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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of
thyrotropin-releasing hormone
(
TRH
) on abrupt and naloxone-precipitated abstinence symptoms were determined in male Swiss-Webster mice rendered dependent on morphine by SC implantation of morphine pellets. Intracerebral (IC) administration of
TRH
inhibited the hypothermic response observed during abrupt (removal of morphine pellets) and naloxone (0.1 mg/kg SC) precipitated withdrawal. IC injection of
TRH
also inhibited the naloxone-precipitated withdrawal jumping response as evidenced by increases in the dose of naloxone required to elicit the response. The effects of
TRH
on the development of morphine dependence were also investigated. A single SC injection of
TRH
(4-16 mg/kg) did not modify development of morphine dependence. Administration of
TRH
prior to and during morphine pellet implantation inhibited the development of dependence as evidenced by inhibition in the development of abrupt and naloxone-induced withdrawal
hypothermia
. Even though the hypothermic response was blocked, multiple SC administration of
TRH
failed to modify naloxone-induced stereotyped jumping response. These studies indicate that
TRH
administration can modify central nervous system responses to chronic morphine treatment and that separate sites may initiate withdrawal jumping behavior and affect temperature regulation during abrupt and antagonist-induced abstinence.
...
PMID:The effects of thyrotropin-releasing hormone on the central nervous system responses to chronic morphine administration. 677 64
To more clearly characterize the neuroanatomical substrates mediating
thyrotropin-releasing hormone
(
TRH
) induced shaking and antagonsim of pentobarbital
hypothermia
,
TRH
was microinjected into 140 individual sites of the rat forebrain and brainstem. Previously determined threshold dosages of 10 ng
TRH
for the temperature response and 50 ng
TRH
for the shaking response were used. A clear distinction in regional sensitivity between the two
TRH
-induced effects was observed. The shaking response was most consistently observed with microinjection of
TRH
into the floor of the 4th ventricle and the periventricular posterior diencephalon, including the posterior hypothalamus and rostral periventricular grey. In contrast, the temperature response was most effectively induced by
TRH
administered in the interpeduncular nucleus and the rostral preoptic region located medial to, and including the diagonal band of Broca. The sensitivity of some brain areas to nanogram doses of
TRH
supports the possiblity that
TRH
may have a physiological function in the initiation of shaking behavior and/or thermogenesis. If such a function does exist, the brain regions identified in this study as most sensitive to exogenous
TRH
are likely neuroanatomical substrates for endogenous
TRH
.
...
PMID:Neuroanatomical dissociation of thyrotropin-releasing hormone induced shaking behavior and thermogenic mechanisms. 678 7
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.
...
PMID:Interaction of neurotensin with prostaglandin E2 and prostaglandin synthesis inhibitors: effects on colonic temperature in mice. 696 Mar 93
Hypothalamic loci of Sprague-Dawley rats were individually injected with cyclo (His-Pro) to determine the sites where that metabolite of
thyrotropin-releasing hormone
acts to produce
hypothermia
. There was almost always a positive hypothermic response in the preoptic-anterior hypothalamic area (POA/AHA); injection into the posterior or middle hypothalamic areas or into the hippocampus caused no significant decrease in core temperature. The fact that only injection into the POA/AHA evoked
hypothermia
suggests that this area is a major hypothalamic site of action of cyclo (His-Pro) in modulating thermoregulation in the rat.
...
PMID:Cyclo (His-Pro): mapping hypothalamic sites for its hypothermic action. 717 86
To investigate the mechanism of the antagonistic effect of Na-((1S,2R)-2-methyl-4-oxocyclopentylcarbonyl)-L-histidyl-L-prolin amide monohydrate (CAS 131404-34-7, JTP-2942) on reserpine-induced
hypothermia
, the role of the autonomic nervous system, adrenal gland, and thyroid gland regarding the effects of JTP-2942 has been studied in mice. Both phenoxybenzamine and propranolol significantly attenuated the hyperthermic effect of JTP-2942 on reserpine-induced
hypothermia
, although neither drug caused complete inhibition. A high dose of hexamethonium also significantly antagonized the hyperthermic effect of JTP-2942. The hyperthermic effect of JTP-2942 was almost abolished by adrenal demedullation. In mice with thiouracil-induced hypothyroidism, both
thyrotropin-releasing hormone
(
TRH
) and JTP-2942 significantly increased the rectal temperature. However, the increase induced by
TRH
was smaller in hypothyroid mice than in control mice, while the temperature increase induced by JTP-2942 was similar in both hypothyroid and control mice. These results suggest that the hyperthermic effect of JTP-2942 is mainly mediated by the adrenal gland and the autonomic nervous system. In addition, the hypothalamic-pituitary-thyroid axis does not regulate the hyperthermic effect of JTP-2942, unlike that of
TRH
.
...
PMID:Mechanism of the hyperthermic effect of the novel thyrotropin-releasing hormone analogue Na-((1S,2R)-2-methyl-4-oxocyclopentylcarbonyl)-L-histidyl-L- prolinamide monohydrate in mice with reserpine-induced hypothermia. 764 76
The role of catecholamine neuronal systems in mediating the analeptic and thermogenic effects of
thyrotropin-releasing hormone
(
TRH
) was examined in long-sleep (LS) and short-sleep (SS) mice.
TRH
[0.1 to 40 micrograms, intracerebroventricularly (icv)] was associated with a reduction in the sleep times of LS mice, but no dose of
TRH
had any effect on sleep times of SS mice. However,
TRH
(20 micrograms, icv) produced a 1.0 degree to 1.5 degrees C attenuation of the ethanol-induced
hypothermia
in both LS and SS mice.
TRH
did not change the rate of ethanol elimination in either line of mice, suggesting that the reduction in LS sleep times and attenuation of LS and SS
hypothermia
were due to decreased CNS ethanol sensitivity rather than an increase in the rate of ethanol metabolism.
TRH
(20 micrograms, icv) given alone produced an activation of central and peripheral catecholamine systems in LS, but not SS mice, as reflected by an increase in the in vivo tyrosine hydroxylase (TH) activity in the brain and adrenal gland.
TRH
, given with ethanol, prevented or attenuated ethanol-induced decreases in the brain and adrenal gland in vivo TH activity in LS mice but not SS mice. Thus, there was an association between the ability of
TRH
to produce an activation of catecholamine neuronal systems (increased rate of catecholamine biosynthesis) and the analeptic action of
TRH
to reduce the CNS depressant effects of ethanol (decreased sleep times).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Influence of thyrotropin-releasing hormone and catecholaminergic interactions on CNS ethanol sensitivity. 809 74
The central nervous system (CNS) effects of a novel
thyrotropin-releasing hormone
(
TRH
) analogue, JTP-2942 (Na-alpha- ((1S,2R)-2-methyl-4-oxocyclopentylcarbonyl)-L-histidyl-L-pro linamide monohydrate, CAS 131404-34-7) were investigated and compared with those of
TRH
. When administrated subcutaneously, JTP-2942 was about 80 times more potent than
TRH
in the antagonization of reserpine-induced
hypothermia
, and when administrated intravenously it was about 16 times more potent than
TRH
in the potentiation of flexor reflexes. Furthermore, oral administration of JTP-2942 was able to antagonize a chlorpromazine-induced reduction in locomotor activity, while
TRH
was far less effective. In tests on the recovery from pentobarbital-induced sleep and disturbance of consciousness induced by concussive head trauma, JTP-2942 was about 30 and 3 times more potent than
TRH
, respectively. Thus, JTP-2942 had a far stronger and more persistent action compared with
TRH
in regard to these effects. However, JTP-2942 had a 3-fold lower effect on thyroid stimulating hormone (TSH) release than
TRH
. These results suggest that the stimulatory effects of JTP-2942 are selective for the CNS and that this
TRH
analogue may be applicable to clinical use.
...
PMID:Effects of the novel thyrotropin-releasing hormone analogue Na -((1S,2R)-2-methyl-4-oxocyclopentylcarbonyl)-L-histidyl-L-prol ina mide monohydrate on the central nervous system in mice and rats. 821 33
Central administration of
thyrotropin-releasing hormone
(
TRH
) produces a short-lived antinociceptive response in rats, and also modulates opioid and non-opioid forms of antinociception. Given the presence of
TRH
cells, fibers and receptors in the periaqueductal gray (PAG), the present study examined the effects of
TRH
administered into the PAG upon antinociception following either continuous cold-water swims (CCWS, 2 degrees C for 3.5 min) or morphine (0.1-2.5 micrograms) administered into the PAG on the tail-flick and jump tests, and measured changes in core body temperatures as well. Histological examination revealed two groups in which anterior PAG placements were found rostral to the dorsal raphe nucleus, and posterior PAG placements which were at the level of this nucleus.
TRH
produced brief (5-15 min) but significant increases in latencies and thresholds without altering body temperature in both anterior and posterior PAG placements. Whereas
TRH
in anterior PAG placements dose dependently (0.1-10 micrograms) decreased CCWS antinociception on both tests,
TRH
in posterior PAG placements significantly increased CCWS antinociception on the jump test.
TRH
in both placements reduced the magnitude of CCWS
hypothermia
.
TRH
significantly potentiated the magnitude and duration of both morphine antinociception and hyperthermia in both anterior and posterior PAG placements, and shifted mesencephalic morphine's antinociceptive dose-response curve significantly to the left. These data are discussed in terms of the role of the PAG in opioid and non-opioid forms of stress-induced antinociception as well as morphine antinociception, and in terms of the roles of
TRH
and anterior PAG placements as potential candidates for a collateral inhibition model of antinociceptive responses.
...
PMID:Site-specific modulation of morphine and swim-induced antinociception following thyrotropin-releasing hormone in the rat periaqueductal gray. 827 12
We investigated the effects of i.c.v. administration of pituitary adenylate cyclase-activating polypeptide (PACAP) on the spontaneous motor activity and reserpine-induced
hypothermia
in murines. The administration of PACAP (1 or 2 nmol) caused a dose-dependent increase in both spontaneous motor activity and rearing behavior in the rat. The peptide (0.1 or 0.2 nmol) counteracted reserpine-induced
hypothermia
in a dose-dependent manner in mice. On the other hand, i.c.v. injection of vasoactive intestinal polypeptide, which is structurally similar to PACAP, at a dose similar to that of PACAP (2 nmol in rats, 0.2 nmol n mice) did not show a significant effect on either behavior or body temperature. Therefore, the stimulating effect of PACAP observed here may be mediated by PACAP-specific (type I) receptors. PACAP was more potent and longer-lasting than a known potent stimulating peptide,
thyrotropin-releasing hormone
, in both stimulating motor activity and counteracting reserpine-induced
hypothermia
. Results of the present study, in combination with those of previous studies identifying endogenous PACAP in the brain, suggest that PACAP may play a important role in the CNS as a stimulant in regulating motor activity and body temperature.
...
PMID:Effects of intracerebroventricular administration of pituitary adenylate cyclase-activating polypeptide (PACAP) on the motor activity and reserpine-induced hypothermia in murines. 862 13
LS and SS mice develop their differential sensitivity to the motor-incoordinating and hypothermic effects of ethanol at 10-16 days after birth, when thyroid hormones (T4) show a transient peak. This rise in the thyroid hormones is an important element in the normal development of monoaminergic systems and thyroid hormones reach a significantly higher level in the less ethanol-sensitive SS mice than in the more ethanol-sensitive LS mice. Previous investigation have suggested the differential ethanol response of brain monoaminergic neuronal systems in adult LS and SS mice may be related to this development difference in thyroid status. To test the hypothesis that neonatal thyroid status can influence adult CNS ethanol sensitivity. LS and SS mice were treated neonatally with the
thyrotropin-releasing hormone
(
TRH
) and propylthiouracil (PTU) to enhance or diminish, respectively, thyroid status at this critical developmental period. The subsequent effect on adult CNS ethanol sensitivity was then determined. Contrary to expectations, both PTU and
TRH
administration attenuated the transient rise in plasma T4 levels at postnatal days 10-16 in LS mice and in both instances this was associated with decreased CNS ethanol sensitivity (sleep time and
hypothermia
) in adults. In SS mice, PTU treatment attenuated the postnatal rise in T4 levels as expected, whereas
TRH
treatment had no significant effect. However, neither neonatal treatment altered CNS ethanol sensitivity in adult SS mice. The decrease in ethanol-induced sleep times and
hypothermia
of neonatally treated LS mice was associated with an attenuation of ethanol-induced decreases in in vivo tyrosine and tryptophan hydroxylase activity that was not seen in the SS mice. These findings are consistent with the notion that the response of monoaminergic neuronal systems to ethanol is an important determinant of behavioral intoxication. However, the observation that neonatal administration of both
TRH
and PTU blunted the postnatal rise in thyroid levels in LS mice, yet both treatments resulted in a decrease in adult ethanol sensitivity in LS mice, indicates that the relationship between postnatal thyroid development and CNS ethanol sensitivity is more complex than originally hypothesized.
...
PMID:Effect of neonatal thyroid hormone alterations in CNS ethanol sensitivity in adult LS and SS mice. 894 50
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