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)

High amounts of neurotensin (NT) are found in the preoptic area of the hypothalamus, an area known to be involved in the regulation of body temperature. It is generally believed that NT is a peptide that produces hypothermia, and several sites in the brain have been proposed to mediate NT-induced hypothermia, including the preoptic area. However, the doses of NT used in these experiments were always very high (microgram order) whereas, according to Goedert, the total brain content of NT in the rat does not exceed 10 ng. We therefore reinvestigated the effects of microinjections of NT in the brain, using high (5 micrograms) and low (50 and 5 ng) doses, into the preoptic area and other brain sites (cerebral ventricles, posterior hypothalamus, and nucleus accumbens), and we also studied, as a comparison, the effects of high and low doses of NT on pain sensitivity in the same sites. The results show that the preoptic area has unique properties in the regulation of body temperature: low doses of NT in the preoptic area produce a hyperthermic response, whereas high doses produce hypothermia. In comparison, NT produces hypothermia in the posterior hypothalamus whatever the dose, and NT has analgesic effects in the preoptic area only at high doses. Besides, NT has no thermic effect, but does have an analgesic effect, in the nucleus accumbens. The selectivity of the actions of high doses of NT, as well as the mechanism of action of NT (possibly an endogenous neuroleptic), are discussed.
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PMID:Low doses of neurotensin in the preoptic area produce hyperthermia. Comparison with other brain sites and with neurotensin-induced analgesia. 870 14

Neurotensin enhances some of the behavioral effects of alcohol including motor impairment, narcosis, hypothermia and also interacts with some of the physiological actions of angiotensin (ANG) II including aldosterone release and increased blood pressure. ANG II injections also produce a dose-dependent antagonist reversible reduction in alcohol drinking. The present study is the first to examine the interaction between neurotensin and angiotensin in the behavioral context of oral alcohol self-administration. Adult male Wistar rats acquired alcohol drinking (6% w/v) using the limited access procedure which makes alcohol available for 40 min every day. When intake stabilized ANG II (400 micrograms/kg per day) or vehicle were administered subcutaneously (SC) just prior to alcohol availability but only the group receiving ANG II showed a marked reduction in alcohol intake. Following this the groups were pretreated sc with either vehicle or ascending doses of neurotensin (5, 10, 20 micrograms/kg) followed by either ANG II or vehicle. Control groups received either two vehicle injections or vehicle and neurotensin injection. Neurotensin alone did not affect alcohol intake at any of the doses tested but did attenuate, in a dose-dependent fashion, the reduction in alcohol intake produced by ANG II. These results demonstrate neurotensin's ability to alter the behavioral effect of ANG II on alcohol intake.
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PMID:Neurotensin attenuates the reduction in alcohol drinking produced by angiotensin II. 872 49

Neurotensin, an endogenous peptide widely distributed throughout the brain, fulfils neurotransmitter criteria. When administered centrally, neurotensin induces various effects and modulates the activity of the mesolimbic dopamine system. It antagonizes the behavioural action of dopamine in a manner similar, but not identical, to antipsychotic drugs. Neurotensin is even considered to be an endogenous neuroleptic. In fact, microinjection of neurotensin elicits different effects depending on both the dose and the cerebral structures into which the injection is made. Our work on the development of orally-active neurotensin antagonists has led to the identification of SR 48692, the first non-peptide antagonist of the neurotensin receptor, and some analogues. This small molecule reveals a surprising neuropharmacological profile. It antagonizes turning behaviour induced in mice and rats (after striatal or ventral tegmental area administration of neurotensin, respectively), hypolocomotion induced by intracerebroventricular injection of neurotensin in rats, and reverses the inhibitory effect of neurotensin (nucleus accumbens injection) on amphetamine-induced hyperlocomotion in rats. However, SR 48692 cannot reverse either dopamine release in the nucleus accumbens evoked by neurotensin injection in ventral tegmental area, or hypothermia and analgesia induced by intracerebroventricular injection of neurotensin. As direct and indirect dopamine agonists have been reported to promote neurotensin release in the cortex, behavioural studies were performed using injection of apomorphine. In these experiments, SR 48692 inhibited only turning and yawning. It did not antagonize other apomorphine-dependent effects such as climbing, hypothermia, hypo- or hyperlocomotion, penile erection and stereotypies. All together, these data raise the question of the existence of neurotensin receptor subtypes and confirm that the nature of neurotensin and dopamine interactions depends on the brain structures considered.
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PMID:Neuropharmacological profile of non-peptide neurotensin antagonists. 880 71

The endogenous tridecapeptide neurotensin exerts a wide range of behavioral, electrophysiological and neurochemical effects when administered directly into the brain. These effects are thought to result from the activation of distinct populations of neurotensin receptors distributed throughout the central nervous system. We have mapped the sites of functional change in the rat brain associated with the central administration of neurotensin using the induction of the nuclear protein products of the immediate early genes c-fos and zif268 as markers of cellular activation. The administration of neurotensin into the lateral ventricle of rats produced an increase in the number of nuclei positive for Fos and Zif268 immunoreactivity in the central and basolateral nuclei of the amygdala and the paraventricular and supraoptic nuclei of the hypothalamus. Neurotensin also produced an increase in serum corticosterone concentration and decrease in body temperature. The intraperitoneal administration of SR48692, a non-peptide neurotensin receptor antagonist, blocked the neurotensin-induced corticosterone secretion and significantly reduced the number of neurotensin-induced Fos-positive and Zif268-positive neurons in the amygdaloid complex. A significant positive correlation was found between the number of Fos-positive nuclei in the central or basolateral nucleus of the amygdala and the serum corticosterone concentration. A significant positive correlation was also found between the number of Zif-positive cells in the paraventricular nucleus of the hypothalamus and change in body temperature following treatment. Our findings indicate that the central role of neurotensin in increasing serum corticosterone involves the induction of Fos in the central and basolateral nuclei of the amygdala. In contrast, the neurotensin-induced hypothermia, which was unaffected by pretreatment with SR48692, involves Zif induction in the paraventricular nucleus of the hypothalamus. These data support further the existence of central neurotensin receptor subtypes which may regulate distinct immediate early genes.
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PMID:Neurotensin induces Fos and Zif268 expression in limbic nuclei of the rat brain. 893 47

SR 142948A, 2-[[5-(2,6-dimethoxyphenyl)-1-(4-(N-(3-dimethylaminopropyl)-N-methylc arbamoyl)-2-isopropylphenyl)-1H-pyrazole3-carbonyl]amino] adamantane-2-carboxylic acid, hydrochloride, a new and extremely potent neurotensin (NT) receptor antagonist, has been characterized in comparison with SR 48692. This selective compound possesses nanomolar affinities for NT receptors, recognizes the two binding sites described for the NT receptor and fully displaces [3H]SR 48692 specific binding. SR 142948A antagonizes the classical in vitro NT effects, i.e., inositol monophosphate formation in HT 29 cells (IC50 = 3.9 nM) or intracellular calcium mobilization in Chinese hamster ovary cells transfected with the human receptor. It dose-dependently (0.04-640 x 10(-3) mg/kg p.o.) inhibits the turning behavior induced by unilateral intrastriatal injection of NT in mice, with the biphasic profile previously seen for SR 48692. At 0.1 mg/kg (i.p.), it completely antagonizes NT-evoked acetylcholine release in the rat striatum. In contrast to SR 48692, SR 142948A (p.o.) blocks both hypothermia and analgesia induced by i.c.v. injection of NT (mice and/or rats) but is unable to modify the dopamine release evoked by NT injection into the ventral tegmental area. In summary, SR 142948A retains the properties of the lead compound SR 48692 (no intrinsic agonist activity, oral bioavailability, long duration of action and good brain access), reveals a wider spectrum of activity than SR 48692 (probably due to the inhibition of NT receptor subtypes) and represents an additional tool for further exploration of the therapeutic potential of this class of compounds.
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PMID:Biochemical and pharmacological activities of SR 142948A, a new potent neurotensin receptor antagonist. 902 94

Peptide nucleic acids (PNAs) are DNA analogs that can hybridize to complementary sequences with high affinity and stability. Here, we report the first evidence of intracellular delivery of PNAs in vivo. Two CNS receptors, an opioid (mu) and a neurotensin (NTR-1), were targeted independently by repeated microinjection of PNAs into the periaqueductal gray. Behavioral responses to neurotensin (antinociception and hypothermia) and morphine (antinociception) were lost in a specific manner. Binding studies confirmed a large reduction in receptor sites. The loss of behavioral responses was long lasting but did fully recover. The implications of specifically and readily turning off gene expression in vivo are profound.
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PMID:Specific gene blockade shows that peptide nucleic acids readily enter neuronal cells in vivo. 946 23

The present study describes in vivo experiments in the rat addressing the role of levocabastine, and two other specific histamine H1 antagonists, diphenhydramine and pyrilamine, at neurotensin (NT)-mediated hypothermia and antinociception (hotplate). Levocabastine given i.p. or microinjected directly into the periaqueductal gray (PAG) did not cause antinociception or hypothermia. This indicates that despite the results with the recently-cloned levocabastine-sensitive NT receptors (NTR) in the rat (NTR-2) and mouse (NTRL), levocabastine by itself does not mediate either hypothermia or antinociception at NT receptors. However, pretreatment with 5 or 50 microg/kg of levocabastine or 5 microg/kg diphenhydramine all caused over a three-fold reduction in NT-mediated antinociception. Higher doses (500 or 5000 microg/kg) of levocabastine did not cause any antagonism of NT-mediated antinociception. All three antihistamines did not affect NT-mediated hypothermia. In addition, histamine H1 pathways are not involved in NT-mediated antinociception, as pretreatment with the much more potent histamine H1 antagonist pyrilamine did not affect antinociception mediated by NT. Therefore, these data may suggest the presence of yet unidentified NTR subtypes responsible for NT-mediated hypothermia and antinociception.
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PMID:In vivo studies with low doses of levocabastine and diphenhydramine, but not pyrilamine, antagonize neurotensin-mediated antinociception. 951 59

Neurotensin (NT), a tridecapeptide, is a neurotransmitter that elicits potent effects including hypothermia and antinociception in mice and rats. To date, there are two types of the neurotensin receptor (NTR) that have been molecularly cloned from the rat. However, several lines of evidence suggest the presence of additional NTR subtypes. We have identified a NT analog of the NT(8-13) fragment, NT27, that selectively causes only the hypothermic response in vivo, when microinjected into the periaqueductal gray (PAG) of rats. A dose of 18 nmol of NT or NT27 caused a body temperature lowering of 1.8 and 1.2 degrees C, respectively. This same dose of NT or NT27 yielded a hotplate maximum physiological effect of 75% and 25%, respectively. Interestingly, despite its high KD (620 nM) at the cloned NTR-1, NT27-I (the iodinated form of NT27) exerted a potent hypothermic effect even at a very low dose (0.6 nmol). Equally intriguing, was that NT24, a sterioisomer of NT27, with a much higher affinity (KD=0. 5 nM) at NTR-1, did not selectively induce hypothermia in mice, but did selectively induce hypothermia in rats.
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PMID:Evidence for additional neurotensin receptor subtypes: neurotensin analogs that distinguish between neurotensin-mediated hypothermia and antinociception. 959 20

Animal studies with neurotensin (NT) directly injected into brain suggest that it has pharmacological properties similar to those of antipsychotic drugs. Here, we present radioligand binding data for some novel hexapeptide analogs of NT(8-13) at the molecularly cloned rat and human neurotensin receptors (NTR-1), along with behavioral and physiological effects of several of these peptides after intraperitoneal (i.p.) administration in rats. One unique analog, NT66L, which had high affinity (0.85 nM) for the molecularly cloned rat neurotensin receptor (NTR-1), caused a drop in body temperature and antinociception at doses as low as 0.1 mg/kg after i.p. injection. At 30 min post-injection, the ED50 for NT66L-induced hypothermia (rectal temperature) and antinociception (hot plate test) was 0.5 and 0.07 mg/kg, respectively. At a dose of 1 mg/kg i.p., NT66L caused 100% of the maximum possible effect for antinociception for up to 2 h after administration. At this dose body temperature lowering was greater than -2.5 degrees C from 20 to 120 min after i.p. administration. These results in animals suggest that NT66L has agonist properties at NTR-1 in vivo after extracranial administration and provide support for its further study in behavioral tests predictive of neuroleptic activity.
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PMID:In vitro binding and CNS effects of novel neurotensin agonists that cross the blood-brain barrier. 1042 21

The antihistaminic drug levocabastine is a ligand for the low affinity neurotensin receptor (NTS2). Its intracerebroventricular administration to mice induced a significant analgesia in the writhing test but not in the hot plate test. In the writhing test, levocabastine decreased neurotensin-induced analgesia to a level not significantly different from the effects of levocabastine alone. In the hot plate test, levocabastine had no analgesic effect but completely reversed the neurotensin-induced analgesia. Mepyramine, another antihistaminic drug, did not share these levocabastine effects. Neither levocabastine nor mepyramine modified the colonic temperature or reversed the neurotensin-induced hypothermia. Thus, levocabastine behaves as a partial agonist at neurotensin NTS2 receptors, which are involved in visceral nociception, but not at yet unidentified neurotensin receptors involved in hypothermia.
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PMID:The partial agonist properties of levocabastine in neurotensin-induced analgesia. 1052 28

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