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 antinociceptive and hypothermic effects of intracisternal administration of 11 endogenous neuropeptides and morphine were evaluated in mice. Of the substances tested, only neurotensin (NT) and beta-endorphin exerted significant antinociceptive and hypothermic effects; NT was the most potent in inducing hypothermia whereas beta-endorphin was the most potent antinociceptive agent via this route of administration. Both NT, and beta-endorphin were, on a molar basis, considerably more potent antinociceptive agents than morphine, [Met]enkephalin, or [Leu]enkephalin. NT-induced analgesia and hypothermia both were significantly dose-dependent. Substance P was found to produce significant hyperalgesia and hyperthermia. Bombesin produced a significant hypothermic effect, whereas somatostatin and luteinizing hormone-releasing hormone (luliberin) produced hyperthermia. None of the other peptides studies [bradykinin, thyrotropin-releasing factor (thyroliberin), melanocyte-stimulating hormone release-inhibiting factor (melanostatin), somatostatin, [Met]enkephalin, and [Leu]enkephalin] produced any significant alterations in colonic temperature or response to a noxious stimulus with the doses tested. These data demonstrate that NT and beta-endorphin, two endogenous brain peptides, are potent in inducing hypothermia and in producing an antinociceptive state.
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PMID:Alterations in nociception and body temperature after intracisternal administration of neurotensin, beta-endorphin, other endogenous peptides, and morphine. 29 52

The central administration of neurotensin, an endogenous hypothalamic tridecapeptide, produces a marked dose-related decrease in body temperature of mice and rats at an ambient temperature of 25 degrees C. This effect is even more pronounced when mice are placed at 4 degrees C to increase the rate of decline of body temperature. Other sequelae observed after central administration of neurotensin are decreases in locomotor activity in rats and a marked dose-related enhancement in pentobarbital-induced mortality, sedation and hypothermia. This latter effect was shown to be due to a significant reduction in the metabolic degradation of the barbiturate. None of the above-mentioned effects are observed after peripheral neurotensin administration, suggesting that this peptide does not readily cross the blood-brain barrier. Neurotensin appears to be one of a growing list of neuropeptides that can affect CNS function.
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PMID:Neurotensin: central nervous system effects of a hypothalamic peptide. 40 65

A series of neurotensin (NT) analogues in which each amino acid has been successively replaced by its D isomer, as well as analogues involving modifications at positions 3 and 11 and a cyclic compound [Cys2,13]-NT, has been synthesized by solid-phase methodology. After purification by conventional techniques the compounds were characterized by thin-layer chromatography, amino acid analysis, and optical rotation. Further characterization of the analogues by high-pressure liquid chromatography demonstrates the high resolving power of this new method. Each analogue was studied for its ability to induce hypothermia in cold-exposed rate (4 degrees C) in vivo and to bind to mast cells in vitro. Although close correlation in potencies was not found for all the analogues tested in both assay systems, they substantiate the basic observation that substitutions in positions 1-9 produced active peptides whereas modification of residues 10-13 considerably decreased biological response in vitro and in vivo. One exception is the higher potency of [D-Phe11]-NT and [D-Tyr11]-NT in vivo. The differences between the efficacies of these analogues in vivo and in vitro are discussed.
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PMID:Neurotensin analogues. Structure--activity relationships. 91 1

We recently reported that H-Lys psi (CH2NH)Lys-Pro-Tyr-Ile-Leu-OH (JMV 449), a pseudopeptide analogue of neurotensin-(8-13) with a reduced CH2NH bond in position 8-9, was about 3 times more potent than neurotensin in binding to mouse brain membranes and in contracting the guinea-pig ileum, and was markedly more resistant to degradation than neurotensin when exposed to rat brain membranes. In the present study, we compared the time courses and dose-response relationships for the ability of i.c.v. injected neurotensin and JMV 449 to elicit hypothermia and analgesia (tail-flick test) in the mouse. The results show that the pseudopeptide analogue behaved as a highly potent and long-lasting neurotensin agonist in these two in vivo bioassays. The analogue should prove very useful for studying the effects of chronic neurotensin receptor stimulation in vitro and in vivo.
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PMID:JMV 449: a pseudopeptide analogue of neurotensin-(8-13) with highly potent and long-lasting hypothermic and analgesic effects in the mouse. 142 58

The influence of pertussis toxin (PTX) on thermic responses elicited by morphine and neurotensin was evaluated in unrestrained rats kept at 22 degrees C. High doses of morphine (9-36 micrograms/rat i.c.v.) lowered body temperature and low doses (1.25, 2.5 micrograms/rat i.c.v.) produced hyperthermia. The hyperthermic effect was more resistant than the hypothermic effect to naloxone antagonism. Neurotensin (50, 100 micrograms/rat i.c.v.) induced marked hypothermia followed by hyperthermia. I.c.v. injection of PTX (1 microgram), six days before morphine (18 micrograms/rat i.c.v.), replaced the opiate hypothermia by consistent hyperthermia and reduced by 60% the hyperthermia elicited by morphine (2.5 micrograms/rat i.c.v.). The toxin also affected the thermic responses induced by neurotensin (50 micrograms/rat i.c.v.) administered six days after PTX (1 microgram/rat i.c.v.). The initial hypothermia was enhanced by 173% and the late hyperthermia was fully antagonized. It thus appears that PTX-sensitive G-proteins play different roles in the molecular events underlying the thermoregulatory responses to morphine and neurotensin.
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PMID:Influence of pertussis toxin on thermic responses to morphine and neurotensin in rats. 145 36

The role of neurotensin in radiation-induced hypothermia was examined. Intracerebroventricular (ICV) administration of neurotensin produced dose-dependent hypothermia. Histamine appears to mediate neurotensin-induced hypothermia because the mast cell stabilizer disodium cromoglycate and antihistamines blocked the hypothermic effects of neurotensin. An ICV pretreatment with neurotensin antibody attenuated neurotensin-induced hypothermia, but did not attenuate radiation-induced hypothermia, suggesting that radiation-induced hypothermia was not mediated by neurotensin.
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PMID:Role of neurotensin in radiation-induced hypothermia in rats. 202 92

Both ethanol and neurotensin produce sedation and hypothermia. When administered in combination the behavioral effects of these two substances are potentiated. In order to better understand the biochemical nature of this interaction, the direct effects of ethanol on neurotensin receptors and an associated signal transduction process were determined in NIE-115 neuroblastoma cells. Ethanol in physiologically relevant concentrations (50mM) significantly reduced neurotensin stimulated [3H]inositol phosphate production while having no effect on the specific binding of [3H]neurotensin. In addition, ethanol up to 200 mM had no effect on GTPYS mediated [3H]inositol phosphate production. The results indicate that acute exposure to ethanol partially disrupts the normal coupling of activated neurotensin receptors to the guanine nucleotide binding protein associated with phospholipase C.
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PMID:The effects of acute exposure to ethanol on neurotensin and guanine nucleotide-stimulation of phospholipase C activity in intact NIE-115 neuroblastoma cells. 217 77

Neurotensin (NT), injected centrally, markedly enhances sensitivity to ethanol-induced anesthesia in SS but not in LS mice (4). Since LS and SS mice were bred selectively for differential sensitivity to ethanol, these findings suggest that neurotensinergic neuronal processes mediate some of ethanol's actions and that LS and SS mice might differ genetically in neurotensinergic systems. Indeed, in biochemical studies it was shown that LS and SS mice differ in NT-like immunoreactivity in specific brain regions, i.e., hypothalamus, and in NT receptor densities (Bmax) in frontal cortex and striatum. In other experiments LS and SS mice differed in behavioral responses to centrally administered NT. Intracerebroventricular (ICV) administration of NT produced dose-dependent changes in motor activity, hypothermia, and analgesia in both LS and SS mice. SS mice appeared to be more sensitive than LS to NT-induced analgesia but not hypothermia. Neurotensin increased or decreased locomotor activity in both SS and LS mice following intraventral tegmental area or ICV administration, respectively. The results indicate that LS and SS mice, which were selectively bred for differences in ethanol sensitivity, differ genetically in NT concentrations, receptor densities in specific brain regions, and in some receptor-mediated behavioral responses to NT.
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PMID:Comparison of neurotensin levels, receptors and actions in LS/Ibg and SS/Ibg mice. 254 8

Ethanol, i.p., produced a greater dose-dependent hypothermia in long sleep (LS) than in short sleep (SS) mice with significant decreases in rectal temperature observed only at doses greater than 3 g/kg, i.p. Likewise, at doses of 1 to 2 g/kg ethanol, i.p., these lines of mice differ markedly in locomotor activity. Neurotensin (NT), intracerebroventricular (I.C.V.), induced a similar hypothermia in both SS and LS mice at doses greater than 0.02 microgram. Doses of ethanol (1.0 g/kg) or NT (0.005 microgram, i.c.v.) that failed to cause hypothermia when administered separately produced a pronounced hypothermia when administered together. Potentiation of NT and ethanol-induced hypothermia was greater in SS than in LS mice. Sensitivity to NT-induced hypothermia was greater following i.c.v. administration than by infusion into the nucleus accumbens (NA) or the ventral tegmental area (VTA). Neurotensin, i.c.v. or intra-NA, markedly inhibited ethanol-induced increase in locomotor activity in both SS and LS mice; however, NT, intra-VTA, did not alter the effects of ethanol on locomotor activity. The results suggest that NT and ethanol act in a synergistic manner on specific neuronal processes mediating thermoregulation and spontaneous motor activity.
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PMID:Neurotensin and ethanol interactions on hypothermia and locomotor activity in LS and SS mice. 264 82

The effects of microinjections of thyrotropin-releasing hormone (TRH), neurotensin and ICI 174864 into the nucleus accumbens, nucleus caudatus, septum and mesencephalic periaqueductal grey were studied on ethanol-induced narcosis in the rat. Levels of narcosis were assessed by alterations in ethanol-induced hypothermia and sleep time. Ethanol produces a 2 degree C fall in body temperature over the first hour which then recovered over the next 2 h. Sedation was produced to the extent that the righting reflex was lost for between 80 and 90 min. In the nucleus caudatus all 3 peptides were ineffective at altering narcosis. In the periaqueductal grey, septum and accumbens, TRH (5 micrograms) and ICI 174864 (1 microgram) microinjections significantly reduced the sleep time by between 50 and 70%. ICI 174864 was approximately 10 times more potent that TRH at reducing the sleep time. In addition, both these peptides significantly accelerated the recovery from the ethanol-induced hypothermia in the periaqueductal grey, septum and accumbens. ICI 174864 prevented the ethanol-induced fall in body temperature. Neurotensin (5 micrograms) significantly increased the sleep time by up to 50% and potentiated the ethanol-induced hypothermia. These results suggest that the administration of TRH or the blockade of delta-opioid receptors, resulting in an inhibition of endogenous enkephalin transmission, may significantly inhibit ethanol narcosis in the rat. Opposing this, the application of neurotensin appears to potentiate ethanol narcosis. These results also indicate that endogenous enkephalin release plays an important role in ethanol narcosis.
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PMID:The effect of neurotensin, TRH and the delta-opioid receptor antagonist ICI 174864 on alcohol-induced narcosis in rats. 282 97

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