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)

Three forms of stress-induced analgesia (electric shock, forced water-swim and novelty) were used to examine the nature of the endogenous antiopiate system. It was hypothesized that a role of the antiopiate system may be to regulate the extent of antinociception within varying environments. The antiopiate properties of Tyr-MIF-1 (Tyr-Pro-Leu-Gly-NH2), which were manifest by reduction of opiate analgesia in mice on a hot-plate, were best expressed within a defined range of intensities. In each of the 3 analgesic situations, pre-administration of Tyr-MIF-1 (0.1 mg/kg) resulted in an antinociceptive effect after low to moderate stress but not after more intense stress. These observations indicate that the antiopiate system can function differentially under various environmental conditions, thus ensuring that the organism's responses to its perception of the immediate environment are appropriate and specific.
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PMID:Differential activity of the endogenous antiopiate Tyr-MIF-1 after various intensities of stress. 289 40

Using a rat tail-flick analgesic assay that uses a cold water-ethylene glycol mixture (-10 degrees C) as the noxious stimulus, we have been able to demonstrate a dose-related, naloxone-reversible analgesic effect for dynorphin A (1-17), the proposed endogenous ligand for the kappa receptor. Male Sprague-Dawley rats were implanted surgically with cannulas in the right lateral ventricle at least 1 week before testing. Five microliters of either drug or saline, followed by a 3-microliter saline flush, were administered. Nociceptive threshold was measured as the latency for the rat to flick or remove its tail from the bath solution after immersion. Dynorphin produced a dose-related analgesia at doses of 1 to 50 micrograms i.c.v., reaching 100% maximum possible analgesia (compared to predrug base line) at the highest dose. We found similar dose-related analgesia when we tested the selective mu agonist [Try-D-Ala-Gly-NMe-Phe-Gly-ol] (0.01-1 microgram), the selective kappa receptor ligand U-50,488H (100-500 micrograms), the selective delta agonist [D-Pen2,5]-enkephalin (50-200 micrograms) and beta-endorphin (0.1-10 micrograms). Naloxone (1.0 mg/kg) was able to block the antinociceptive effect of all but the highest doses of dynorphin, which required 10.0 mg/kg of naloxone. When we compared the same dosages of dynorphin using hot water (55 degrees C) as the noxious stimulus, no antinociception was observed. Although we do not known the mechanisms responsible for the differences between the hot and cold water tests, it may be that the cold water tail-flick test, which is able to assess the antinociceptive activity of both opioid agonists and mixed agonist-antagonists, is a more sensitive measure of the type of analgesia mediated by kappa receptors.
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PMID:Antinociceptive action of intracerebroventricularly administered dynorphin and other opioid peptides in the rat. 290 Mar 24

Amphibian skin synthesizes a variety of biologically active peptides. Of these, dermorphin (Tyr-D-Ala-Phe-Gly-Tyr-Pro-Ser-NH2) is an extraordinarily potent opioid peptide up to 1000 times more active than morphine in inducing analgesia after intracerebroventricular administration. Dermorphin has little in common with the sequence of all hitherto known mammalian opioid peptides and is unique in having a D-amino acid residue in position 2. Specific binding properties of tritium labeled dermorphin were characterized in the rat brain. Scatchard or Hill analysis of equilibrium measurements performed over a large range of concentrations revealed a single population of dermorphin binding sites with a Kd value of 0.46 nM. Dermorphin and the selective mu-receptor ligand (D-Ala2, MePhe4, Gly5-ol)-enkephalin (DAGO) had similar high potencies in competing with (3H)-dermorphin binding, whereas the inverse holds for the prototypical delta receptor ligand (D-Pen2, D-Pen5)-enkephalin (DPDPE), which exhibited a potency three orders of magnitude lower. Dermorphin was tested for its relative affinity to mu and delta binding sites by determining its potency in displacing (3H)-DAGO and (3H)-DPDPE from rat brain membrane preparations. Based on these comparisons, dermorphin exhibited a selectivity ratio Ki(DPDPE)/Ki(DAGO) = 100, a value almost identical to that of DAGO, this ligand being considered as the protypical mu-receptor probe. The high affinity and selectivity of (3H)-dermorphin together with its very low nonspecific binding make this peptide a useful tool for dissecting the role(s) of the mu-receptor(s).
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PMID:Characterization of the receptor binding profile of (3H)-dermorphin in the rat brain. 290 51

beta-Endorphin-(1-27), administered intraventricularly has been previously reported to block the analgesia induced by beta-endorphin injected intraventricularly. The present study was to determine if the blocking effect of beta-endorphin-(1-27) was specific to beta-endorphin which stimulates epsilon receptors, but not to other opioids with activity at different opioid receptors. The antagonistic effects of beta-endorphin-(1-27) on the analgesia induced by beta-endorphin (epsilon-opioid receptor agonist), D-Ala2-NMePhe4-Gly-ol-enkephalin(DAGO) and morphine, (mu-opioid receptor agonists), D-Pen2-D-Pen5-enkephalin(DPDPE) and D-Ala2-D-Leu5-enkephalin(DADLE) (delta-opioid receptor agonists) and U-50, 488H (kappa-opioid receptor agonist) were studied. beta-Endorphin-(1-27) injected intraventricularly, at doses which, when injected alone did not produce analgesia, antagonized the analgesia induced by beta-endorphin given intraventricularly. However, the analgesia induced by DAGO, morphine, DPDPE, DADLE and U-50, 488H given intraventricularly was not antagonized by beta-endorphin-(1-27). The data suggest that beta-endorphin-(1-27) selectively blocks the analgesia induced by the stimulation of epsilon receptors but not by the stimulation of mu, delta, and kappa receptors. The results support the previously proposed hypothesis that beta-endorphin produces its analgesia by stimulating specific epsilon receptors.
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PMID:Beta-endorphin-(1-27) antagonizes beta-endorphin- but not morphine-, D-Pen2-D-Pen5-enkephalin- and U50, 488H-induced analgesia in mice. 297 39

The neutral endopeptidase EC 3.4.24.11, also designated enkephalinase, has been visualized by in vitro autoradiography using the tritiated inhibitor [3H]-N-[(2RS)-3-hydroxyaminocarbonyl-2-benzyl-1-oxopropyl] glycine, ([3H]HACBO-Gly). Specific binding of [3H]HACBO-Gly (Kd = 0.4 +/- 0.05 nM) corresponding to 85% of the total binding to brain slices was inhibited by 1 microM thiorphan, a selective inhibitor of enkephalinase, but remained unchanged in the presence of captopril, a selective inhibitor of angiotensin-converting enzyme. Very high levels of [3H]HACBO-Gly binding were found in the choroid plexus and the substantia nigra. High levels were present in the caudate putamen, globus pallidus, nucleus accumbens, olfactory tubercle, and in the substantia gelatinosa of the spinal cord. Moderate densities were found in parts of the amygdala, the periaqueductal gray matter, the interpeduncular nucleus, and the molecular layer of the cerebellum. The distribution of enkephalinase was compared to that of mu and delta opioid receptors, selectively labeled with [3H]Tyr-D-Ala-Gly-MePhe-glycinol and [3H]Tyr-D-Thr-Gly-Phe-Leu-Thr, respectively. In the caudate putamen, [3H]HACBO-Gly binding overlapped the clustered mu sites but appeared more closely related to the diffusely distributed delta sites. High levels of enkephalinase and mu opioid binding sites were present at the level of the periaqueductal gray matter and in the substantia gelatinosa of the spinal cord, regions where only sparse delta opioid receptors could be detected. The association of enkephalinase with delta and mu opioid receptors in these areas is consistent with the observed role of the enzyme in regulating the effects of opioid peptides in striatal dopamine release and analgesia, respectively. Except for the choroid plexus and the cerebellum, the close similarity observed in numerous rat brain areas between the distribution of enkephalinase and that of mu and/or delta opioid binding sites could account for most of the pharmacological effects elicited by enkephalinase inhibitors.
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PMID:Autoradiographic comparison of the distribution of the neutral endopeptidase "enkephalinase" and of mu and delta opioid receptors in rat brain. 300 54

Cortical electroencephalographic (EEG) recordings were performed on rats after i.v. administration of morphine and specific mu- and delta-opioid peptides. DAGO (Tyr-D X Ala-Gly-N X Me X Phe-Gly-ol), the mu-selective peptide, produced repetitive paroxysmal discharges organized in a pattern analogous to that seen in tonic clonic seizures at doses which produced analgesia while DTLET (Tyr-D X Thr-Gly-Phe-Leu-Thr), the delta-selective peptide, produced 'petit-mal'-like seizures at doses which caused neither analgesia nor catatonia. It is suggested that the delta receptor is preferentially implicated in the epileptogenic spectrum of opioids.
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PMID:Differential electrographic patterns for specific mu- and delta-opioid peptides in rats. 301 58

The analgesic potency and toxicity (lethality) of morphine were increased 2.5 times after implantation of 7.5-mg s.c. naltrexone pellets in the mouse for 8 days. Implantation for 8 days also resulted in a 41% [3H][D-Ala2-D-Leu5]enkephalin and 55% [3H] [D-Ala2-MePhe4-Gly(ol)5]enkephalin increase in radiolabeled opioid binding in mouse brain relative to placebo-implanted controls. Treatment for 1 day did not produce any significant increases in binding or morphine's analgesic potency. Brain morphine concentrations did not differ after a dose of morphine (8 mg/kg) that produced analgesia in 86% of 8-day naltrexone-treated mice vs. 39% of placebo-treated mice. The increase in the analgesic potency of morphine by chronic naltrexone treatment in the mouse is particularly striking as it is approximately 3 times greater than that observed for the rat. The decrease in the LD50 of morphine after 8 days of naltrexone treatment raises the possibility that the toxicity of opiates may be increased in patients who discontinue naltrexone maintenance treatment and resume opiate abuse.
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PMID:Pharmacodynamic supersensitivity and opioid receptor upregulation in the mouse. 302 Feb 28

The opioid activity pattern of 8 dermorphin tetrapeptides, W-Tyr-D-MetO-Phe-Xaa-Y (W = H, H2N-C = (NH); Xaa = Gly, 2-aminoethanol, sarcosine; Y = NH2, NH-alkyl), was determined in guinea-pig ileum (GPI) preparations and in brain binding assays and compared with their antinociceptive potency in mice. Almost all modifications increased potency on the GPI test as well as the antinociceptive action of the parent H-Tyr-D-Ala-Phe-Gly-NH2. Dermorphin, H-Tyr-D-Ala-Phe-Gly-Tyr-Pro-Ser-NH2, and related tetrapeptide analogues show negligible K-binding activity and, like morphine, possess a higher affinity to mu- than delta-receptors. Nevertheless the correlation of analgesia with the effects on GPI and binding data separate the peptides from morphine. For example, in comparison with the opiate alkaloid H-Tyr-D-MetO-Phe-Gly-ol and H-Tyr-D-MetO-Phe-Gly-NH2 displayed a lower affinity for mu sites, a moderately higher potency on GPI but an exceptionally stronger analgesia, being respectively 350 and 1500 times as potent an analgesic as morphine. This may involve different subpopulations of opioid mu-receptors.
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PMID:Opioid peptides. Biological study of [D-MetO2] dermorphin analogues in relation to the plurality of opioid receptors. XI. 303 74

The opioid receptors involved in the supraspinal and spinal actions of [D-Pen2, D-Pen5]enkephalin (DPDPE) for production and/or modulation of analgesia were investigated in two thermal analgesic tests, the mouse warm water (55 degrees C) tail-withdrawal assay and the radiant heat tail-flick test. Two approaches were used at supraspinal and spinal sites: determination of possible cross-tolerance between morphine and a variety of receptor selective/nonselective agonists (DPDPE, [D-Pen2, L-Pen5]enkephalin (DPLPE), [D-Ala2, MePhe4, Gly-ol]enkephalin, [D-Ala2, Met5]enkephalin amide, [D-Ser2, Leu5, Thr6]enkephalin and [D-Thr2 Leu, Thr6]enkephalin) and possible potentiation of morphine (mu) analgesia by proposed delta agonists (DPDPE, DPLPE and [D-Ala2, D-Leu5]enkephalin) in naive and morphine-tolerant mice. Additionally, proposed mu (morphine) and delta (DPDPE) agonists were evaluated for their i.c.v. analgesic effectiveness in the absence, and in the presence, of the proposed delta antagonist ICI 174,864. The present communication now reports that after i.c.v. administration analgesic cross-tolerance could be demonstrated between morphine and a variety of relatively selective or nonselective opioids but not to the highly delta selective DPDPE and DPLPE. This result was consistent with direct antagonism of i.c.v. DPDPE, but not morphine analgesia, by ICI 174,864. Furthermore, i.c.v. DPDPE and DPLPE were able to potentiate morphine analgesia in either naive or morphine-tolerant mice. In contrast, after intrathecal administration, cross-tolerance could be demonstrated between DPDPE or DPLPE and morphine, and no potentiation of morphine by DPDPE could be observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of mu and delta receptors in the supraspinal and spinal analgesic effects of [D-Pen2, D-Pen5]enkephalin in the mouse. 303 14

Jimpy (B6CBA-A W-J/A-Ta jp) mice, which are known to be deficient in neuronal cerebroside sulfate (a putative component of the mu opioid receptor), were non-responsive in the tail flick test (compared to littermate controls and a standard Swiss strain of mouse) to analgesic doses of two mu opioid receptor agonists, morphine sulfate and [D-Ala2,MePhe4,Gly-ol5]enkephalin (DAGO). However, the jimpy mice responded normally (compared to controls) to the analgesic effects of the selective delta opioid receptor agonist [D-Pen2,L-Pen5]enkephalin (DPLPE). These results suggest (1) that delta opioid receptors can mediate analgesia and (2) that cerebroside sulfate is not necessary for delta opioid receptor activation.
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PMID:[D-Pen2,L-Pen5]enkephalin induced analgesia in the jimpy mouse: in vivo evidence for delta-receptor mediated analgesia. 303 73


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