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

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

The mu opioid receptor ligand [D-Ala2, NMePhe4, Gly-ol5]enkephalin (DAGO) and delta opioid receptor ligand [D-Pen2,D-Pen5]enkephalin (DPDPE) show similar specificity in competition binding studies in whole brain homogenate in rat and mouse. However, in saturation studies, the density and affinity of DPDPE binding sites were substantially greater in the mouse. There was no difference between the mouse and rat in the density and affinity of DAGO sites. Results from dose-response studies for analgesia using the same ligands administered i.c.v. in both species paralleled the binding studies. DAGO was approximately 2 times more potent in the mouse compared to the rat; while DPDPE was more than 15 times more potent in the mouse. Thus, binding capacity and affinity differences appear to be related to the functional potency of the mu and delta ligands in the two species. These results suggest that the difference in potency of DPDPE between rat and mouse is related to the differences in brain delta opioid receptors.
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PMID:Species differences in mu- and delta-opioid receptors. 164 25

Central morphine analgesia is significantly greater in male than in female rats. Since mu and delta opioid receptor subtypes have been implicated in supraspinal analgesia, the present study evaluated whether gender or adult gonadectomy altered (a) analgesia on the tail-flick and jump tests following central administration of the mu-selective agonist, [D-Ala2, Me-Phe4, Gly(ol)5] enkephalin (DAMGO) and the delta-selective agonist, [D-Ser2,Leu5] enkephalin-Thr6 (DSLET) and (b) mu1, mu2 and delta opioid receptor binding. Sham-operated male rats displayed significantly greater magnitudes of peak and total analgesia than sham-operated females on the tail-flick test following DAMGO, but not DSLET. Gender differences were not observed for DAMGO and DSLET analgesia on the jump test. Gonadectomy failed to consistently affect either DAMGO or DSLET analgesia. Regression analyses failed to reflect significant shifts in the dose-response functions for either agonist on either measure. Gender differences were not observed for mu1, mu2, or delta binding in hypothalamus or cortex. These data are compared with analgesic responses sensitive to gender differences.
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PMID:Gender effects and central opioid analgesia. 167 51

The peptidase-resistance and bioavailability of BUBU [H-Tyr-D.Ser(OtBu)-Gly-Phe-Leu-Thr(OtBu)-OH], a highly selective and potent agonist of the delta opioid receptor, have been investigated in vitro and in vivo. In vitro at 37 degrees C, the peptide was fully resistant to degradation by rat serum and strongly resistant to degradation by rat brain membranes. In vivo 0.065% of the dose of [3H]BUBU injected intravenously to the mouse was present 15 min later in the brain. The percentage determined for [3H]DAGO [H-Tyr-D.Ala-Gly-(NMe)Phe-Gly-ol], a selective ligand for mu sites, was 0.038%. Specific binding to mouse brain membranes, determined after intracerebroventricular injection of [3H]BUBU, was saturable and a high affinity (KDapp = 25 pmol) was evaluated for the delta-agonist. Competition experiments showed that BUBU is a selective ligand for delta receptors in vivo. Comparison of the analgesic potency (hot plate test) of ICV or IV administered increasing doses of BUBU and DAGO with their in vivo binding properties supports the preferential involvement of mu receptors in supraspinal analgesia. BUBU also induced an increase in spontaneous locomotion after IV administration at a dose lower than that which produced analgesia. The quantitative results obtained in the present study demonstrate that BUBU and DAGO could be used to characterize the pharmacological responses induced by selective stimulation of delta and mu receptors after systemic administration.
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PMID:Brain passage of BUBU, a highly selective and potent agonist for delta opioid receptors: in vivo binding and mu versus delta receptors occupancy. 185 Jan 35

Mice treated for 72 hrs with morphine (subcutaneously implanted pellets) were tested with a variety of opioid receptor agonists to examine the development of tolerance and cross-tolerance to their analgesic action. The development of spinal and supraspinal tolerance following morphine treatment was evaluated by administering compounds systemically (sc), intrathecally (IT) and intracerebroventricularly (ICV). Following morphine treatment, tolerance to morphine analgesia was observed following IT, ICV and sc administration. Chronic morphine treatment also produced cross-tolerance to the analgesic effects of the selective delta opioid receptor agonist [D-Pen2, D-Pen5]enkephalin (DPDPE) following IT and ICV administration. However, morphine treatment selectively produced cross-tolerance to ICV [D-Ala2, NMePhe4, Gly-ol5]enkephalin (DAGO) (mu receptor agonist) analgesia, without altering IT DAGO analgesia. These results suggest that brain and spinal cord receptors mediating the effects of DAGO differ in terms of the development of cross-tolerance to morphine; and suggest that tolerance to systemic morphine may be due to changes in spinal delta and brain mu and delta receptor mechanisms.
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PMID:Differentiation of spinal and supraspinal opioid receptors by morphine tolerance. 215 56

Though opioid receptors are more difficult to purify and characterize than other cell surface receptors, significant progress has been made in the past several years. At least a dozen groups have now reported purification of opioid-binding proteins, either in a form that retains ligand-binding properties, or in a covalently bound form. Although there are some discrepancies in the molecular weights of these proteins, it is significant that many investigators have reported a molecular weight of about 60 kd for the receptor, regardless of whether it is of the mu, delta, or kappa type. This finding, together with immunological evidence, suggests that different opioid receptor types may be highly similar, and could conceivably even share a common ligand-binding subunit. Several groups have prepared monoclonal or polyclonal antibodies to purified opioid-binding proteins, which should be useful in mapping the brain regional distribution of the opioid receptors, determining the regions in the peptide involved in ligand binding and association with second messengers, and in determining the relationships among different opioid receptor types. One group has in fact already established an antigenic similarity between a mu-selective opioid-binding protein in mammalian brain, and the delta opioid receptor in NG108-15 neuroblastoma-glioma hybrid cells. One group has reported cloning of the cDNA for a purified opioid-binding protein. Somewhat surprisingly, its predicted amino acid sequence places it in the immunoglobulin superfamily, with strongest homologies to cell-adhesion molecules such as N-CAM. MAG, amalgam and fasciclin II, as well as receptors for peptides such as PDGF and interleukin-6. However, this is consistent with evidence that opioids can modulate cell-cell interactions of monocytes, and provides further support for links between opioids and the immune system. The second messengers mediating opioid actions are still unknown. Opioid agonists affect the activity of adenylate cyclase and ion channels in some tissues, but neither has been shown to mediate opioid analgesia. The sequence homologies of the purified opioid-binding protein OBCAM with tyrosine kinase growth factor receptors suggest additional possibilities for second messengers.
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PMID:Molecular characterization of opioid receptors. 216 Jul 90

The role of mu and delta opioid receptors in the spinal and supraspinal analgesic actions of morphine and [D-Pen2, L-Pen5] enkephalin were examined in the tail-flick test utilizing the mu opioid receptor deficient CXBK mouse and BALB/cBy and C57BL/6By, the progenitor strains of CXBK. The analgesic effects of i.c.v. administered morphine were equivalent in the CRS-CD1 (Swiss) standard laboratory mice and the progenitor strains of CXBK. Morphine did not, however, produce analgesia in the CXBK mice at doses greater than 10 times the ED50 dose in the progenitor strains. Similarly, the analgesic effect of i.c.v. [D-Ala2, NMePhe4, Gly-ol]enkephalin, a highly selective mu receptor peptide agonist, also was reduced greatly in the CXBK mice. These data are consistent with the deficiency in mu opioid receptors observed autoradiographically in this strain. In contrast, the highly selective delta opioid receptor peptide agonist [D-Pen2, L-Pen5]enkephalin was equipotent i.c.v. in the CXBK mice and in the progenitor strains of CXBK. In contrast to the effects produced by i.c.v. administration, the analgesic effects of intrathecally administered morphine were similar between CRS-CD1 and CXBX strains of mice. These results suggest that 1) both mu and delta opioid receptors can mediate supraspinal analgesia and 2) that the receptor(s) involved in spinally mediated analgesia is (are) quite distinct from those involved supraspinally.
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PMID:Examination of the involvement of supraspinal and spinal mu and delta opioid receptors in analgesia using the mu receptor deficient CXBK mouse. 283 33

Chronic treatment with opioid antagonists increases the potency of opioid agonists and produces an increase in brain opioid binding sites. In the present study, 8 day treatment with naltrexone blocked morphine and DADLE analgesia for the entire treatment period and increased mu 1, mu 2 and delta opioid receptor binding sites in mouse brain. mu 1 and mu 2 binding were increased by 81 and 67%, respectively, while delta binding was increased by 31%. Consistent with these binding changes, the potency of ICV morphine to produce analgesia was increased by over 3-fold, while the potency of ICV DADLE was increased by only 1.7. These findings indicate that relative increases in opioid receptor subtypes agree with pharmacodynamic studies on potency changes of opioid agonists.
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PMID:Upregulation of opioid receptor subtypes correlates with potency changes of morphine and DADLE. 284 19

A series of cyclic conformationally restrained octapeptide analogs of somatostatin were examined for their ability to inhibit the binding of tritiated mu, kappa, and delta opiate receptor ligands. Several of these substances were found to have high affinity for mu opiate receptors while having very low affinity for both kappa and delta receptors. Previous suggestions that somatostatin analogs exhibit opiate antagonist activity led to a study of the ability of the two most potent compounds to inhibit morphine analgesia in rats after intracerebroventricular injection. One of the compounds significantly antagonized morphine analgesia although the other displayed severe toxicity. These two compounds differed in that the very toxic compound had previously been found to possess significant somatostatin activity. It thus appears that the structural requirements for toxicity and somatostatin activity can be differentiated from those for opiate activity.
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PMID:Mu-opiate binding and morphine antagonism by octapeptide analogs of somatostatin. 289 61

The neurochemical and functional correlates of opioid receptor up-regulation after chronic antagonist administration in vivo and of down-regulation after withdrawal of antagonist were examined. Total brain opioid receptors increased 1.9-fold by day 8 of naltrexone administration, after which no further increase was observed; the newly synthesized or unmasked receptors exhibited an enhanced sensitivity to guanyl nucleotide modulation. Withdrawal from chronic naltrexone treatment resulted in a return to nearly control levels of receptor density and guanyl nucleotide sensitivity in a period of 6 days. These results suggest that up-regulation is accompanied by an increased coupling of the receptors to the inhibitory guanyl nucleotide binding protein (Ni) and that down-regulation involves the dissociation of the receptor/Ni complex. In experiments designed to target opiate receptor subtypes, long-term treatment with naltrexone was found to produce a coordinated up-regulation of brain mu and delta receptors, but did not cause a significant change in the density or affinity of kappa or sigma receptors. These findings indicate that the kappa and sigma opiate receptor classes may be subject to independent control mechanisms. Chronic naltrexone treatment also resulted in an enhanced morphine-induced analgesia. This result indicates that a functional supersensitivity occurs as a result of the selective up-regulation of mu and delta receptors. After withdrawal from naltrexone, supersensitivity to morphine-induced analgesia decreased monotonically and, in parallel to opioid receptor density, to prenaltrexone treatment levels within 6 days. Together, these results suggest a functional significance for antagonist-induced mu and delta opiate receptor up-regulation.
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PMID:Neurochemical and functional correlates of naltrexone-induced opiate receptor up-regulation. 298 11

The present electric shock (ES) schedule produced significant behavioral changes, such as analgesia and motor suppression, and functional changes in binding capacities for opioid agonist and antagonist. In the naloxone (5 mg/kg, SC 15 min before ES application) pretreated rats, these behavioral and biochemical changes were blocked. In addition, when preincubation (37 degrees C, 30 min) was not carried out in the process of preparation of synaptic membrane, the ES-induced functional changes in hibh affinity binding sites were not observed. Moreover, the present data indicated that preincubation may produce the destruction of [3H]-D-ala2,L-met5-enkephalinamide ([3H]-DAMEA) specific binding sites with the forced dissociation of endogenous delta-type opioid peptides from delta opioid receptors. In addition, the significant decrease of [3H]-DAMEA specific binding in the ES membrane suggested that delta-type opioid peptides were released more than steady state level by ES application and bound to the delta opioid receptors. Therefore, these results suggest that ES-induced behavioral and biochemical changes were mediated by opioid peptides which were released by ES application. In addition, the ES-induced analgesia may be mediated by high affinity delta opioid receptor.
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PMID:Electric footshock-induced changes in behavior and opioid receptor function. 300 81


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