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)

The distribution of immunoreactive enkephalin in rat brain and spinal cord was studied by immunoperoxidase staining using antiserum to leucine-enkephalin ([Leu5]-enkephalin) or methionine-enkephalin ([Met5]-enkephalin). Immunoreactive staining for both enkephalins was similarly observed in nerve fibers, terminals and cell bodies in many regions of the central nervous system. Staining of perikarya was detected in hypophysectomized rats or colchicine pretreated rats. The regions of localization for enkephalin fibers and terminals include in the forebrain: lateral septum, central nucleus of the amygdala, area CA2 of the hippocampus, certain regions of the cortex, corpus striatum, bed nucleus of the stria terminalis, hypothalamus including median eminence, thalamus and subthalamus; in the midbrain: nucleus interpeduncularis, periaqueductal gray and reticular formation; in the hind brain: nucleus parabrachialis, locus ceruleus, nuclei raphes, nucleus cochlearis, nucleus tractus solitarii, nucleus spinalis nervi trigemini, motor nuclei of certain cranial nerves, nucleus commissuralis and formatio reticularis; and in the spinal cord the substantia gelatinosa. In contrast enkephalin cell bodies appear sparsely distributed in the telencephalon, diencephalon, mesencephalon and rhombencephalon. The results of the histochemical staining show that certain structures which positively stain for enkephalin closely correspond to the distribution of opiate receptors in the brain and thus support the concept that the endogenous opiate peptides are involved in the perception of pain and analgesia. The localization of enkephalin in the preoptic-hypothalamic region together with the presence of enkephalin perikarya in the paraventricular and supraoptic nuclei suggest a role of enkephalin in the regulation of neuroendocrine functions.
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PMID:Immunohistochemical localization of enkephalin in rat brain and spinal cord. 35 1

Concurrent administration of morphine sulfate i.c.v. and i.t. produces a multiplicative interaction for analgesia in the tail flick response in mice. This interaction decreases to an additive interaction in mice which are tolerant to s.c. morphine. To test the responses of opioids selective for mu or delta receptors, the present study examined the interactions between fentanyl citrate (mu agonist) and D-Ala2-D-Leu5 enkephalin (DADLE, a relatively selective delta agonist) administered i.c.v. and i.t. using the tail flick test in control and morphine pellet-implanted mice. A method was developed for assigning statistical significance to the resulting ED50 values when analyzed isobolographically. When fentanyl or DADLE was administered i.c.v. plus i.t., an additive interaction between sites occurred in control animals, which changed to an antagonistic interaction for fentanyl and a multiplicative interaction for DADLE after morphine pellet treatment. When morphine was given i.c.v. along with i.t. fentanyl or DADLE in control animals, multiplicative interactions occurred when equipotent doses were given. Thus, opioids which were more receptor-selective than morphine did not produce multiplicative interactions, but were multiplicative when given with morphine. These results suggest that activation of combinations of receptors (by morphine) was required for the multiplicative interaction. The supraspinal site involved mu receptors (which are not self-sufficient and require an additional component) and the spinal site involved mu or delta receptors. The use of isobolographic analysis required that the drugs, when administered concurrently at two sites, be given in a constant dose ratio.
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PMID:Isobolographic analysis of analgesic interactions between intrathecally and intracerebroventricularly administered fentanyl, morphine and D-Ala2-D-Leu5-enkephalin in morphine-tolerant and nontolerant mice. 164 21

The opioid activity and the selectivity for opioid receptor (subtypes) of newly synthesized fluorinated enkephalin (Enk) analogues, [2R, 4R], [2R, 4S], [2S, 4S] and [2S, 4R] trifluoro-Leu5-Enk (KKF-31, 32, 33 and 34) were investigated. The inhibitory effect of KKF-compounds on the electrically induced contractions of guinea-pig ileum (GPI) and mouse vas deferens (MVD) were dose-dependent but relatively lower than that of L-Leu5-Enk, except that KKF-34 was rather slightly more potent than L-Leu5-Enk in MVD preparations. In GPI preparations, the pA2 values of naloxone for these compounds were higher than those of naltrindole while the values of naltrindole for KKF-compound were higher than those of naloxone in MVD preparations. Intracerebroventricular KKF-31 and KKF-32 at doses of 20 and 10 nmol/mouse, respectively, produced analgesia comparable to 0.1 nmol Tyr-D-Arg-Phe-Lys-NH2 and 100 nmol Tyr-D-Thr-Gly-Phe-Leu-Thr; however, neither KKF-33 nor 34 produced analgesia up to the doses of 100 nmol/mouse. Both naloxone, 1 mg/kg, i.p., and naltrindole, 10 mg/kg, i.p., antagonized KKF-31- and KKF-32-induced analgesia. The results suggest that the introduction of trifluoromethyl group in Leu5 results in the alternation of the opioid activity and receptor selectivity. Although KKF-33 and KKF-34 possessed a more potent in vitro inhibitory effect than KKF-31 and KKF-32, mediated through mu- and delta-opioid receptors in both preparations, they did not show any appreciable analgesic effect. KKF-31 and KKF-32 produce naloxone- and naltrindole-reversible analgesia irrespective of in vitro mu- and delta-opioid activity.
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PMID:The opioid activity and receptor selectivity of fluorinated Leu5 enkephalin analogues in vitro and in vivo. 165 91

Alterations in brain opioid binding and opioid pharmacodynamics following chronic (8-day) naltrexone (NTX) treatment were determined in pertussis toxin (PTX)-treated mice. Intrathecal (IT) and intracerebroventricular (ICV) PTX produced a time-dependent, long-lasting inhibition of morphine (SC) analgesia without modifying basal nociception. Inhibition was maximal 16 days following PTX treatment, and was still observed at 40 days. Relative to placebo controls, NTX treatment produced supersensitivity to morphine analgesia in all control mice and in mice pretreated with PTX 1 day before NTX. Supersensitivity was not observed in 7-day PTX-pretreated mice. [3H][D-Ala2-D-Leu5]enkephalin ([3H]DADLE) and [3H][D-Ala2-MePhe4-Gly(ol)5]enkephalin ([3H]DAMGO) binding sites were increased by NTX treatment in saline- and PTX-pretreated groups. KDs were unchanged. These results indicate that PTX does not alter opioid antagonist-induced receptor upregulation. However, PTX treatment can diminish morphine potency in upregulated and control mice. Therefore, opioid analgesia in control and upregulated mice appears to be mediated by receptors linked to a common PTX-sensitive G-protein. Furthermore, in 7-day PTX-pretreated mice, NTX increased binding sites without altering morphine potency, which suggests that new binding sites can appear without being functionally coupled.
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PMID:Dissociation of opioid receptor upregulation and functional supersensitivity. 165 19

Area tempestas (AT) is a forebrain area involved in the genesis and generalization of clonic convulsions in rats. This study reports that upon AT application opiates and opioid peptides produce antinociceptive effects as measured with the hot-plate (HP) and tail-flick (TF) tests in rats. Unilateral infusion of mu and kappa agonists into AT at doses in the nanogram range delayed the latency to respond for the contralateral paws in the HP test (Emax, 67-91 degrees of analgesia), beginning 1 to 5 min after application. A smaller effect was observed after the Leu-enkephalin, [D-Ala2,D-Leu5][enkephalin and D-Pen2,D-Pen5]enkephalin. No effect was observed after Met-enkephalin. In the TF test, unilateral application of mu and kappa agonists in the nanogram range produced antinociception with Emax values of 43 to 62 degrees of analgesia, beginning 5 to 15 min after infusion. No significant effect was found after unilateral infusion of delta agonists. Infusion into AT (10 min before) of naltrexone (2-4 ng), ICI 154, 129 (1-10 ng) and WIN 44,441-3 (2-20 ng) antagonized the antinociception evoked by locally applied morphine (25 ng), [D-Pen2,D-Pen5]enkephalin (50 ng) and U 50,488 (100 ng), respectively. In addition, antinociception induced by systemic morphine (2.5 mg/kg sc) was antagonized by subsequent (23 min) unilateral application of naltrexone (15 ng). In the HP test, a reduction of the antinociceptive effect of morphine was obtained for both ipsilateral and contralateral paws after the antagonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antinociceptive action of opiates and opioid peptides after unilateral microinjection into area tempestas in rats. 166 76

Opiates modulate pain perception at a number of different levels within the central nervous system and the importance of synergistic spinal and supraspinal influences have been well documented. In the present study we demonstrate synergistic interactions between the periaqueductal gray and locus coeruleus. Administered either systemically or intracerebroventricularly (i.c.v.), ethylketocyclazocine elicits a potent naloxonazine-sensitive analgesia, indicating a mu 1 action. mu 1 Receptors also play a major role in opioid analgesic mechanisms in the periaqueductal gray and the locus coeruleus. However, microinjection of EKC into either the periaqueductal gray or locus coeruleus failed to elicit an analgesic response at any dose tested (0.1-20 micrograms) and, in additional studies, antagonized the analgesic actions of coadministered morphine or [D-Ser2,Leu5]enkephalin-Thr6 (DSLET). However, the simultaneous administration of EKC into both the periaqueductal gray (10 micrograms) and the locus coeruleus (10 micrograms; total combined dose 20 micrograms) produced a potent naloxonazine-sensitive analgesia greater than that observed with 50 micrograms i.c.v. These results suggest that EKC is a partial mu 1 agonist which lacks the efficacy to elicit analgesia when microinjected into either of the two brain regions alone. However, when exposed to several regions at once, either through simultaneous microinjections into the periaqueductal gray and locus coeruleus or by injection into the ventricle, EKC is a potent mu 1 analgesic. These results point out the existence of synergistic supraspinal interactions between the periaqueductal gray and the locus coeruleus, similar to the spinal/supraspinal interactions observed previously.
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PMID:Synergistic analgesic interactions between the periaqueductal gray and the locus coeruleus. 166 70

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

Peptide E is a mu-selective opioid peptide derived from proenkephalin A which contains [Met5]-enkephalin at the amino end and [Leu5]-enkephalin at the carboxyl end. Peptide E is further processed both centrally and peripherally to a [Leu5]-enkephalin-containing fragment which was investigated to determine if processing leads to alterations in receptor selectivity. Peptide E-(15-25) inhibited electrically stimulated contractions in both the mouse vas deferens, longitudinal muscle, myenteric (IC50 = 459 nmol/L), and guinea pig ileum (IC50 = 2630 nmol/L), indicating a sixfold delta-receptor selectivity. When administered intracerebroventricularly to mice, peptide E-(15-25) also produced potent analgesia which was completely antagonized by naloxone pretreatment, but the peptide had no effect on intestinal transit as measured by the radiochromium geometric center method. This is consistent with earlier findings that intracerebroventricular delta-opioid-selective agents are analgesic but do not inhibit intestinal transit. In vitro radioligand binding assays were performed using male Sprague-Dawley rat whole brain homogenates. The IC50 for peptide E against [3H]naloxone was 1.8 nmol/L compared with the delta-opioid ligand, [3H] [D-Pen2, D-Pen5]-enkephalin of 38.8 nmol/L. The IC50 for peptide E-(15-25) against [3H]naloxone was 497 nmol/L, but for [3H] [D-Pen2, D-Pen5]-enkephalin it was 50.6 nmol/L. Therefore, peptide E loses mu-opioid receptor affinity (1.8-497 nmol/L) after proteolytic processing and the loss of the amino terminal tyrosine but maintains a high delta-opioid affinity (38.8-50.6 nmol/L). These studies demonstrate that enzymatic peptide processing of peptide E to peptide E-(15-25) leads to a shift from mu- to delta-receptor selectivity and a different spectrum of biological effects on gut motility.
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PMID:Changes in opioid receptor selectivity following processing of peptide E: effect on gut motility. 185 Mar 73

The effects of intracerebroventricular (i.c.v.) administration of D-Phe-Cys-Tyr-D-Try-Orn-Thr-Pen-Thr-NH2 (CTOP), a selective mu-opioid receptor antagonist, (Allyl)2-Tyr-Aib-Aib-Phe-Leu-OH (ICI 174864) and (N,N-Bisallyl-Tyr-Gly-Gly-psi-(CH2S)-Phe-Leu-OH (ICI 154129), selective delta-opioid receptor antagonists on blocking analgesia induced by beta-endorphin, morphine, D-Ala2-NMePhe4-Gly-ol-enkephalin (DAMGO), D-Ala2-D-Leu5-enkephalin (DADLE) and D-Pen2-enkephalin (DPDPE) administered i.c.v. were studied in male ICR mice. The analgesia was assessed by the tail-flick and paw-licking (hot-plate) tests. The potencies of opioid agonists injected i.c.v. for producing analgesia were DAMGO greater than DADLE greater than beta-endorphin greater than morphine greater than DPDPE. Intracerebroventricular administration of CTOP (0.05 micrograms) selectively antagonized inhibition of the tail-flick and paw-licking response induced by morphine, DAMGO or DADLE but not beta-endorphin or DPDPE. ICI 174864 (5 micrograms) and ICI 154129 (5 micrograms) injected i.c.v. selectively antagonized analgesia induced by DPDPE or DADLE but not beta-endorphin, morphine or DAMGO injected i.c.v. These results indicate that analgesia induced by morphine and DAMGO is mediated by the stimulation of mu-opioid receptors while analgesia induced by DPDPE is mediated by the stimulation of delta-opioid receptors. DADLE-induced analgesia is mediated by the stimulation of both mu- and delta-opioid receptors. Analgesia induced by beta-endorphin is mediated by neither mu- nor delta-opioid receptors.
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PMID:Different types of opioid receptors mediating analgesia induced by morphine, DAMGO, DPDPE, DADLE and beta-endorphin in mice. 197 34

Rat pups in 3 groups respectively were given daily footshock, exposure to a footshock apparatus without shock, or no handling from birth to 21 days of age and reared with no manipulation afterwards. After maturation (90-100 days of age), they were assessed for hot-plate paw-lick latency, morphine-induced analgesia and opiate receptor binding assay. In footshocked animals, a significant increase was found in paw-lick latency and in antinociceptive effects of morphine (1.25, 2.5, and 5.0 mg/kg) in comparison with two control groups. The antinociceptive effect of morphine in all 3 groups was antagonized by pretreatment with naloxone (2.0 mg/kg). No significant difference was found in binding activities (Bmax and Kd) for both [3H]naloxone and [3H]Dala2, D-Leu5-enkephalin between the 3 groups. These results suggest that exposure to footshock stress in the preweanling period has a long-term effect on the sensitivity of rats to painful events, probably due to chronic functional changes in endogenous opiate systems at presynaptic level rather than in postsynaptic opiate receptor binding activity.
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PMID:The effect of neonatal exposure to chronic footshock on pain-responsiveness and sensitivity to morphine after maturation in the rat. 215 33

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