Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

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

Neurotensin and bombesin have been tested for their effects on body temperature and locomotor activity in an open field. Both peptides induce hypothermia and suppress ambulation and rearing. The time curves of the hypothermic effects of both peptides appear to be rather similar, although bombesin is a more potent hypothermic agent than neurotensin. The time curves of the effects on locomotor activity appear to be quite different. The suppressive effect of neurotensin on locomotor activity is relatively short lasting and reaches its maximum at approximately 32 minutes. The effect of bombesin follows a different time curve and shows two peaks, suggesting that two different mechanisms are involved in the suppressive action of bombesin on locomotor activity. Calculation of the correlation coefficients between the effects of neurotensin and of bombesin on body temperature and on locomotor activity (ambulation) suggest that a causal relationship between these two effects is not likely, in particular for neurotensin.
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PMID:Neurotensin and bombesin, a relationship between their effects on body temperature and locomotor activity? 648 31

Relationships between structure and duration of neurotensin's central action were examined. Included in the study were analogs containing amino acid substitutions at purported enzymatic cleavage sites of neurotensin: the arg8-arg9, the Pro10-Tyr11, and the Tyr11-Ile12 peptide bonds. Peptides were administered in rats via the cerebro-ventricular route and the ensuing hypothermia was monitored repeatedly until the effect dissipated. Results indicate that substitutions of the Tyr11 residue of the neurotensin molecule with either Dopa, Trp, D-Trp, or D-Tyr yielded analogs displaying markedly increased durations of action. Substitutions at other sites did not alter the time course of neurotensin's hypothermic effect. The longest acting analog was [Dopa11]-NT. At a dose of 7.5 micrograms the hypothermia induced by this analog persisted for 660 min while the effect of a same dose of neurotensin endured for only 90 min after injection. No clear correlation was found between the relative potency of analogs and their duration of action. Taken together, the results confirm the predominant role of Tyr11 in the inactivation of neurotensin by the brain, but do not support the hypothesis that relative potencies of structural analogs are solely dependent on differing susceptibilities to enzymatic degradation.
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PMID:Relationships between structure and duration of neurotensin's central action: emergence of long acting analogs. 651 48

Neurotensin (NT) administered intracerebroventricularly (i.c.v.) to rats, blocks intestinal transit (tested by charcoal meal) in linear relation to the log of the doses within the range of 0.6-2.5 nmoles/rat. NT in this test is about 40 times more active than morphine (M) and 6 times less active than dermorphin (DM) on a molar basis. Within this dose range NT does not induce analgesia (tail-flick test) or hypothermia (tested at 22 degrees C). The intestinal effect can also be elicited by injecting the peptide into the periaqueductal gray matter (PAG). NT injected intraperitoneally (i.p.) is inactive up to doses 4 times the maximal active i.c.v. dose. Naloxone (Nx) and dynorphin 1-13 could not antagonize the intestinal effect of i.c.v. NT. The relationship between this central intestinal effect and many other central effects of NT is discussed.
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PMID:Effect on intestinal transit of neurotensin administered intracerebroventricularly to rats. 666 30

Cannulae for intracerebroventricular (ICV) infusion were implanted stereotaxically in monkeys (Macaca fascicularis) maintained post-operatively in a primate restraint chair. During each experiment, a series of physiological measures was recorded simultaneously on a polygraph which included colonic temperature, vasomotor tone, heart rate, respiratory rate, and basal metabolism as reflected by O2 uptake. The ICV infusion in a volume of 0.5 ml of neurotensin (NT) in doses ranging from 3-150 micrograms produced neither a statistically significant nor consistent change in body temperature or vasomotor response. Although the highest dose of 450 micrograms NT infused ICV caused an immediate bradycardia and a concomitant decline in metabolic and respiratory rates, an average decline in core temperature of 0.6 degrees C and the accompanying cutaneous vasodilation often had a latency as long as 1.0 hr. In contrast to the typical hypothermia in this species following an ICV infusion of catecholamines, implicated in the central pathways underlying thermoregulation, NT failed to elicit a coordinated set of physiological responses for heat dissipation in the monkey. Therefore, it is unlikely that this tridecapeptide plays a role in the central mechanisms mediating the control of body temperature of this primate species.
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PMID:Is neurotensin in the brain involved in thermoregulation of the monkey? 670 9

Intracerebroventricular (i.c.v.) injection of neurotensin (NT) induced catalepsy in mice at doses greater than or equal to 0.02 microgram. The cataleptic effect progressively increased, reaching a maximum at approx. 2 hr after injection. In contrast, the hypothermic effect of neurotensin reached a maximum 1 hr after the injection, and was declining at 2 hr. Not all mice that showed hypothermia also showed catalepsy, and some mice showed catalepsy without hypothermia. Catalepsy induced by intracerebroventricular injection of neurotensin was not significantly correlated with the hypothermia. Furthermore, oxotremorine induced hypothermia without catalepsy. Thus, several lines of evidence indicate that the catalepsy induced by neurotensin is not the consequence of the neurotensin induced hypothermia. Thyrotropin releasing hormone (TRH), injected either intracerebroventricularly with neurotensin, or intraperitoneally before neurotensin abolished the hypothermia but only diminished the catalepsy scores. The cataleptic effect of neurotensin is consistent with its other neuroleptic-like activities.
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PMID:Neurotensin induces catalepsy in mice. 681 Jan 95

Neurotensin or morphine can each cause hypothermia and an antinocisponsive effect when administered into the liquor spaces of the rat brain. These actions of neurotensin are not blocked by naloxone whereas those of morphine are. The present experiments were carried out to examine the action of each substance following its injection into the subarachnoid space of the spinal cord. Given intrathecally, neurotensin evoked a dose-related fall in the rectal temperature of the rat without exerting an antinocisponsive action. Morphine on the other hand evoked hyperthermia and a dose-related antinocisponsive action. Since neurotensin exerted an effect on rectal temperature opposite to that of morphine and failed to exert an antinocisponsive effect, the data provide further evidence to suggest that neurotensin and morphine exert their effect via different mechanisms. Furthermore, the results also suggest that neurotensin exerts its antinocisponsive action via a supraspinal site.
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PMID:Differences in the pharmacological actions of intrathecally administered neurotensin and morphine. 689 46

Neurotensin (NT), an endogenous tridecapeptide, when given intracisternally (i.c.) elicits significant hypothermia in a variety of mammals. The present study was designed to test the ability of centrally administered NT to induce a hypothermic effect in rats at different ages. Intracisternally administered NT (10 and 30 microgram) produced a marked dose-dependent hypothermia in rats aged 5, 10, 20, 30 and 60 days. This study confirms and extends the previously reported hypothermic effect of centrally administered NT in the rat and documents the responsiveness of young animals to the peptide.
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PMID:Ontogeny of the hypothermic response to centrally administered neurotensin in rats. 689 9

Neurotensin (NT) administered intracisternally (i.c.) to adult mice produced a marked hypothermia while prostaglandin E2, administered by the same route, produced hyperthermia. When administered concurrently the effects of the two substances were neutralized. The prostaglandin synthesis inhibitors, indomethacin and acetylsalicylic acid, were injected subcutaneously 30 min prior to i.c. administered NT and/or thyrotropin-releasing hormone (TRH). Both inhibitors failed to potentiate the hypothermia induced by NT or alter its antagonism by TRH in mice kept at 26 degrees C. When mice were kept at 6 degrees C, pretreatment with indomethacin, but not acetylsalicylic acid, potentiated NT-induced hypothermia and prevented its antagonism by TRH. Because indomethacin inhibits synthesis of prostaglandins within the central nervous system (CNS) as well as in peripheral organs while acetylsalicylic acid acts only in the periphery, it appears that NT-induced hypothermia in a cold environment is enhanced by a reduction of prostaglandins in the CNS.
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PMID:Interaction of neurotensin with prostaglandin E2 and prostaglandin synthesis inhibitors: effects on colonic temperature in mice. 696 Mar 93


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