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)

We have tested the ability of (+/-)-CP 96,345, a novel nonpeptide substance P (SP) antagonist, to block the aversive behaviour induced by intrathecal (i.t.) administration of SP and to induce thermal antinociception in mice. (+/-)-CP 96,345 administered i.t. or i.p. selectively blocked the effect of i.t. SP while leaving the response to i.t. bombesin unaffected. At the same dose proven effective against i.t. SP, (+/-)-CP 96,345 produced thermal analgesia in the hot plate test (52 degrees C). Using isolated organs for bioassay evaluation of activity at tachykinin receptor, (+/-)-CP 96,345 was found to be a potent (pA2 8.11, c.l. 7.9-8.3) and competitive NK1 receptor antagonist while it was devoid of activity at NK2 or NK3 receptors. These findings provide clear indication for the participation of SP, via NK1 receptors, in thermal nociception.
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PMID:Role of NK1 tachykinin receptors in thermonociception: effect of (+/-)-CP 96,345, a non-peptide substance P antagonist, on the hot plate test in mice. 172 Aug 81

It was found in the present study that low frequency (2Hz) electroacupuncture (EA) stimulation caused a decrease of the content of substance P immunoreactivity (SP-ir), whereas medium-(15Hz), high-(100Hz) and dense-disperse (D-D)- (2/15Hz) frequencies EA stimulation induced an increase of the content of SP-ir in the rat spinal fluid. EA analgesia induced by medium-, high- or D-D mode frequency was suppressed by nonpeptide SP (NK1) receptor antagonists CP96345 or RP67580 administered intrathecally (i.t.). Both the attenuation of SP release by low frequency EA and the potentiation of SP release by medium frequency EA in the spinal cord were blocked by the opioid receptor antagonist naloxone (i.t.). These results suggest that a decrease of release of SP-ir by low frequency and an increase of it by medium-, high- and D-D mode frequencies in the spinal cord facilitate analgesia.
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PMID:[Study on a role of substance P in the spinal mechanisms of electroacupuncture analgesia]. 874 59

The tachykinin NK1 receptor is widely distributed in both the central and peripheral nervous system. In the CNS, NK1 receptors have been implicated in various behavioural responses and in regulating neuronal survival and degeneration. Moreover, central NK1 receptors regulate cardiovascular and respiratory function and are involved in activating the emetic reflex. At the spinal cord level, NK1 receptors are activated during the synaptic transmission, especially in response to noxious stimuli applied at the receptive field of primary afferent neurons. Both neurophysiological and behavioural evidences support a role of spinal NK1 receptors in pain transmission. Spinal NK1 receptors also modulate autonomic reflexes, including the micturition reflex. In the peripheral nervous system, tachykinin NK1 receptors are widely expressed in the respiratory, genitourinary and gastrointestinal tracts and are also expressed by several types of inflammatory and immune cells. In the cardiovascular system, NK1 receptors mediate endothelium-dependent vasodilation and plasma protein extravasation. At respiratory level, NK1 receptors mediate neurogenic inflammation which is especially evident upon exposure of the airways to irritants. In the carotid body, NK1 receptors mediate the ventilatory response to hypoxia. In the gastrointestinal system, NK1 receptors mediate smooth muscle contraction, regulate water and ion secretion and mediate neuro-neuronal communication. In the genitourinary tract, NK1 receptors are widely distributed in the renal pelvis, ureter, urinary bladder and urethra and mediate smooth muscle contraction and inflammation in response to noxious stimuli. Based on the knowledge of distribution and pathophysiological roles of NK1 receptors, it has been anticipated that NK1 receptor antagonists may have several therapeutic applications at central and peripheral level. At central level, it is speculated that NK1 receptor antagonists could be used to produce analgesia, as antiemetics and for treatment of certain forms of urinary incontinence due to detrusor hyperreflexia. In the peripheral nervous system, tachykinin NK1 receptor antagonists could be used in several inflammatory diseases including arthritis, inflammatory bowel diseases and cystitis. Several potent tachykinin NK1 receptor antagonists are now under evaluation in the clinical setting, and more information on their usefulness in treatment of human diseases will be available in the next few years.
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PMID:The tachykinin NK1 receptor. Part II: Distribution and pathophysiological roles. 957 43

Normally-innocuous low-intensity tactile stimuli applied to inflamed tissue induce a progressive decrease in the mechanical flexion withdrawal threshold, the phenomenon of progressive tactile hypersensitivity (PTH). The effects of the mu opioid receptor agonist morphine, the non-competitive NMDA receptor antagonist MK801 and the tachykinin NK1 receptor antagonist RP67580 on the development and maintenance of PTH has now been investigated behaviourally in rats inflamed 48 h earlier by intraplantar complete Freund's adjuvant injection. A standard protocol of eight light tactile stimuli applied to the dorsum of the inflamed paw every 4 s at 5 min intervals resulted, over 60 min, in a 70% fall in mechanical threshold from the pre-conditioning baseline value. Morphine administered before the tactile stimuli at 0.05 mg/kg i.p. had no effect on either baseline thresholds or PTH. At 0.5 mg/kg, morphine prevented the establishment of PTH without changing baseline thresholds. At 5 mg/kg morphine produced analgesia, increasing thresholds above the baseline. MK801 pre-treatment at 0.01 and 0.001 mg/kg i.p. significantly attenuated the development of progressive tactile hyperalgesia without an effect on basal thresholds. RP67580 pre-treatment at 0.1 mg/kg i.p. had no effect, but at both I and 10 mg/kg, attenuated progressive tactile hypersensitivity without changing baseline values. To test the effect of the drugs on established PTH, they were administered 90 min after the commencement of intermittent tactile stimulation to the inflamed hindpaw, when thresholds had reached a plateau. Morphine (0.5 mg/kg) and MK801 (0.01 mg/kg) produced only a small reduction in sensitivity and RP67580 (1 mg/kg) had no effect. These results suggest that the induction of inflammatory progressive tactile hypersensitivity is sensitive to morphine, and to a lesser extent NMDA and NKI receptor antagonists, but these compounds at a dose that do not alter baseline values, do not normalise established tactile hypersensitivity.
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PMID:Morphine, the NMDA receptor antagonist MK801 and the tachykinin NK1 receptor antagonist RP67580 attenuate the development of inflammation-induced progressive tactile hypersensitivity. 975 18

Administration of NK1 antagonists in adult animals attenuates the nociceptive response in the formalin test, indicating that the neurokinins and the NK1 receptor play a role in mediating this pain response. The number and distribution of NK1 receptors change dramatically during development, and the age at which they become involved in pain processing is not known. We examined the role of NK1 receptors in the formalin model in rats ranging in age between 3- and 21-days old. An NK1 antagonist, CP99,994, and its less active enantiomer CP100,263 were administered to the spinal cord (intrathecal), systemically (subcutaneous), or locally (intraplantar). Intrathecal administration of CP99,994, but not CP100,263, attenuated pain behaviors in the second phase of the formalin response in 14-day and 21-day old rats, but did not alter the pain response in 3-day or 10-day old rats. CP99,994 also reduced the expression of the c-fos protein in the superficial dorsal horn of 21-day old rats. Systemic and intraplantar injection of either CP99,994 or CP100,263 reduced the pain response to formalin in 3-day and 21-day old rats, suggesting a non-NK1 mediated mechanism of action. These results indicate that, within the spinal cord, NK1 receptors start to play a role in the pain response to formalin between 10 and 21 days. Moreover, analgesia induced by systemic or local injection of NK1 antagonists involves mechanisms other than, or in addition to, the NK1 receptor.
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PMID:Maturation of NK1 receptor involvement in the nociceptive response to formalin. 1081 3

Tachykinin NK1 receptor antagonists have failed to exhibit efficacy in clinical trials of a variety of clinical pain states. By contrast, in preclinical studies in animals NK1 receptor antagonists have been shown to attenuate nociceptive responses sensitized by inflammation or nerve damage, although they exhibit little effect on baseline nociception. Other agents with this profile of activity in animal tests, typically nonsteroidal anti-inflammatory drugs (NSAIDs), are analgesic in humans. Thus, NK1 receptor antagonists appear able to block behavioural responses to noxious and other stressful sensory stimuli at a level detectable in animal tests but fail to provide the level of sensory blockade required to produce clinical analgesia in humans.
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PMID:NK1 (substance P) receptor antagonists--why are they not analgesic in humans? 1135 94

We investigated and compared the effects of two amphibian tachykinins, the NK1 receptor agonist PG-SPI and the NK3 receptor agonist PG-KII, and the mammalian tachykinins substance P, neurokinin A and neurokinin B on the reaction time to a painful radiant heat stimulus (tail-flick test in rats) after intracerebroventricular injection. PG-SPI (1, 10 and 20 microg) and PG-KII (1, 5 and 10 microg) significantly increased the reaction time. Substance P (10 microg) injected intracerebroventricularly induced antinociception, whereas neurokinin A and neurokinin B did not. Like analgesia evoked by exogenous substance P, PG-SPI-evoked analgesia was blocked by pretreatment with naloxone. Naloxone left PG-KII antinociception unchanged, but the NK3 receptor selective antagonist markedly reduced it. These findings suggest NK1 and NK3 tachykinin receptor system involvement in supraspinal analgesia in rats.
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PMID:Effects of supraspinal administration of PG-SPI and PG-KII, two amphibian tachykinin peptides, on nociception in the rat. 1109 Sep 14

Behavioral analysis of the NK1 receptor gene knock-out (NK1-/-) mouse indicated that substance P was closely involved in orchestrating the physiological and behavioral response of the animal to major environmental stressors. In particular, endogenous pain control mechanisms, such as stress-induced analgesia were substantially impaired in mutant mice, suggesting a reduction in descending inhibitory controls to the spinal cord from the brainstem. To directly test the integrity of descending controls in NK1-/- mice, we have analyzed c-Fos expression in laminae I-II of the lumbar and cervical cord and in the rostral ventromedial medulla in an experimental paradigm known to require recruitment of descending inhibitory controls. Anesthetized mice were stimulated with water at 50 degrees C either on their forepaw, hindpaw, or on both the hindpaw plus forepaw concurrently. Wild-type mice, naive or treated with an NK1 antagonist (RP67580) or its inactive isomer (RP68651), were compared with NK1-/- mice. C-Fos expression at the lumbar laminae I-II level was significantly reduced, whereas it was significantly greater in the raphe magnus and pallidus nuclei in the double stimulation situation in wild-type compared with NK1-/- mice. Blocking the NK1 receptor pharmacologically reproduced, in an enantiomere-selective manner, the data from NK1-/- mice, with no evidence for recruitment of descending inhibition at the lumbar cord level after forepaw stimulation. The present study demonstrates that the NK1 receptor is essential for the full development of noxiously evoked descending inhibition.
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PMID:The NK1 receptor is essential for the full expression of noxious inhibitory controls in the mouse. 1115 89

Noradrenaline (NA), a key neurotransmitter of the endogenous pain inhibitory system, acutely inhibits nociceptive transmission (including that mediated by substance P), potentiates opioid analgesia, and underlies part of the antinociceptive effects of the widely prescribed tricyclic antidepressants. Lesions of noradrenergic neurons, however, result in either normal or reduced pain behavior and variable changes in morphine antinociception, undermining the proposed association between noradrenaline (NA) deficiency and chronic pain (hyperalgesia). We used mice lacking the gene coding for dopamine beta-hydroxylase, the enzyme responsible for synthesis of NA from dopamine, to reexamine the consequences of a lack of NA on pain behavior. Here, we show that absence of NA in the central nervous system results in a substance P-mediated chronic hyperalgesia (decreased nociceptive threshold) to thermal, but not mechanical, stimuli and decreased efficacy of morphine. Contrary to studies that show substance P-mediated hyperalgesia requires intense stimuli, we found that even a mild stimulus is sufficient to evoke substance P-dependent hyperalgesia in the NA-deficient mice. Restoring central NA normalized both the nociceptive threshold and morphine efficacy, which is consistent with a tonic inhibitory effect of NA on nociceptive transmission. Unexpectedly, however, antagonists to the substance P receptor (the NK1 receptor) could achieve the same effect as NA replacement. We conclude that when unopposed by NA, substance P acting at the NK1 receptor causes chronic thermal hyperalgesia, and that the reduced opioid efficacy associated with a lack of NA is due to increased NK1-receptor stimulation.
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PMID:The NK1 receptor mediates both the hyperalgesia and the resistance to morphine in mice lacking noradrenaline. 1180 10

Here we examine whether a permanent reduction in the noradrenergic (NA) innervation of the spinal cord leads to a chronic decreased nociceptive threshold. NA denervation of rats was achieved by intrathecal injection of dopamine beta-hydroxylase antibodies conjugated to the toxin saporin. A subset of animals also underwent unilateral L5 spinal nerve ligature to induce sustained neuropathic pain behavior. NA fibers and terminals were lost throughout the spinal cord 2 weeks after toxin application and were still absent 12 months later, indicating that regeneration did not occur. There was also a widespread loss of NA terminals in the cerebral cortex, whereas innervation of the hypothalamus and amygdala were close to normal and NA innervation of the brainstem was moderately reduced. There was extensive loss of NA cells in the locus coeruleus and A5 and A7 cell groups. Dopaminergic and serotoninergic innervation was normal. Intracerebroventricular injection of the toxin resulted in additional NA reduction in the hypothalamus, amygdala, and A1 and A2 cell groups. Long-term removal of NA afferents did not affect nociceptive thresholds. Neuropathic animals showed greater mechanical hyperalgesia in the affected hindpaw only during the first 60 days after toxin. Rats lacking NA spinal afferents were less responsive to the antinociceptive effects of morphine, especially in the neuropathic hindpaw, and did not display opioid-dependent stress analgesia. Finally, in the spinal cord of toxin-treated rats, immunoreactivity for substance P was decreased, whereas that of its receptor (NK1) was increased. These animals exhibited antinociception to a low dose of an NK1 receptor antagonist. Our results suggest that NA contributes only modestly to determining the nociceptive threshold and that its antinociceptive effects are closely linked to opioidergic and tachykinergic neurotransmission.
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PMID:Long-term effects of decreased noradrenergic central nervous system innervation on pain behavior and opioid antinociception. 1268 95

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