UMLS:C0020672 - FACTA Search

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

Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Role of brain monoamines in the hyprothermic activity of cannabis resin (CI) in albino rats was studied using agents which influence monoamine synthesis, storage, release, reuptake, metabolism and receptor activity and monoaminergic neuronal activity. Delta-9-tetrahydrocannabinol content of resin was estimated to be 17%. Reserpine was used for comparison. CI was given orally in the dose of 50 mg/kg. Nialamide (NM) and alpha-methyl-metatyrosine (MMT) caused slight hyperthermia. p-Chlorophenylalanine (PCPA), alpha-methol-p-tyrosine (MPT), 5,6-dihydroxytryptamine (DHT, icv) and 6-hydroxydopamine (6-HD, icv) had no effect on body temperature. alpha-Methyl-dopa (m-Dopa), diethyldithiocarbamate (DDC), DDC with l-Dopa, gammabutyrolactone (GBL), phentolamine (PHENT), phenoxybenzamine (PBZ), propranolol (PROP) and imipramine (IMP) produced hypothermia. Hyprothermic activity of CI was potentiated by NM and PCPA, unaffected by DHT and m-Dopa, blocked by MMT, MPT, 6-HD, GBL, PHENT, PROP and chlorpromazine (CPZ), inhibited by DDC, DDC and l-Dopa and PBZ. CI induced hyperthermia in tolerant rats could be reversed to hypothermia by IMP. Reserpine hypothermia was blocked by NM, MPT, 6-HD and CPZ. There was a partial cross tolerance between cannabis and reserpine. Studies indicate that the hypothermic activity of CI similar to that of reserpine is mediated through central catecholamines and not 5-HT, and that noradrenaline is involved and not dopamine. However, the mechanism of action of cannabis and reserpine on noradrenergic neurone seems to be different.
...
PMID:Role of catecholamines in the hypothermic activity of cannabis in albino rats. 82 62

delta 9-Tetrahydrocannabinol (delta 9-THC) has been reported to attenuate both reserpine-induced serotonin depletion and reserpine-induced hypothermia. We have observed that delta 9-THC preincubation led to a dose-responsive increase in the amount of 3H-reserpine bound to a crude mitochondrial fraction of rat forebrain. The experiments reported here further characterize this phenomenon. Preincubation with delta 9-THC produced a shift in the localization of 3H-reserpine from the incubation medium and the microsomal supernatant (decrease of 66%) to the crude mitochondrial (CM) pellet (increase of 154%). The CM pellet was subfractionated both by differential centrifugation after osmotic shock and by layering on a five-step discontinuous sucrose gradient and centrifuging at 80,000 x g. Osmotic shock with 0.032 M sucrose and centrifugation revealed that the delta 9-THC-induced increase in 3H-reserpine was contained in both the synaptic vesicle fraction (247%) and the fraction containing myelin, ruptured synaptosomes and mitochondria (324%). Separating the CM fraction into five component parts showed that delta 9-THC increased the 3H-reserpine bound by about 275% in the three fractions containing myelin, membrane fragments or mitochondria. Even more dramatic increases (greater than 1000%) were observed in the two fractions containing cholinergic and non-cholinergic nerve endings. In addition, we have determined that many other drugs which are believed to have membrane mediated mechanisms have no effect on the amount of 3H-reserpine bound to the crude mitochondrial fraction. Although other possibilities exist, these data support the hypothesis that delta 9-THC retards the action of reserpine by altering the normal distribution of reserpine in various membrane components of the rat brain.
...
PMID:In vitro alteration of the subcellular distribution of 3H-reserpine in the rat forebrain by delta 9-tetrahydrocannabinol. 100 13

The effect of maprotiline (N-methyl-9, 10-ethanoanthracene-9 (10H)-propylamine) on animal behavior was investigated in mice and rats and compared with those of amitriptyline and imipramine. Maprotiline inhibited reserpine hypothermia in mice and tetrabenazine ptosis in rats, while it potentiated the effects of methamphetamine, L-DOPA and apomorphine in mice, in a similar manner to that of amitriptyline and imipramine. Maprotiline was more potent than anitriptyline and imipramine in antagonizing haloperidol-induced catalepsy as well as in suppressing muricide induced by either olfactory bulbectomy or delta-9-tetrahydrocannabinol in rats. Maprotiline potentiated anesthesia induced by thiopental or ether in mice to a lesser degree than did amitriptyline, and failed to counteract the lethal effect of physostigmine or oxotremorine tremor in mice, indicating that this drug has no central anti-cholinergic effect. Maprotiline markedly inhibited hyperemotionality of the rat with either septal lesions or olfactory bulb ablations, suggesting that it does have a tranquilizing effect. Inhibition of conditioned avoidance response of the rat in the shuttle box and reduction of methamphetamine group toxicity with maprotiline were similar to those with amitriptyline. Maprotiline exaggerated pentetrazol convulsion, decreased muscle tone and impaired coordinated motor activity in mice to a much lesser degree than amitriptyline and imipramine. LD50 of maprotiline was approximately twice that of imipramine and three times that of amitriptyline. These results indicate that maprotiline is a new type of antidepressant, has a low toxicity and shares both potent antidepressant and some tranquilizing effect, without possessing central anticholinergic action.
...
PMID:[Behavior pharmacology of maprotiline, a new antidepressant]. 124 Aug 30

Opening of the pyran ring of delta 9-tetrahydrocannabinol (THC) produces cannabidiol, a bicyclic cannabinoid devoid of many pharmacological properties produced by delta 8-THC or delta 9-THC. Interestingly, the bicyclic compound CP-47,497 (VI) has been described as producing many of the pharmacological effects produced by delta 9-THC, and another related bicyclic analog CP-55,940 (XIV) has been used to successfully define a cannabinoid binding site. A series of 16 bicyclic analogs of VI and XIV were evaluated and compared with the pharmacological profile of cannabidiol, delta 8-THC and delta 9-THC. The goals of the studies described herein were to determine whether these bicyclic analogs possess similar pharmacological properties of delta 9-THC, to compare pharmacological activity after s.c. and i.v. administration, and to evaluate the structure-activity relationship of this series of analogs for further insight into cannabinoid mechanism of action. Each analog was evaluated for its ability to produce hypoactivity, hypothermia, antinociception and catalepsy in mice. The ED50 values generated from these assays were averaged to provide an index of activity. The ED50 values for delta 9-THC varied from 1.0 to 1.5 mg/kg, giving an overall index of activity of 1.3. The index for delta 8-THC was 6.0, making this isomer 4-fold less potent. Although several bicyclic analogs (V, VI, VII, VIII, XI, XII, XIV and XVI) proved to be truly cannabimimetic, three (IV, IX and X) were sufficiently unique to be classified as noncannabimimetic. The index of activity of cannabimimetic bicyclic analogs varied from 0.2 to 2.2, although some minor differences between the bicyclics and delta 9-THC exist.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Pharmacological profile of a series of bicyclic cannabinoid analogs: classification as cannabimimetic agents. 130 72

Cannabinoids have been demonstrated to be effective antinociceptive agents when given intravenously. In order to determine whether spinal antinociception can be achieved while minimizing psychotomimetic properties, the pharmacological activity of delta 9-tetrahydrocannabinol (THC) was evaluated after intrathecal injection in male ICR mice. Although delta 9-THC produced potent antinociception, it also caused hypoactivity, hypothermia, and catalepsy. Intrathecal administration of delta 9-THC in mice which had their spinal cord transected at T12 also produced potent antinociception suggesting a spinal component to the antinociceptive effect. Biodispositional studies of [3H]delta 9-THC demonstrated that brain levels of the drug following intrathecal injection in spinally transected animals were not sufficient to produce the antinociceptive effect. These studies suggest the involvement of a spinal component in the antinociceptive action of the cannabinoids.
...
PMID:Spinal mechanisms of delta 9-tetrahydrocannabinol-induced analgesia. 132 67

Six novel aminoalkylindole analogs, related structurally to the dual cyclooxygenase inhibitor and nonopioid analgesic pravadoline, were evaluated in the mouse to determine whether their pharmacological profile of activity was similar to that exhibited by delta 9-tetrahydrocannabinol (delta 9-THC). Analog I (C2-H; C3-methoxy-benzoyl) reduced locomotion, but had no other effects (hypothermia, antinociception or ring-immobility) up to 21 mumol/kg. Analogs II and III (C3-naphthoyl; C2-H and C2-methyl, respectively) possessed all properties exhibited by delta 9-THC with ED50 values ranging from 0.68 to 18 mumol/kg. Analog IV (C2-methyl; C3-anthroyl) was devoid of activity. Stereoselectivity was demonstrated by the fact that (+)-WIN-55,212 (one isomer of a semirigid derivative possessing C2-H and C3-naphthoyl substituents) was moderately potent in all tests (ED50 values ranging from 0.25-23 mumol/kg), but (-)-WIN-55,212 was inactive up to 57 mumol/kg. Active aminoalkylindole compounds were generally least effective in the production of hypothermia. Analogs were also evaluated for their ability to produce delta 9-THC-like discriminative stimulus effects in rats. The ED50 for delta 9-THC as a discriminative stimuli for this model was 1.9 mumol/kg. Analog II and III and (+)-WIN-55,212 produced delta 9-THC-like discriminative effects with ED50 values ranging from 0.33 to 4.3 mumol/kg, whereas analogs I, IV and (-)-WIN-55,212 did not. Although reported to be cannabinoid receptor antagonists in vitro, neither analog I, analog IV nor (-)-WIN-55,212 (at 20 mumol/kg) antagonized the in vivo pharmacological effects of delta 9-THC in the mouse or rat.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Aminoalkylindole analogs: cannabimimetic activity of a class of compounds structurally distinct from delta 9-tetrahydrocannabinol. 133 57

The binding of [3H]11-OH-delta 9-tetrahydrocannabinol-1, 1-dimethyl-heptyl (THC-DMH), a recently synthesized cannabinoid analog, was characterized in an in vitro brain slice binding assay and compared to that obtained with [3H]CP-55,940, the radiolabeled ligand used originally to characterize cannabinoid binding sites. The binding of both [3H]CP-55,940 and [3H]11-OH-delta 9-THC-DMH exhibited high affinity (Kd of 19 +/- 3 and 29 +/- 9 nM, respectively), and was saturable, reversible and specific. Values of maximal concentration of receptors determined for [3H]11-OH-delta 9-THC-DMH and [3H]CP-55,940 were 4.0 +/- 0.3 and 3.0 +/- 0.5 pmol/mg of protein, respectively. The distribution of [3H]11-OH-delta 9-THC-DMH and [3H]CP-55,940 binding in 30-microns rat brain sections was then compared by autoradiographic analysis. The binding of both ligands was densest in the basal ganglia (substantia nigra pars reticulata, globus pallidus, entopeduncular nucleus and regions of the caudate putamen) and cerebellum (molecular layer). Low levels of binding were observed in discrete brain regions including the brain stem (medulla and pons), thalamic nuclei, hypothalamus, corpus callosum and the deep nuclear layer of the cerebellum. Intermediate levels of binding were seen in layers I and VI of the cortex, and the dentate gyrus and CA pyramidal cell regions of the hippocampus. The ability of selected cannabinoid analogs to compete with [3H]11-OH-delta 9-THC-DMH binding was determined. The Ki's were correlated to the in vivo potencies for producing catalepsy, antinociception, hypothermia and decreasing spontaneous locomotor activity in mice (correlation coefficients > 0.86).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Characterization and autoradiographic localization of the cannabinoid binding site in rat brain using [3H]11-OH-delta 9-THC-DMH. 133 65

The primary goal of this research was to synthesize a series of ether analogues of the cannabinoid drug class and to evaluate their agonist and antagonist pharmacological properties in either the mouse or the rat. Agonist and antagonist activity was evaluated in mice using a multiple-evaluation procedure (locomotor activity, tail-flick latency, hypothermia, ring immobility) and activity in rats determined in a discriminative stimulus paradigm. Additionally, novel analogues were evaluated for their ability to bind to the THC receptor site labeled by 3H-CP-55,940. None of the cannabinoid analogues were capable of attenuating the effects of delta 9-THC (3 mg/kg) in either the rat (doses up to 10 mg/kg) or in the mouse (doses up to 30 mg/kg). It also appears that the compounds with minimal in vivo activity are not mixed agonist/antagonists. These data would suggest that the phenolic hydroxyl is important for receptor recognition (binding) and in vivo potency. Additionally, cannabinoid methyl ethers previously considered inactive have been found to produce limited activity. Lastly, data suggest that delta 9,11-THC is more potent than previous reports indicated, and does possess pharmacological activity.
...
PMID:Synthesis and pharmacological evaluation of ether and related analogues of delta 8-, delta 9-, and delta 9,11-tetrahydrocannabinol. 165 38

The present study examined whether descending noradrenergic and serotonergic systems mediate the antinociceptive effect of the prototypical cannabinoid, delta-9-tetrahydrocannabinol (delta 9-THC). Rats were administered vehicle or delta 9-THC (10 mg/kg, i.v.) and subsequently given an intrathecal (i.t.) injection of either the alpha 2-noradrenergic antagonist yohimbine, or the non-specific serotonin (5-HT) antagonist, methysergide, through chronically implanted spinal catheters. Whereas yohimbine significantly reversed the cannabinoid-induced elevation of tail-flick latencies, methysergide had no effect. To examine whether yohimbine was indeed blocking the antinociceptive effects of delta 9-THC through a spinal mechanism, it was administered i.t. at either the lumbar or the upper thoracic level of the spinal cord. Antinociception was significantly reduced when yohimbine was administered in the lumbar region; however, administration in the upper thoracic region failed to have an effect. In addition, the effect of i.t. administered yohimbine and methysergide was assessed on two other indices sensitive to cannabinoids, hypothermia and ring immobility. As previously reported, i.v. administration of delta 9-THC led to hypothermia as well as immobility in the ring test which were not blocked by i.t. administration of either monoamine antagonist. To the contrary, methysergide potentiated the hypothermic effect of delta 9-THC. These findings indicate that cannabinoids activate descending noradrenergic neurons resulting in antinociception via the stimulation of spinal alpha 2-adrenoceptors.
...
PMID:Cannabinoid-induced antinociception is mediated by a spinal alpha 2-noradrenergic mechanism. 166 84

The synthesis of a variety of novel 10-substituted cannabidiol (CBD) and 11- or 12-substituted delta 8-tetrahydrocannabinol (delta 8-THC) analogues containing amino, alkylamino, azido, or a N,N-bis(2-chloroethyl)amino functional group is described, as well as their pharmacological evaluation in mice. These analogues, which possess only a portion of the full pharmacological spectrum of activity of delta 9-THC, indicate that cannabinoid-mediated reduction of spontaneous locomotor activity, hypothermia, antinociception, and/or catalepsy need not be produced simultaneously, possibly suggesting the existence of more than one mechanism of action. The 10-substituted CBD analogues 3, 4, and 5 with an ethylamino, propylamino, or azido functional group, respectively, proved to be largely inactive, except for the production of central nervous system (CNS) depression concomitant with toxicity. Toxicity and CNS depression may be related phenomena in these nitrogenous compounds since 12-amino and 12-ethylamino analogues (8 and 11) of delta 8-THC also proved to be very toxic. Antinociceptive and hypothermic responses (without reduction of motor activity) were observed at a dose of 10 mg/kg of the 11-ethylamino analogue (9) of delta 8-THC, while a dose of 50 mg/kg of the nitrogen mustard 11-[N,N-bis(2-chloroethyl)amino]-delta 8-THC (12) was necessary to produce any observable pharmacological effect. When selected analogues were evaluated for antagonistic properties, they failed to attenuate the effects of delta 9-THC. Some nitrogen mustard analogues were capable of producing minimal pharmacological effects after either peripheral or direct CNS administration; however, these analogues also failed to attenuate the effects of delta 9-THC either immediately after administration or 24-48 h later.
...
PMID:Synthesis and pharmacological evaluation of amino, azido, and nitrogen mustard analogues of 10-substituted cannabidiol and 11- or 12-substituted delta 8-tetrahydrocannabinol. 215 63

1 2 3 4 5 6 Next >>