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)

125I-Bolton-Hunter sulfated cholecystokinin-8 was used to localize and characterize cholecystokinin (CCK) receptor binding sites in trigeminal and dorsal root ganglia, and in the spinal cord of the rat, rabbit, and monkey. In the rabbit and monkey, a substantial number, 90 +/- 21% and 24 +/- 8%, respectively, of trigeminal and dorsal root ganglion neurons express CCK binding sites. In the spinal cord, the highest concentration of CCK receptors is found in laminae I and II, which is the major termination site of dorsal root ganglia neurons expressing CCK receptor binding sites. Neonatal capsaicin treatment of the rat results in a 70% decline in CCK receptor binding sites in laminae I and II of the spinal cord, indicating that dorsal root ganglia neurons are a major source of CCK receptors in the spinal cord. Pharmacological experiments using selective CCK-A and CCK-B receptor antagonists demonstrate that CCK-B is the prominent CCK receptor subtype in trigeminal and dorsal root ganglia neurons in the rat, rabbit, and monkey. In the rat and rabbit spinal cord, CCK-B binding sites are the prominent subtype, whereas in the monkey cord, CCK-A is the prominent receptor subtype. These results demonstrate that CCK-B receptors are expressed by a substantial percentage of dorsal root ganglion neurons at all spinal levels, and that CCK may antagonize opiate analgesia at the level of the primary afferent neuron itself.
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PMID:Trigeminal and dorsal root ganglion neurons express CCK receptor binding sites in the rat, rabbit, and monkey: possible site of opiate-CCK analgesic interactions. 133 5

The effects of the selective CCK-A antagonist L-365,031 and the selective CCK-B antagonist L-365,260 on morphine analgesia and opiate tolerance and dependence in rats were examined. L-365,031 and L-365,260 had no effect on baseline pain thresholds in the radiant heat tail flick test but enhanced analgesia induced by a submaximal dose of morphine (4 mg/kg). Similarly, L-365,260 did not effect pain thresholds in the paw pressure test but enhanced morphine analgesia in this model. Rats injected twice daily for 6 days with incremental doses of morphine became tolerant to the analgesic effects of the drug. Twice daily injections of either 8 mg/kg L-365,031 or 0.2 mg/kg L-365,260 prevented the development of tolerance to morphine analgesia. In contrast, L-365,260 had no influence on the development of opiate dependence in these animals, as assessed by naloxone-precipitated withdrawal. The results of the present study, when considered together with previous data, indicate that the rank order of potency of non-peptide CCK antagonists for enhancing morphine analgesia is L-365,260 greater than MK-329 greater than L-365,031. This rank order correlates well with the potency of the antagonists in blocking CCK-B receptors in rodents and suggests that CCK/opiate interactions in this species are mediated by CCK-B receptors.
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PMID:The selective CCK-B receptor antagonist L-365,260 enhances morphine analgesia and prevents morphine tolerance in the rat. 231 58

The octapeptide form of CCK predominates in the central nervous system (CNS) of mammalian species, including man. Many of the physiological roles of CCK in the CNS are unknown, but it is believed to be involved in nociception. CCK is distributed throughout cortical grey matter, periaqueductal grey matter, ventromedial thalamus and spinal dorsal horn, all of which are areas known to be associated with pain modulation. CCK receptor subtypes have been identified and may be classified according to their affinity for the sulphated and desulphated forms of CCK-8 and the recently described selective antagonist. MK-329. CCK-A receptors have high affinity for sulphated CCK-8 and for MK-329 but low affinity for desulphated CCK-8 and CCK-4 whilst CCK-B sites bind MK-329 with low affinity and discriminate poorly between sulphated and desulphated CCK-8. CCK-A receptors are found predominantly in peripheral tissues but they also exist in discrete regions of the primate CNS, including the spinal cord. CCK-B receptors are found ubiquitously throughout other regions of the neuraxis. The results of studies on the effects of CCK-8 and the decapeptide analogue caerulein on pain thresholds are conflicting. Some workers suggest that large doses of CCK-8 and caerulein induce naloxone-reversible analgesia in certain pain models. However, it appears likely that analgesia induced by large doses of CCK and caerulein in animals may be a pharmacological rather than a physiological phenomenon. Accordingly, others have found that small (and most probably, physiological) doses of CCK-8 attenuate the analgesic effects of morphine, and of endogenous opioids. Thus, it has been proposed that CCK may act as an endogenous opiate antagonist. Studies in rats with the selective CCK antagonist MK-329 have helped clarify the interaction between CCK and morphine-induced analgesia. Treatment with MK-329 enhances morphine analgesia and chronic treatment with MK-329 prevents the development of tolerance to morphine analgesia. However, the antagonist does not prevent naloxone-precipitated withdrawal symptoms in morphine-dependent rats. In man, caerulein prevents pain associated with gall-bladder contraction, probably by relaxation of the sphincter of Oddi. Caerulein has also been shown to reduce renal colic and the pain of intermittent claudication. Preliminary clinical studies with the weak, non-selective, CCK antagonist proglumide, indicate an enhancement of morphine analgesia. As yet, no studies have demonstrated analgesic effects of CCK antagonists in man when administered alone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The role of CCK caerulein, and CCK antagonists in nociception. 269 75

The effects of cholecystokinin octapeptide sulphated (CCK) and the potent CCK antagonist MK-329 (L-364, 718) on analgesia induced by morphine in the paw pressure test in the rat were examined. Both CCK (4-16 micrograms/kg) and MK-329 (0.1-8.0 mg/kg) had no significant effect on thresholds for pain when given alone, whereas morphine (2-16 mg/kg) induced dose-dependent analgesia. Cholecystokinin (4-16 micrograms/kg) abolished the analgesia induced by 8 mg/kg morphine. In contrast, doses of 1 and 2 mg/kg MK-329 enhanced the analgesia induced by 8 and 4 mg/kg morphine, respectively. The present data are consistent with previous reports that CCK blocks, and CCK antagonists enhance, opiate-induced analgesia in response to thermal pain stimuli. In addition, the results show that CCK/opiate interactions extend to mechanical pain stimuli. Recent ligand binding studies have shown that CCK receptors in the spinal cord of the rat (where CCK/opiate interactions are thought to occur) are predominantly of the CCK-B subtype. The drug MK-329 has a relatively weak (micromolar) affinity for CCK-B receptors and a high affinity (nanomolar) for CCK-A receptors. As relatively large doses (1-2 mg/kg) of MK-329 are required to enhance opiate-induced analgesia in the paw pressure test and tail flick test in rats it appears that CCK/opiate interactions in this species involve CCK-B receptors.
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PMID:Morphine-induced analgesia in the rat paw pressure test is blocked by CCK and enhanced by the CCK antagonist MK-329. 272 51

The effects of the potent and selective CCK antagonist, MK-329, on morphine- and environmentally-induced analgesia were examined in male mice. The results show that MK-329 (0.005-0.1 mg/kg) was devoid of intrinsic analgetic activity on the mouse tail-flick assay and, over the dose range 0.01-0.5 mg/kg, was without significant effect upon non-opioid analgesia, induced by defeat experience. However, opposite effects of MK-329 on analgesia induced by morphine and opioid-mediated social conflict analgesia were observed. That is, 0.05-0.01 mg/kg MK-329 (but not smaller doses) enhanced, and modestly prolonged, the duration of analgesia induced by 5 mg/kg morphine. In direct contrast, 0.0001-0.5 mg/kg of the CCK antagonist very potently inhibited opioid-typical analgesia in mice exposed to intense conspecific attack. In the latter studies, a residual short-lasting analgesia in mice, treated with MK-329, was found to be resistant to naloxone (5 mg/kg), indicating its non-opioid nature and confirming the lack of effect of the CCK antagonist on opioid-independent analgesia. It is suggested that the variable effects of MK-329 on morphine-induced and opioid-mediated social conflict analgesia may reflect differential, dose-dependent effects at CCK-B and CCK-A sites respectively, a proposal consistent with the 500-fold potency difference observed between the two models.
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PMID:Differential effects of the CCK antagonist, MK-329, on analgesia induced by morphine, social conflict (opioid) and defeat experience (non-opioid) in male mice. 281 81

The potent and selective non-peptide cholecystokinin (CCK) antagonist L-364,718 (0.5-2.0 mg/kg s.c.) enhanced the analgesia induced by acute morphine treatment in the rat tail flick test. Chronic treatment with L-364,718 (1.0 mg/kg) prevented the development of tolerance to morphine analgesia (after a 6 day period of morphine treatment) but did not influence the onset of opioid dependence. Since L-364,718 is considerably more potent in inhibiting CCK binding to peripheral tissues than to brain membranes its interaction with morphine is surprising. The exact locus of this interaction, or whether it involves 'peripheral-type' (CCK-A) or 'central-type' (CCK-B) receptors is not known.
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PMID:Enhancement of morphine analgesia and prevention of morphine tolerance in the rat by the cholecystokinin antagonist L-364,718. 337 66

The predominant brain cholecystokinin receptor (CCK-B/gastrin) has been implicated in mediating many of the central effects of cholecystokinin, including anxiety, panic attacks, satiety, and analgesia, suggesting it is an important pharmacologic target. We now report the cloning and characterization of the cDNA encoding the human brain CCK-B/gastrin receptor. The cDNA was isolated from a human brain library by low stringency screening using the canine "gastrin" receptor cDNA as a hybridization probe. Nucleotide sequence analysis revealed an open reading frame encoding a 447-amino-acid protein with seven putative hydrophobic transmembrane domains and significant homology with other known members of the gastrin/cholecystokinin receptor family. Agonist and antagonist affinities of the recombinant human brain receptor expressed in COS-7 cells are consistent with a classical "CCK-B" receptor as defined by the literature. In COS-7 cells expressing the cloned receptor, CCK-8-stimulated phosphatidylinositol hydrolysis and intracellular Ca2+ mobilization suggesting second messenger signaling through phospholipase C. CCK-B/gastrin receptor transcripts were identified in human brain, stomach, and pancreas using high stringency Northern blot analysis. Southern blot hybridization analysis of human genomic DNA indicates that a single gene encodes both the brain and the stomach CCK-B/gastrin receptors. Our data suggest that the CCK-B and gastrin receptors are identical and that the long standing distinction between them may no longer apply.
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PMID:The human brain cholecystokinin-B/gastrin receptor. Cloning and characterization. 768 36

The analgesic effect of systemic morphine (4 mg/kg, s.c.) was antagonized in a dose-dependent manner by cholecystokinin octapeptide (CCK-8) (0.1-0.5 ng) administered bilaterally to the nucleus accumbens of the rat. This effect of CCK-8 could be reversed by devazepide, a CCK-A receptor antagonist, at 50 ng and 200 ng and by L-365,260, a CCK-B receptor antagonist, at 5 ng administered bilaterally to the nucleus accumbens. A marked potentiation of morphine analgesia was achieved by intra-nucleus accumbens injection of 200 ng devazepide or 5 ng L-365,260. Since the effect of L-365,260 in antagonizing the anti-opioid effect of CCK-8 in the nucleus accumbens is 40 times more potent than devazepide, it is suggested that the anti-opioid effect of CCK-8 is mediated by CCK-B receptors. In conclusion, nucleus accumbens is a strategic site where CCK-8 exerts an anti-opioid activity, most probably via the CCK-B receptors.
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PMID:Cholecystokinin octapeptide (CCK-8) antagonizes morphine analgesia in nucleus accumbens of the rat via the CCK-B receptor. 782 Jun 14

Published results suggest that delta-opioid agonists can modulate the mu-mediated analgesia. In this work, the antinociceptive effects produced by the mu agonist [D-Ala2,NMe-Phe4,Gly-ol5]enkephalin or the mixed inhibitor of enkephalin-degrading enzymes RB 101 (N- [(R,S)-2-benzyl-3[(S)(2-amino-4-methyl- thio)butyldithio]-1-oxopropyl]-L-phenylalanine benzyl ester) were studied after administration of the systemically active and selective delta agonist Tyr-D-Ser(O-tert-butyl)-Gly-Phe-Leu- Thr(O-tert-butyl). In the hot-plate test in mice, Tyr-D-Ser(O-tert-butyl)-Gly- Phe-Leu-Thr(O-tert-butyl) (i.v.) potentiated the antinociceptive responses elicited by [D-Ala2,NMe-Phe4,Gly-ol5]enkephalin (i.v.) or RB 101 (i.v.). These facilitatory effects were reversed not only by prior administration of the delta-selective antagonist naltrindole (0.5 mg/kg s.c.), but also unexpectedly by the selective cholecystokinin CCK-A antagonist MK-329 (20 micrograms/kg i.p.). In addition, the CCK analog [Boc- Tyr(SO3H)-Nle-Gly-Trp-Nle-Asp-Phe-NH2] (a mixed CCK-A/CCK-B agonist) increased the jump latency and this effect was blocked by MK-329 (20 micrograms/kg i.p.) and by naloxone, but not by the selective CCK-B antagonist L-365,260 (5 mg/kg i.p.). In contrast, the selective CCK-B agonist BC 264 (62 micrograms/kg i.v.) produced a hyperalgesic effect that was antagonized by L-365,260 (5 mg/kg i.p.). Taken together, these findings suggest that the potentiating effects of delta agonists on mu-mediated analgesia are due to an increase in the release of endogenous CCK interacting with CCK-A and CCK-B receptors and resulting in positive and negative regulation of the endogenous opioid system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of endogenous cholecystokinin in the facilitation of mu-mediated antinociception by delta-opioid agonists. 799 17

A [125I]cholecystokinin (CCK) analog and [125I]peptide YY (PYY) were used to localize and characterize CCK and neuropeptide Y (NPY) receptor binding sites in the rabbit vagal afferent (nodose) ganglion. High concentrations of CCK and NPY binding sites were observed in 10.6% and 9.2% of the nodose ganglion neurons, respectively. Pharmacological experiments using CCK or NPY analogs suggest that both subtypes of CCK (CCK-A and CCK-B) and NPY (Y1 and Y2) receptor binding sites are expressed by discrete populations of neurons in the nodose ganglion. These results suggest sites at which CCK or NPY, released in either the nucleus of the solitary tract or a peripheral tissue, may modulate the release of neurotransmitters from a select population of visceral primary afferent neurons. Possible functions mediated by these receptors include modulation of satiety, opiate analgesia, and the development of morphine tolerance.
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PMID:Cholecystokinin and neuropeptide Y receptors on single rabbit vagal afferent ganglion neurons: site of prejunctional modulation of visceral sensory neurons. 813 66

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