UMLS:C0020672 - FACTA Search

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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The dopamine agonist apomorphine was more potent in eliciting hypothermia in spontaneously hypertensive rats (SHRs) than in normotensive Wistar rats (NWRs), while normotensive Wistar-Kyoto rats (WKYs) were intermediate in response. Various drug interventions were attempted in an effort to explain the greater sensitivity of SHRs to apomorphine. Haloperidol produced abolition of apomorphine-induced hypothermia in SHRs but at greater doses than required for antagonism of the drug effect in WKYs and NWRs. Chronic hydralazine treatment that reduced the high blood pressure of SHRs failed to appreciably influence the magnitude of apomorphine-induced hypothermia, compared to the response in control SHRs that received no hydralazine. These findings suggested to us that the enhanced hypothermic effect of apomorphine in SHRs was entirely dopamine receptor-mediated and that it was also independent of the high blood pressure. We also found that chronic lithium treatment that had no influence upon apomorphine-induced hypothermia in WKYs and NWRs significantly reduced the drug effect in SHRs. Based on this finding, we suggest that the greater hypothermic effect induced by apomorphine in SHRs might be due to a supersensitivity of hypothermia-mediating dopamine receptors in the hypertensive strain.
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PMID:Pharmacological characterization of apomorphine-induced hypothermia in the spontaneously hypertensive rat. 647 58

Apomorphine (APO, 0.25 to 16 mg/kg) induced a dose dependent hypothermia in mice. Haloperidol, a dopamine antagonist, antagonized APO hypothermia due to lower doses. Clozapine and phenoxybenzamine, on the other hand, failed to modify APO hypothermia. Similarly, levopropranolol and cyproheptadine, which modify serotonergic responses, also failed to modify APO hypothermia. But fluxetine which selectively inhibits serotonin uptake, reversed APO induced hypothermia due to higher doses but not that induced by low dose of APO. The behavioral stereotypy was, however, not modified by fluoxetine pretreatment. It is concluded that APO hypothermia due to lower and higher doses are mediated by different receptors and the latter action involves the interaction of more than one type of receptor.
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PMID:Apomorphine hypothermia: interaction with serotonergic agents. 719 60

The influence of intraperitoneal administration of two neuroleptic drugs, haloperidol and pimozide (2.5 and 5.0 mg/kg) on pentobarbital induced narcosis, hypothermia and lethality were investigated in mice and rats. Haloperidol and pimozide administered 10 min prior to pentobarbital sodium (60 mg/kg) injection in rats increased significantly the onset time and duration of sleep. Both neuroleptic drugs also enhanced the intensity of hypothermic response to pentobarbital (50 mg/kg). Similar enhancement of narcosis and hypothermia to pentobarbital (75 mg/kg) was observed in haloperidol and pimozide pretreated mice. Pimozide pretreatment decreased the LD50 value of pentobarbital in mice. Brain and plasma levels of pentobarbital in haloperidol and pimozide treated rats on awakening were lower than in the corresponding saline treated rats. Brain and plasma levels determined at identical time interval in saline and neuroleptic treated rats showed similar results. These data indicate that disposition of pentobarbital cannot explain its enhanced pharmacological effects in haloperidol or pimozide treated animals but the brain sensitivity to pentobarbital is altered. These studies suggest an interaction between pentobarbital and neuroleptic drugs which may have clinical relevance.
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PMID:Enhanced sensitivity to pentobarbital in haloperidol or pimozide treated mice and rats. 739 24

1. Intrahypothalamic injection of either dopamine or 5-hydroxytryptamine (5-HT) in a dose volume of 1 microliters caused a fall in core temperature in lightly restrained rats maintained at an ambient temperature of 17 +/- 1 degree C. 2. Haloperidol (6.5 n-mole), a dopamine antagonist, prevented the hypothermic effect of dopamine (65 n-mole), but was ineffective against the response to either intrahypothalamic 5-HT (114 n-mole) or oxotremorine (6.0 n-mole). 3. Methysergide (14 n-mole) and cryproheptadine (17 n-mole) blocked the effect of both 5-HT and dopamine. However, these same doses failed to antagonise the effect of oxotremorine. 4. Rats placed on 0.65 m below a 250 W infra-red lamp responded to the imposed heat load vasodilation of tail skin blood vessels, as indicated by an increased tail skin temperature. 5. Rats tested 2 weeks after bilateral intrahypothalamic injection of 5,6-dihydroxytryptamine (42 n-mole in 2 microliters) showed a significant reduction in their tail skin temperature response and were less able to withstand the imposed heat load. 6. Three serial sections (0.8 mm thick) were prepared from the preoptic area of the rat brain, one anterior, one posterior and one corresponding to the previously defined dopamine-sensitive site. 7. Pretreatment with 5,6-dihydroxytryptamine significantly reduced the 5-HT concentration in the dopamine sensitive site, but had no effect on the concentration of dopamine. This pretreatment blocked dopamine but not 5-HT-induced hypothermia. 8. The 5-hydroxyindoleacetic acid (5HIAA) concentration in the hypothalamus of the normal rat exposed to a heat load was found to be significantly elevated, whereas there was no change in the 5HIAA concentration in the cortex. 9. Slices of rat preoptic hypothalamus and hippocampus were incubated with [3H]5-HT (0.2-2 microM). These slices accumulated 5-HT with properties characteristic of a neuronal uptake process. 10. Perfusion with either dopamine (greater than 50 microM) or apomorphine (greater than 200 microM) enhanced the release of [3H]5-HT from the prelabelled hypothalamic slices, but failed to stimulate release from hippocampal slices. 11. The release of [3H]5-HT from preoptic slices by dopamine and apomorphine was antagonised by the dopamine antagonists haloperidol (2 microM) and (+) isomer of butaclamol (1 microM), the (-) isomer of butaclamol was inactive. 12. These results support the hypothesis of a dopamine-5HT link in the hypothalamic thermoregulatory pathways of the rat.
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PMID:A dopamine-5-hydroxytryptamine link in the hypothalamic pathways which mediate heat loss in the rat. 743 Dec 48

In analogy to the dopamine D3 receptor agonist, (+)-7-OH-DPAT (7-hydroxy-2-(di-n-propylamino)tetralin) (0.01-0.63 mg/kg s.c.), clozapine dose-dependently (0.63-40.0 mg/kg s.c.) elicited hypothermia in rats. Haloperidol and raclopride, mixed dopamine D2/D3 receptor antagonists, failed, in contrast, to modify core temperature. Further, they dose-dependently inhibited the action of clozapine with inhibitory dose50 values (ID50) of 0.3 mg/kg s.c., in each case. The preferential dopamine D3 versus D2 receptor antagonist, (+)-AJ 76 (cis-(+)-5-methoxy-1-methyl-2-(n-propylamino)tetralin) (ID50 = 2.8), and the selective dopamine D3 versus D2 receptor antagonist, (+/-)-S 11566 ((+/-)(-)[7-(N,N-dipropylamino)-5,6,7,8-tetrahydro-naphtho(2,3b) dihydro,2,3-furane]) (ID50 = 1.6) likewise blocked the action of clozapine without reducing core temperature alone. The action of (+/-)-S 11566 was stereospecific in that its active eutomer, (+)-S 14297 (ID50 = 1.0), also inhibited the action of clozapine whereas its inactive distomer, (-)-S 17777 (ID50 > 10.0), was not effective. Antagonist potency for blockade of clozapine-induced hypothermia correlated powerfully both with potency for blockade of (+)-7-OH-DPAT-induced hypothermia (r = 0.98) and with affinity at cloned human dopamine D3 receptors transfected into Chinese hamster ovary (CHO) cells (r = 0.92). In conclusion, these data suggest that dopamine D3 receptors may be involved in the induction of hypothermia by clozapine in the rat.
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PMID:Evidence that dopamine D3 receptors participate in clozapine-induced hypothermia. 758 91

The role of sigma receptors in antinociceptive processes remains equivocal, because previous sigma drugs also bind to PCP/NMDA and opiate receptors. The present study examined the antinociceptive effects of the high-affinity, sigma-selective ligand 1,3-di-o-tolylguanidine (DTG; 10, 15, and 20 mg/kg, IP) on tail-withdrawal latencies in mice. DTG produced significant but short-lived increases in withdrawal latencies at all dose levels. DTG also produced hypothermia, but this effect was dissociable from antinociception. The highly selective sigma ligand rimcazole (10 and 25 mg/kg, IP) antagonized DTG antinociception in a dose-dependent manner. The opiate antagonist naloxone and the PCP/NMDA antagonist MK-801 were, however, without effect. Haloperidol, which also binds to sigma receptors, increased withdrawal latencies but did not alter DTG antinociception. These data implicate sigma receptors as the site of DTG antinociception, and more generally support the distinction between sigma, opiate, and PCP/NMDA receptors.
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PMID:Antinociception following 1,3,-di-o-tolylguanidine, a selective sigma receptor ligand. 761 5

Effects of prolonged lithium administration was seen on the action of various psychoactive drugs in animals. Apomorphine induced pecking in pigeons increased significantly by lithium treatment for 14 days, from 1445.3 +/- 202.5 in control to 2785.8 +/- 205.8 in Gp. B. Haloperidol-induced catalepsy score in albino rats increased significantly following chronic lithium treatment compared to control. Chlorpromazine-induced hypothermia in rabbits was immediate but transient, while in lithium treated rabbits induction of hypothermia was delayed, sustained and of greater magnitude. This action of lithium may be mediated by increasing the permeability of blood-brain barrier, or enhancing the sensitivity of alpha-adrenoceptors in brain.
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PMID:Effects of oral lithium on the action of various C.N.S. active drugs. 895 Jan 40

The benzofurane (+)-S 14297, the benzamide nafadotride, the aminoindane U 99194 and the arylpiperazine GR 103,691 have been proposed as "selective" antagonists at dopamine D3 vs. D2 receptors. Herein, we compared their in vitro affinities and in vivo actions to those of the aminotetralin D3 antagonists (+)-AJ 76 and (+)-UH 232. Affinities at recombinant, human (h)D3 and/or hD2 sites were determined by employing the mixed D2/D3 antagonist [125I]-iodosulpride and the preferential D3 ligands [3H]-(+)-PD 128, 907 and [3H]-(+)-S 14297. [3H]-(+)-PD 128,907, [3H]-(+)-S 14297 and [125I]-iodosulpride yielded an essentially identical pattern of displacement at D3 sites, which suggests that they recognize the same population of receptors. The rank order of potency (Ki values in nM vs. [3H]-(+)-PD 128,907) was GR 103,691 (0.4) approximately nafadotride (0.5) > haloperidol (2) approximately (+)-UH 232 (3) approximately (+)-S 14297 (5) > (+)-AJ 76 (26) > U 99194 (160). The rank order of preference (Ki ratio, D2:D3) for D3 receptors (labeled by [3H]-PD 128,907) vs. D2 sites (labeled by [125I]-iodosulpride) was (+)-S 14297 (61) approximately GR 103,691 (60) > U 99194 (14) > nafadotride (9) approximately (+)-UH 232 (8) approximately (+)-AJ 76 (6) > haloperidol (0.2). (+)-S 14297 and GR 103,691 also showed greater than 100-fold selectivity at dopamine hD3 vs. hD4 and hD1 sites. However, GR 103,691 showed marked affinity for serotonin1A receptors (5.8 nM) and alpha-1 adrenoceptors (12.6 nM). In vivo, all antagonists except GR 103,691 prevented the induction of hypothermia by (+)-PD 128,907 (0.63 mg/kg s.c.) and a further preferential D3 agonist, (+)-7-OH-DPAT (0.16 mg/kg s.c.). On the other hand, haloperidol, (+)-AJ 76, (+)-UH 232 and nafadotride all induced catalepsy in rats, whereas (+)-S 14297, U 99194 and GR 103,691 were inactive. Haloperidol, (+)-AJ 76, (+)-UH 232, nafadotride and (weakly) U 99194 also enhanced prolactin secretion and striatal dopamine synthesis, whereas (+)-S 14297 and GR 103,691 were inactive. However, despite its high affinity at 5-HT1A receptors and alpha-1 adrenoceptors, both of which are present on raphe-localized serotonergic neurons, GR 103,691 (0.5 mg/kg i.v.) failed to influence their basal firing rate or the inhibition of their electrical activity by the 5-HT1A agonist (+/-)-8-OH-DPAT (0.005 mg/kg i.v.), a result that casts doubt on its activity in vivo. In conclusion, both (+)-S 14297 and GR 103,691 are markedly selective ligands that permit the characterization of actions at hD3 vs. hD2 receptors in vitro, but (+)-S 14297 appears to be of greater utility for the evaluation of their functional significance in vivo. Nevertheless, to develop a better understanding of the respective roles of dopamine D3 and D2 receptors, we need additional, chemically diverse antagonists of improved potency and selectivity.
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PMID:A comparative in vitro and in vivo pharmacological characterization of the novel dopamine D3 receptor antagonists (+)-S 14297, nafadotride, GR 103,691 and U 99194. 976 37

Neurotensin (NT) is a tridecapeptide neurotransmitter in the central nervous system. It has been implicated in the therapeutic effects of neuroleptics. Central activity of NT can only be demonstrated by direct injection into the brain, since it is readily degraded by peptidases in the periphery. We have developed many NT(8-13) analogs that are resistant to peptidase degradation and can cross the blood-brain barrier (BBB). In this study, we report on one of these analogs, NT77L. NT77L induced hypothermia (ED(50)=6.5 mg/kg, i.p.) but induced analgesia only at the highest dose examined (20 mg/kg, i.p.). Like the atypical neuroleptic clozapine, NT77L blocked the climbing behavior in rats induced by the dopamine agonist apomorphine (600 microg/kg) with an ED(50) of 5.6 mg/kg (i.p.), without affecting the licking and the sniffing behaviors. By itself NT77L did not cause catalepsy, but it moderately reversed haloperidol-induced catalepsy with an ED(50) of 6.0 mg/kg (i.p.). Haloperidol alone did not lower body temperature, but it potentiated the body temperature lowering effect of NT77L. In studies using in vivo microdialysis NT77L showed similar effects on dopamine turnover to those of clozapine, and significantly different from those of haloperidol in the striatum. In the prefrontal cortex, NT77L significantly increased serotonergic transmission as evidenced by increased 5-hydroxyindole acetic acid:5-hydroxytryptamine (5-HIAA:5-HT) ratio. Thus, NT77L selectively caused hypothermia, over antinociception, while exhibiting atypical neuroleptic-like effects.
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PMID:Neurotensin analog selective for hypothermia over antinociception and exhibiting atypical neuroleptic-like properties. 1168 57

We have examined the effects of the psychostimulant d-amphetamine and the neuroleptic haloperidol on hypothermia induced by intraperitoneal injection of the centrally penetrating opioids morphine, fentanyl and sufentanil and the peripherally acting opioid loperamide. Measuring rectal body temperatures, dose-response relationships were established for all compounds. Morphine and sufentanil produced hyperthermia at low doses and dose-related hypothermia at higher doses. Fentanyl and loperamide produced dose-related hypothermia. Fixed doses of each opioid producing significant hypothermia were selected for interaction studies. The psychostimulant d-amphetamine was found t o produce biphasic effects with low doses inducing hypothermia and higher doses inducing hyperthemia. Haloperidol produced dose-related hypothermia. The selected doses of the opioids were then injected followed after 15 min. by injection of hypothermia producing doses of d-amphetamine or haloperidol. Hypothermia induced by morphine, fentanyl and sufentanil was reversed by d-amphetamine whereas loperamide-induced hypothermia was unaffected. Rebound hyperthermia was also measured with fentanyl and sufentanil. Haloperidol increased the hypothermic effects of morphine, fentanyl and sufentanil but not of loperamide. In conclusion, the central stimulating effects of opioids and amphetamine may combine resulting in thermogenesis and reversal of hypothermia. Central mechanisms of opioid-induced hypothermia in mice are influenced by drugs which alter the dopamine system, whereas peripheral mechanisms are unaffected. A possible clinical implication for this dopaminergic interaction may be toxicity associated with hyperpyrexia caused by psychostimulant misuse, which is increasingly occurring concomitantly with abuse of opioids.
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PMID:Morphine and d-amphetamine nullify each others' hypothermic effects in mice. 1274 75

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