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)

Intracisternal (IC) administration of neurotensin (NT) in a dose of 10 micrograms produced a significant hypothermia and antinociception in the hot-plate test in mice. Both of these effects of IC NT were completely antagonized by concomitant administration of equimolar doses of thyrotropin-releasing hormone (TRH) and several TRH congeners including 3-methyl-His-TRH (pGlu-3-methyl-His-Pro-NH2), MK-771 (pyro-2-aminoadipyl-histidyl-thiazolidine-4-carboxamide), beta-ala-TRH (pGlu-His-Pro-beta-ala-NH2), and RX-77368 (pGlu-His-dimethyl-Pro-NH2). The antagonism by TRH and TRH analogs on NT-induced hypothermia and antinociception was dose-dependent. Of particular interest was the finding that RX-77368 not only blocked the effects of NT but also produced hyperalgesia. It appears that TRH analogs that are more resistant to biologic degradation are, like TRH, capable of blocking NT-induced behaviors.
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PMID:Neurotensin-induced antinociception and hypothermia in mice: antagonism by TRH and structural analogs of TRH. 642 94

Neurotensin (NT), an endogenous tridecapeptide, produces significant hypothermia after intracisternal (i.c.) or intracerebroventricular (i.c.v.) administration in microgram quantities in a variety of laboratory animals. The present study sought to clarify the mechanism of the hypothermic action by utilizing pharmacological treatments which alter the function of brain neurotransmitter systems. Pretreatment of rats with anti-muscarinic (atropine), anti-noradrenergic (propranolol, a beta-blocker; phenoxybenzamine, an alpha-blocker) or anti-opiate (naloxone) agents did not significantly alter NT-induced hypothermia. Similarly depletion of brain serotonin (5-HT) with parachlorophenylalanine did not affect NT-induced hypothermia. However, depletion of brain catecholamine content with 6-hydroxydopamine resulted in a significant potentiation of NT-induced hypothermia as did pretreatment with haloperidol, a dopamine (DA) receptor antagonist. Furthermore, in rats with selective depletions of brain DA, but not norepinephrine (NE), NT-induced hypothermia was significantly augmented. Thus an interaction between brain DA systems and NT appears likely. These data indicate that NT-induced hypothermia is not dependent on intact functional activity of NE, 5-HT, muscarinic ACh or endogenous opiate systems but suggests interactions between brain DA circuits and NT. In other experiments, NT-induced hypothermia was found to be antagonized significantly by i.c. injection of thyrotropin-releasing hormone (TRH), but not by pretreatment with L-triiodothyronine. Another endogenous tripeptide (Pro--Leu--Gly--NH2, MIF-I) had no effect. Thyroidectomy (THX) significantly potentiated NT-induced hypothermia; NT administered i.c. significantly reduced the high serum TSH levels of THX rats. Thus, NT and TRH, two endogenous peptides, appear to be antagonists in certain systems.
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PMID:Neurotensin-induced hypothermia: evidence for an interaction with dopaminergic systems and the hypothalamic--pituitary--thyroid axis. 644 51

To examine the role of neurotensin in opioid-induced thermo-regulation, Tyr-Pro-N-MePhe-D-Pro-NH2 (PL-017, 1.86 nmol i.c.v.), neurotensin (NT, 0.0747-2.98 nmol i.c.v.), ([trans-(+/-)-3, 4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)-cyclohexyl]benzenacetamide+ ++]) (U50,488H; U50, 10-40 mg/kg s.c.), dynorphin A1-17 (DY, 4.65 nmol i.c.v.) and DPDPE (4.65 nmol i.c.v.) were injected alone or in combination with NT into unrestrained, male S-D rats. At 20 +/- 2 degrees C ambient, body temperature (Tb) was measured for 3 hr after injection. PL-017 induced dose-dependent hyperthermia; NT, DY and U50 produced dose-related hypothermia. NT (0.0747 nmol) had no effect on PL-017-induced hyperthermia; higher doses of PL-017/NT antagonized the hyperthermia and increased the peak and duration of the hypothermia. Pretreatment with cyclic D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (CTAP; 0.74 nmol i.c.v.) blocked the enhanced PL-017/NT-induced hypothermia but had no effect on NT-induced hypothermia. DY/NT reduced Tb dose dependently but the effect did not differ significantly from NT alone. U50 (20 or 40 mg/kg)/NT increased the peak and duration of the hypothermic response. Naloxone pretreatment (10 mg/kg s.c.) blocked the effect of U50 alone and in combination with NT, as did the peripheral opioid antagonist, naloxone methiodide (100 mg/kg s.c.). Nor-binaltorphimine (25 nmol i.c.v.) partially blocked the effect of U50 on Tb and had no effect on NT or U50/NT. DPDPE did not alter Tb alone or in combination with NT. The data presented provide information on the role of NT in opioid-induced thermoregulation.
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PMID:Interaction between opioid agonists and neurotensin on thermoregulation in the rat. I. Body temperature. 761 10

Tyr-Pro-N-MePhe-D-Pro-NH2 (1.86 nmol), dynorphin A1-17 (4.65 nmol) and DPDPE (4.64 nmol), which are selective for mu-, kappa- and delta- opioid receptors, respectively, were injected into the right lateral ventricle of unrestrained male Sprague-Dawley rats. At ambient temperatures of 30 degrees C and 5 degrees C, brain surface temperature (Tb), oxygen consumption (VO2) and heat exchange (Q) were measured for 3 hr after injection in a gradient-layer calorimeter. Tyr-Pro-N-MePhe-D-Pro-NH2 at 30 degrees C caused significant hyperthermia (1.39 +/- 0.48 degree C) with onset occurring 15 to 30 min after injection and lasting 60 min after injection. Increased Tb was due to a significant decrease in Q (-1.31 +/- 0.31 cal/g/hr) and to a 60 to 75% increase in VO2 compared with saline controls. Thirty-min pretreatment with cyclic D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 (0.74 nmol), a mu-selective antagonist, blocked the changes. At 30 degrees C, neither dynorphin A1-17 nor DPDPE significantly altered Tb, Q or VO2. At 5 degrees C ambient, Tyr-Pro-N-MePhe-D-Pro-NH2 decreased VO2, resulting in hypothermia (-1.01 degree +/- 0.46 degree C). Q was significantly reduced during the same period. Postinjection thermoregulatory responses to i.c.v. injection of dynorphin A1-17 at 5 degrees C varied widely from animal to animal, and lethality (33%, within 60 min after injection) became a significant factor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of ambient temperature on the ability of mu-, kappa- and delta-selective opioid agonists to modulate thermoregulatory mechanisms in the rat. 811 97

The i.p. administration of 1-methyl-4-(2'-aminophenyl)-1,2,3,6-tetrahydropyridine (2'-NH2-MPTP; 4 x 20 mg/kg) to Swiss Webster mice caused substantial decreases in cortical and hippocampal 5-hydroxytryptamine (5-HT), 5-hydroxyindoleacetic acid and norepinephrine (NE) measured 1 week post-treatment. Compared with the authors' previously reported results in C57BL/6 mice, these effects were significantly greater in hippocampus (80-90% vs. 60%) and of a similar magnitude in frontal cortex (60-75%). A long-term study showed that cortical and hippocampal 5-HT, 5-hydroxyindoleacetic acid and NE were still decreased 40% to 50% 6 months after treatment. Regional brain dopamine was essentially unchanged during the 6-month period. Pretreatment with the 5-HT-selective uptake inhibitors, fluoxetine or paroxetine, or with the NE-selective uptake inhibitor, desipramine, prevented decreases in cortical and hippocampal 5-HT and NE, respectively, 3 weeks after 2'-NH2-MPTP (4 x 20 mg/kg). In addition, pretreatment with the monoamine oxidase type-A inhibitor, clorgyline, also prevented the more modest decreases in 5-HT and NE caused by 4 x 15 mg/kg 2'-NH2-MPTP. Selegiline, a monoamine oxidase-B inhibitor, did not provide similar protection. Lastly, 2'-NH2-MPTP administered 3 weeks earlier, abolished hypothermia caused by the serotonin agonist, m-chlorophenylpiperazine, which provided preliminary evidence for an associated functional change in the central serotonergic system. Together, these data suggest that 2'-NH2-MPTP is a novel agent capable of producing long-lasting depletions in forebrain 5-HT and NE but not dopamine in two different strains of mice by some mechanisms that resemble those of the parent dopamine-depleting neurotoxin, MPTP.
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PMID:2'-NH2-MPTP in Swiss Webster mice: evidence for long-term (6-month) depletions in cortical and hippocampal serotonin and norepinephrine, differential protection by selective uptake inhibitors or clorgyline and functional changes in central serotonin neurotransmission. 826 5

Experiments on rats have shown an important role of hypercapnia in the development of condition of artificial hibernation in combination with influence of hypothermia, hypoxia and hypercapnia. It is proved that the joint action of hypothermia, hypoxia and hypercapnia has induced development of respiratory acidosis and hibernation in animals, while removal of the hypercapnia effect has induced development of acute metabolic acidosis and death of animals. It has been found that animals in the state of artificial hibernation have considerable changes in concentrations of main electrolytes (Na+, K+, Ca+, Mg2+, phosphates, Cl-) and metabolites (NH3, glutamine, urea) in blood as well as in activity of enzymes (glutamaldehydrogenase, glutaminase, arginase) in tissues of the liver and kidneys.
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PMID:[Acid-base equilibrium and nitrogen metabolism in rats in a state of artificial hibernation]. 855 76

Opioids administered by i.c.v. injection produce body temperature (Tb) changes and analgesic responses in rats. The present study was undertaken to investigate the effects on Tb and analgesia of highly selective mu and kappa opioid receptor agonists and antagonists delivered directly into the preoptic anterior hypothalamus (POAH) and periaqueductal gray (PAG) by the intracerebral microdialysis method. Microdialyzed into the POAH, the mu receptor agonist Tyr-Pro-N-MePhe-D-Pro-NH2 induced dose-related hyperthermia that could be prevented or antagonized by the mu receptor antagonist cyclic D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2 or by naloxone, but not by the kappa receptor antagonist nor-binaltorphimine. The kappa receptor agonist dynorphin A(1-17), microdialyzed into the POAH, induced dose-related hypothermia that was prevented or antagonized by nor-binaltorphimine but not cyclic D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2. Neither Tyr-Pro-N-MePhe-D-Pro-NH2 nor dynorphin A(1-17) microdialyzed into the PAG produced significant changes in Tb. However, these agonists microdialyzed into the PAG produced analgesic responses that did not occur after administration into the POAH. These results support the hypothesis that the hyperthermic response to opioids is mediated by the mu receptor and the hypothermic response is mediated by the kappa receptor in rats. The POAH is a primary functional area in Tb, but not in analgesic, responses to opioids, whereas the PAG is a sensitive area for analgesic, but not for Tb, responses to opioids.
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PMID:Body temperature and analgesic effects of selective mu and kappa opioid receptor agonists microdialyzed into rat brain. 910 37

The effects of neuropeptide FF (NPFF) and its analogues on mouse body temperature were examined. In a thermoneutral environment, administration of NPFF (Phe-Leu-Phe-Gln-Pro-Gln-Arg-Phe-NH2), 1DMe ([D.Tyr1, (N.Me)Phe3] NPFF), and 3D ([D.Tyr1, D.Leu2, D.Phe3] NPFF) in the third ventricle produced marked hypothermia. The effect of 1DMe was dose-dependent, and 45 nmol decreased body temperature by 5.6 degrees C. This effect was more pronounced when mice were placed at 4 degrees C. Hypothermia was not reversed by naloxone, an opioid antagonist, and was not modified by morphine. After 5 days of chronic treatment with 1DMe, mice did not became tolerant to the hypothermic effect. These results indicate that central NPFF receptors may control body temperature independently from opioid functions.
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PMID:Hypothermic effects of neuropeptide FF analogues in mice. 930 Jun 19

Several effects of bacterial endotoxins involve an opioid pathway and neuropeptide FF is an endogenous peptide known to modulate opioid activity, mainly in the central nervous system. The aim of this study was to investigate in rats the role of central neuropeptide FF receptors in intestinal motor disturbances and body temperature changes induced by endotoxins and platelet-activating factor (PAF), a major endotoxin mediator. Rats were fitted with intestinal electrodes, an intraperitoneal thermistor probe and an intracerebroventricular (i.c.v.) cannula for long-term use. E. coli endotoxin (100 microg/kg, i.v.) disrupted the cyclic pattern of intestinal migrating myoelectric complexes and induced a biphasic increase in body temperature while PAF (25 microg/kg, i.p.) disrupted the migrating myoelectric complexes and induced hypothermia for about 2 h. The neuropeptide FF analog, (1 DME)Y8Fa (D-Tyr-D-Leu[N-Me]-Phe-Gln-Pro-Gln-Arg-Phe-NH2) administered i.c.v. 40 and 100 microg/kg reduced the duration of migrating myoelectric complex disruption induced by endotoxin and PAF and abolished the PAF-induced hypothermia. Only at the dose of 100 microg/kg did (1 DME)Y8Fa change the biphasic endotoxin-induced hyperthermia into a monophasic increase. Naloxone (1 mg/kg, s.c.) reduced only the duration of migrating myoelectric complex disruption induced by endotoxin. These results indicate that central neuropeptide FF modulates the intestinal motor disturbances and changes in body temperature induced by endotoxin and PAF. Its action against endotoxin may involve an anti-opioid pathway whereas its action against PAF does not.
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PMID:Effects of neuropeptide FF on intestinal motility and temperature changes induced by endotoxin and platelet-activating factor. 934 30

Free fatty acid (FFA) accumulation during cerebral ischemia has been described as an indicator of ischemic damage. Furthermore arachidonic acid (AA) metabolites, liberated from glycerophospholipids, have been confirmed to induce disturbances of membrane functions. Are there differences in AA levels in the hippocampus of normo- and hypothermic gerbils following ischemia-reperfusion? In an attempt to answer this question, we first studied the time course of changes in the amount of AA liberated from glycerophospholipids using gerbils subjected to 5 min of ischemia-reperfusion under normo- and mild hypothermia. FFAs (including AA) were separated from total lipids by Bond Elut (NH2) column chromatography and analyzed by gas-liquid chromatography. Mild intra-ischemic hypothermia (MIH) did not affect the ischemia-induced AA accumulation following of 5 min of forebrain ischemia. The accumulated AA amounts under MIH tend to decrease more slowly to baseline levels from 15 to 30 min of reperfusion than do the levels under normothermia. These results suggested that MIH reduced the rate of metabolism of AA after reperfusion and might suppress the generation of free radical, eicosanoids and other bioactive metabolites.
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PMID:Mild hypothermia reduces the rate of metabolism of arachidonic acid following postischemic reperfusion. 947 1

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