(4)Leu(5)]enkephalin (CP-OH) [delta denoting cyclopropyl; superscript E indicating the E-configuration about the cyclopropane ring], a highly selective opioid ligand for delta receptors in rat brain, but not for those in the mouse vas deferens, was examined for in vivo biological activities by intracerebroventricular administration. CP-OH (5-20 micrograms) showed no analgesic activity in the hot plate (51 degrees C) test using rats. However, it suppressed completely the analgesic effects of intraperitoneally administered morphine (3 mg/kg rat) in a dose-dependent manner. CP-OH showed no binding affinity for brain kappa receptors to which dynorphin, an opioid peptide that inhibits morphine analgesia, binds predominantly. These results suggest that, besides the conventional delta receptors which mediate analgesia, the rat brain contains another delta-like receptor which has a modulatory role to attenuate morphine-induced analgesia mediated through the mu receptors, and that this modulatory receptor does not exist in the mouse vas deferens.
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PMID:A highly selective ligand for brain delta opiate receptors, a cyclopropyl(E)Phe(4)-enkephalin analog, suppresses mu receptor-mediated thermal analgesia by morphine. 283 32

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