Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apomorphine produced a greater hypothermic response in spontaneously hypertensive rats (SHRs) than in normotensive Wistar-Kyoto rats (WKYs). Experiments were conducted in SHRs and WKYs of three age groups to determine whether the increased hypothermic responsiveness to apomorphine occurs prior to the development of hypertension. The mean systolic blood pressures (SBPs) of SHRs and WKYs were comparable at 4-6 weeks of age. The mean SBP of SHRs were significantly greater than that of WKYs at both 8-10 and 12-15 weeks of age. Yet SHRs responded to apomorphine with significantly greater hypothermia than WKYs at all three ages. These findings indicate that the hyperresponsiveness of SHRs to apomorphine-induced hypothermia precedes the development of hypertension. This sequence of events is consistent with the hypothesis that central DA systems play a role in development of hypertension in SHRs.
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PMID:Increased apomorphine-induced hypothermia precedes development of hypertension in SHRs. 178 66

In naive mice, the selective D1 agonist, SK&F 38393 (7.5-30 mg/kg s.c.), induced a significant rise of body temperature (0.5-1 degree C) which was antagonized by SCH 23390 (100 micrograms/kg s.c.) and by flupenthixol (0.4 mg/kg i.p.). In mice treated with reserpine (5 mg/kg s.c.) 18 h before testing, which on its own caused intense hypothermia (10-12 degrees C), SK&F 38393 (1.87-30 mg/kg s.c.) induced a dose-dependent and more marked rise of body temperature (5-7 degrees C). Similarly, SK&F 38393 (30 mg/kg s.c.) partially prevented reserpine-induced hypothermia. The central origin of the SK&F 38393 effects in reserpine-treated mice is indicated by the rise of body temperature induced by the i.c.v. administration of the drug (12.5-50 micrograms per mice). The SK&F 38393-induced rise of body temperature in acutely reserpinized mice was antagonized by SCH 23390 (50-200 micrograms/kg s.c.), clozapine (1.87-30 mg/kg i.p.) or chlorpromazine (2-32 mg/kg i.p.) but not by metoclopramide (25 or 100 mg/kg i.p.) or amisulpride (12.5 or 50 mg/kg). In naive mice, apomorphine (1 mg/kg s.c.) or LY 171555 (0.4 mg/kg s.c.) induced hypothermia which was antagonized by amisulpride (12.5 mg/kg i.p.); a transiently increased body temperature was even measured 30 min after apomorphine injection in amisulpride-treated mice. Apomorphine (1 mg/kg s.c.) induced a rise of body temperature in acutely reserpinized mice which was significantly reduced by SCH 23390 (50 and 200 micrograms/kg s.c.) and significantly increased by amisulpride (12.5 and 50 mg/kg i.p.). These data suggest that pharmacologically different dopamine receptor subtypes mediate different effects on body temperature in mice: D1 dopamine receptors mediate a rise of body temperature which is increased in hypothermic reserpinized animals and dopamine receptors of the D4 subtype mediate the decrease of body temperature in naive mice.
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PMID:The rise of body temperature induced by the stimulation of dopamine D1 receptors is increased in acutely reserpinized mice. 197 57

Apomorphine and N-n-propylnorapomorphine (NPA) were compared for their ability to induce stereotyped cage climbing and hypothermia in mice. Climbing behavior was produced by similar doses of apomorphine and NPA (0.625-2.5 mg/kg s.c.), whereas NPA was 43 times more potent than apomorphine in inducing a hypothermic response. SKF38393 caused a shift to the left in the dose-response curve for NPA-induced climbing, the ED50 changing from 0.98 to 0.014 mg/kg. SKF38393 had no effect on apomorphine-induced climbing behaviour. The climbing response produced by apomorphine was antagonised by both D-1 and D-2 antagonists. Climbing behaviour induced by NPA (2.5 mg/kg) could be antagonised by SCH23390 but not by clebopride, however climbing behaviour induced by a low dose of NPA (0.06 mg/kg) plus SKF38393 could be blocked by both D-1 and D-2 receptor antagonists. The hypothermic responses produced by either apomorphine or NPA could only be reversed by the selective D-2 antagonist, clebopride. These results demonstrate that dopamine agonist-induced stereotyped cage climbing requires both D-1 and D-2 receptor stimulation, whereas the hypothermic response is D-2-mediated. The results also show that it is possible to assess the relative activity of a dopamine agonist at D-1 or D-2 receptors in vivo by comparing the ability of the compound to induce hypothermia and climbing behaviour.
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PMID:The role of multiple dopamine receptors in apomorphine and N-n-propylnorapomorphine-induced climbing and hypothermia. 218 43

The central action of oxaprotiline (OXA) enantiomers, administered in a single dose, was studied in rats and mice. (+)-OXA and (-)-OXA attenuated reserpine- and apomorphine-induced hypothermia [(+)-OXA in a more potent manner] in mice and reduced the immobility time in the behavioural despair test in rats. Both OXA enantiomers inhibited locomotor activity in mice and rats, and enhanced and prolonged amphetamine- and apomorphine-induced stereotypy in rats. (-)-OXA potentiated the amphetamine hyperactivity in rats, but not in mice. Nomifensine hyperactivity in rats was unaffected by either enantiomer, and locomotor hypoactivity induced by low doses of apomorphine was also unchanged, as was L-DOPA-induced locomotor hyperactivity in mice. Apomorphine-induced climbing in mice was attenuated by (+)-OXA. Clonidine locomotor hypoactivity and hypothermia were unchanged, and clonidine-induced aggressiveness was attenuated by (+)-OXA. Neither OXA enantiomer affected the action of oxotremorine. In some tests the effect of OXA was stronger at 3 h than at 1 h after administration. The above results indicate that both OXA enantiomers--in particular (-)-OXA--increase some dopaminergic behavioural effects in rats.
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PMID:Some central pharmacological effects of (+)- and (-)-oxaprotiline. 231 15

Centbutindole is a new neuroleptic drug having a pharmacological profile similar to haloperidol, but it does not cause hypothermia and has a higher separation between doses causing catalepsy and neurolepsy. The interactions of centbutindole with striatal dopamine and cortical 5-HT2 receptors have been studied along with haloperidol following 3 weeks of administration. Rats received haloperidol (1.0 mg/kg, p.o.), centbutindole (0.5 mg/kg, p.o.) or saline daily for 21 days. Following drug withdrawal for 3 days, apomorphine (0.1-1.0 mg/kg, i.p.) or 5-hydroxytryptamine (5-HTP, 50-200 mg/kg, i.p.) was injected. Apomorphine-induced stereotyped behaviour was potentiated in the haloperidol-treated rats, while the 5-HTP-induced behavioural syndrome was increased in centbutindole-treated rats. Receptor binding studies indicated an increase in the maximal binding capacity Bmax of striatal dopamine receptor (29.4%) in haloperidol-treated and of cortical 5-HT2 receptor (17.8%) in centbutindole-treated animals. No change in the apparent dissociation constant Kd was observed. It is concluded that repeated treatment with haloperidol produced striatal dopamine receptor supersensitivity while centbutindole treatment produced cortical serotonergic receptor supersensitivity.
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PMID:Differential alteration in striatal dopaminergic and cortical serotonergic receptors induced by repeated administration of haloperidol or centbutindole in rats. 290 59

The effects of apomorphine on survival time of mice during lethal anoxic hypoxia were studied. Apomorphine induced hypothermia and an increase in survival time. Both these effects were mediated by cerebral dopamine receptors, however with different affinity for the neuroleptics haloperidol and sulpiride. These data suggest that apomorphine's antihypoxic effect is not only mediated by the classical effect of hypothermia but also by slowing of oxydative metabolism.
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PMID:Survival time in hypoxic mice: differentiation between apomorphine-induced hypothermia and antihypoxic properties. 372 96

The effects of dopaminergic and serotonergic drugs on ethanol-induced hypothermia were studied in the rat. Pretreatment with haloperidol attenuated the hypothermia in a dose-dependent manner. Apomorphine produced a dose-dependent effect on the hypothermia. At a dose of 2.0 mg/kg, apomorphine potentiated ethanol-induced hypothermia, whereas at 0.1 mg/kg, it produced a delayed attenuation effect between 30 min and 45 min after its injection. The former effect was blocked by haloperidol, whereas the latter was not affected by haloperidol, but blocked by pretreatment with parachlorophenylalanine. It is concluded that both dopamine and serotonin exert modulatory effects on ethanol-induced hypothermia.
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PMID:Effects of dopaminergic and serotonergic drugs on ethanol-induced hypothermia. 622 79

Apomorphine-induced hypothermia was studied in rats pretreated with a dose of apomorphine (mg/kg, IP), haloperidol (0.25 mg/kg, IP), ethanol (3 g/kg, PO), or apomorphine + ethanol. Pretreatment with apomorphine attenuated the hypothermic response, pretreatment with either haloperidol or ethanol potentiated it, and pretreatment with apomorphine together with ethanol did not alter it. These data show that an acute treatment with a dopaminergic drug can alter the responsiveness of the dopaminergic thermoregulatory system, and also that ethanol has an inhibitory effect on the dopamine mechanism.
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PMID:Apomorphine-induced hypothermia affected by acute treatment with apomorphine, haloperidol, or ethanol. 642 25

The effects of dietary lithium on several indices of dopamine receptor supersensitivity were examined in rats during withdrawal from chronic administration of haloperidol. Chronic haloperidol enhanced the locomotor stimulant action of d-amphetamine, and this effect was attenuated by lithium. In contrast, lithium did not affect the amphetamine response in animals that had not previously received haloperidol. Apomorphine-induced hypothermia was not influenced by the chronic haloperidol treatment. On the other hand, during withdrawal from chronic haloperidol, spontaneous locomotor activity (20 h) and apomorphine-induced stereotypy were increased, but neither of these effects was attenuated by lithium. In addition, lithium did not affect the chronic haloperidol-induced increase in 3H-spiperone binding sites in the striatum. Lithium alone had no effect on any of these measures except for causing a slight prolongation of the hypothermic effect of apomorphine. The results indicate that not all DA-receptor-mediated responses are enhanced by chronic administration of neuroleptics (e.g., apomorphine-induced hypothermia). In addition, while lithium reduces the effects of chronic haloperidol administration on d-amphetamine-induced locomotor activity, this is not because lithium prevents haloperidol-induced supersensitivity of postsynaptic DA receptors because more direct measures of this phenomenon (e.g., 3H-spiperone binding, apomorphine-induced stereotypy) are not affected by lithium.
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PMID:The effects of chronic lithium on behavioral and biochemical indices of dopamine receptor supersensitivity in the rat. 642 31

The effects of various psychoactive drugs were studied in rats exposed for 45 min in a circularly polarized, pulsed microwave field (2450 MHz; SAR 0.6 W/kg; 2-microseconds pulses, 500 pps). Apomorphine-induced hypothermia and stereotypy were enhanced by irradiation. Amphetamine-induced hyperthermia was attenuated while stereotypy was unaffected. Morphine-induced catalepsy and lethality were enhanced by irradiation at certain dosages of the drug. Since these drugs have different modes of action on central neural mechanisms and the effects of microwaves depend on the particular drug studied, these results show the complex nature of the effect of microwave irradiation on brain functions.
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PMID:Psychoactive-drug response is affected by acute low-level microwave irradiation. 662 72


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