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)

We have investigated the effects of the local administration into the periaqueductal gray matter of thiorphan, a selective inhibitor of endopeptidase 24.11 "enkephalinase", kelatorphan, (R)-3-(N-hydroxy-carboxamido-2-benzylpropanoyl)- L-alanine, and RB 38 A, (R)-3-(N-hydroxy-carboxamido-2-benzylpropanoyl)-L-phenylalanine, two almost complete inhibitors of enkephalin metabolism, on the naloxone-precipitated morphine withdrawal syndrome in rats. Local administration of these inhibitors decreased the severity of the withdrawal syndrome. Jumping, chewing, diarrhea, piloerection, salivation and hypothermia were decreased by all drugs. Lacrimation and weight loss were reduced by kelatorphan and RB 38 A whereas teeth chattering, tremor, eye twitch and rhinorrhea were decreased only by RB 38 A. The rise in plasma corticosterone levels was only slightly reduced by the three inhibitors. Wet dog shakes and ptosis remained unchanged. These results indicate that during the morphine withdrawal syndrome in rats there is a tonic or/and naloxone evoked release of opioid peptides, presumably enkephalins, into the periaqueductal gray matter and that inhibition of their degradation strongly decreases the severity of the withdrawal syndrome.
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PMID:Attenuation of the morphine withdrawal syndrome by inhibition of catabolism of endogenous enkephalins in the periaqueductal gray matter. 162 Feb 46

Some central effects of Ro 19-6327--a new MAO-B inhibitor--were studied in mice and rats. Given in low doses (1 or 3 mg/kg) Ro 19-6327 did not affect the locomotor activity of mice but its high dose (10 mg/kg) increased the activity. In rats Ro 19-6327 inhibited the locomotor activity but the effect was not dose dependent and not always significant. Ro 19-6327 did not change the locomotor activity in mice induced by L-DOPA (plus benserazide--an inhibitor of peripheral decarboxylase). The drug suppressed the reserpine-induced hypothermia and ptosis in mice and partly counteracted the apomorphine-induced hypothermia. It markedly enhanced (10 mg/kg) the amphetamine-induced stereotypy in rats. L-5-Hydroxytryptophan (L-5-HTP)-induced head twitch response was unchanged by Ro 19-6327. The drug given three times was inactive in forced swimming test. Repeated treatment with Ro 19-6327 (twice daily for 14 days) produced the enhancement of (+)-amphetamine- and nomifensine-induced hyperactivity in rats. Unlike a number of antidepressants, Ro 19-6327 did not potentiate the clonidine aggressiveness in mice, but--in contrast--inhibited it. The results suggest that Ro 19-6327 given repeatedly produces no changes in the responsiveness of the alpha-adrenergic system (in references to effects mediated by alpha 1-adrenoceptors). Adaptive changes in dopamine system are doubtful.
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PMID:Central effects of Ro 19-6327 given acutely and repeatedly. 166 12

The potential antidepressant effect of flerobuterol (dl-(fluoro-2 phenyl)-1 t-butylamino-2 ethanol), a new drug related to beta-adrenoceptor agonists, was evaluated and compared with imipramine and salbutamol using classical psychopharmacological tests in mice. Like imipramine and salbutamol, flerobuterol (0.5-32 mg kg-1, ip) fully prevented apomorphine (16 mg kg-1, sc)- and partly reversed reserpine- and oxotremorine-induced hypothermia. At higher doses (16-32 mg kg-1), flerobuterol enhanced the toxic effects of yohimbine. Unlike imipramine, flerobuterol and salbutamol did not reduce immobility duration in the behavioural despair test. Salbutamol and flerobuterol decreased locomotor activity. Flerobuterol did not induce mydriasis, did not prevent oxotremorine-induced tremors or salivary and lacrimal gland secretion and did not reduce reserpine-induced palpebral ptosis. Propranolol (8 mg kg-1, ip) but not alpha-methyl-paratyrosine (75 mg kg-1, ip) prevented the flerobuterol-induced antagonism of apomorphine-induced hypothermia. Our results suggest that flerobuterol demonstrates potential antidepressant activity, which could be related to beta-adrenoceptor activation in mice.
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PMID:Flerobuterol: a potential antidepressant drug related to beta-adrenergic agonists. Experimental profile in mice. 168 9

N-(2,2-Diphenylethyl)adenosine (DPEA) has been identified as a potential antipsychotic agent acting via stimulation of adenosine receptors. The projected human therapeutic dose, based on animal studies, is 2-3 mg/kg. DPEA has been tested for potential toxicity in mice, rats, dogs and monkeys. Following single oral doses, median lethal dose values were approximately 10-fold greater in rats than in mice, although similar clinical signs including reduced activity, prostration, and necrosis of the tail were seen in both species. DPEA was well tolerated at daily doses up to 40 mg/kg in rats for 2 weeks. A no observed effect level (NOEL) was not identified in the dog or monkey studies. Reduced activity, dacryorrhea, ptosis, hypothermia, necrosis of the tail, and death occurred in rats given 120 and 160 mg/kg. Pathologic changes consisted of pancreatitis, gastric erosion/ulceration, lymphocyte depletion of the thymus, and pulmonary congestion and hemorrhage at 80 mg/kg or greater. In dogs, sporadic emesis was noted at 12.5 mg/kg and greater, and significant pathologic changes consisted of coronary arteritis associated with myocardial lesions and lymphocyte depletion at 25 and 50 mg/kg, pancreatic acinar necrosis at 50 mg/kg, and renal tubular degeneration at 12.5 mg/kg and greater. Emesis and depression were noted at 25 and 50 mg/kg in monkeys. Renal tubular dilatation and degeneration at 25 and 50 mg/kg were noted in the monkeys. These studies demonstrated that DPEA produced a range of adverse effects in common laboratory animal species.
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PMID:Preclinical toxicity studies of an adenosine agonist, N-(2,2-diphenylethyl) adenosine. 187 77

A Functional observational battery (FOB) was utilized to provide a semiquantitative description of the hyperreactivity, excitability, and debilitation produced by amitraz. Adult male Long-Evans rats were administered either vehicle or 10, 25, 50, 100, or 200 mg/kg amitraz ip. They were tested with the FOB immediately before dosing, at 1 and 4 hr, and at 1, 2, 4, and 8 days after dosing. Higher doses (100-200 mg/kg) produced increased reactivity to manipulation, tenseness, and aggression. Most or all doses produced depressed arousal and rearing activity, hypothermia, body weight loss, and autonomic changes including ptosis, chromodacryorrhea resulting in facial crustiness, loss of the pupil reflex, and decreased defecation. Altered gait and decreased landing foot splay were also produced by amitraz. For the most part, effects of lower doses (10-50 mg/kg) were reversible by 2 to 4 days after treatment. In the higher dose groups, however, signs of toxicity were evident, and in some cases even more prominent (e.g., handling hyperreactivity), 8 days after a single dose of amitraz. The FOB thus provided a semiquantitative description of the magnitude and time course of many features of the amitraz toxicity syndrome.
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PMID:Investigations of amitraz neurotoxicity in rats. IV. Assessment of toxicity syndrome using a functional observational battery. 191 81

GK 13 (N-[1-(2-benzo (b) thiophenyl)-cyclohexyl] piperidine), GBR 12783 (1-[2-(diphenylmethoxy)-ethyl] 4-(3-phenyl propenyl)-piperazine and dexamphetamine are three indirect catecholaminergic agonists, acting via different neurochemical mechanisms. We have compared their effects in rodents, in several behavioral tests. All three drugs increased locomotion. The stimulant locomotor effect of dexamphetamine was more easily antagonized by haloperidol than that of GBR 12783 and GK 13. Only dexamphetamine reversed reserpine-induced akinesia. This reversal was prevented by pretreatment with either GK 13 or GBR 12783. The three drugs reduced pentobarbital sleeping time in mice. They induced rotation ipsilateral to a unilateral 6-OHDA lesion of the nigrostriatal dopaminergic pathway. The stereotypies induced by GK 13 and GBR 12783 were essentially limited to sniffing. Haloperidol-induced catalepsy was apparently more easily antagonized by dexamphetamine than by GK 13 or GBR 12783. GK 13 and GBR 12783 had no significant effects on body temperature. The three drugs displayed an anti-immobility effect in the "despair test". Dexamphetamine and GK 13 reversed the hypothermia induced by apomorphine (16 mg/kg), as well as reserpine-induced hypothermia and reserpine-induced ptosis. Dexamphetamine induced a dose-dependent anorectic effect, whereas GK 13 and GBR 12783 induced only a brief and partial anorexia. Similar observations were made on water intake. Pretreatment with either GBR 12783 or GK 13 did not affect the dexamphetamine-induced anorexia. Effects of the three drugs are discussed by reference to their known neurochemical properties on catecholaminergic transmission.
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PMID:Comparison of the effects of three indirect dopamine agonists, GK 13, GBR 12783 and dexamphetamine on behavioural tests involving central catecholaminergic transmissions. 197 95

2-(3,4-Dichlorobenzyl)-2-dimethylamino-1-propanol, hydrochloride (JO 1017) is a novel antidepressant drug. Its biochemical and pharmacological properties were investigated in mice, rats, dogs, rabbits and guinea pigs. In vitro, it selectively inhibited serotonin uptake and had a high affinity for the 3H-paroxetine and 3H-imipramine binding sites. Biochemical studies demonstrated the lack of MAO-A and MAO-B inhibition and the absence of marked affinity for muscarinic, histaminic or other conventional brain receptors. Chronic treatment with JO 1017 induced a decrease in the Bmax values for imipramine sites but did not modify the Bmax for beta-adrenergic and 5-HT2 receptors. The neuropsychopharmacological profile of JO 1017 is characterized by a decrease of the immobility times in behavioural despair tests with mice, a decrease of the escape failures in the rat learned helplessness test, a strong potentiation of L-5-HT P-induced head-twitches in mice and an antagonism of reserpine-induced ptosis in rabbits. It weakly antagonized oxotremorine-induced hypothermia and did not influence the hypothermia induced by apomorphine. In contrast to most other antidepressants, a high dose of JO 1017 induced hypermotility in mice placed in an activity meter without producing stereotyped behaviour and group toxicity. Unlike tricyclic antidepressants, JO 1017 was devoid of severe cardiotoxicity in guinea pigs and had no central anticholinergic nor antihistaminic properties. These results suggest that JO 1017 is a selective serotonin uptake inhibitor with a high safety margin. JO 1017 may have a potential clinical utility both in the treatment of depression and for indications where serotonin transmission is involved, e.g., anxiety, panic attack, obsessive compulsive disorder, obesity and alcohol consumption.
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PMID:Biochemical and pharmacological evaluation of the novel antidepressant and serotonin uptake inhibitor 2-(3,4-Dichlorobenzyl)-2-dimethylamino-1-propanol hydrochloride. 216 3

Behavioural tests for predicting antidepressant activity in the animal provide a closer approximation than other tests of states of depression in man but are often long and costly to perform (except the behavioural despair test). The tests proposed here presuppose a pharmacological interaction (except the Porsolt test) but are simple enough to allow screening: included are antagonism of reserpine hypothermia, ptosis and akinesia; antagonism of effects induced by oxotremorine; antagonism of high-dose apomorphine; and potentiation of yohimbine toxicity. In combination with the study of motor activity in the mouse, these tests allow assessment of the specificity of antidepressant activity by establishing a ratio between the "antidepressant" dose and the "stimulant" or "sedative" dose. It can be predicted that a substance will be antidepressant and sedative or stimulant at the same dose if the ratio is close to 1; if the ratio is less than 1, at antidepressant doses the substance will be very sedative or stimulant according to the case. The specificity of the tests discussed can be debatable. Antagonism of reserpine-induced hypothermia indicates substances with direct or indirect beta-mimetic activity, ptosis antagonism, substances with alpha-adrenergic (not antidepressants) or serotoninergic (possibly antidepressants) activity; and akinesia antagonism, a direct or indirect dopaminergic activity (sometimes found in antidepressants) with psychostimulant activity. The oxotremorine test is related to the anticholinergic activity of substances, except in the case of hypothermia antagonism. The high-dose apomorphine test seems to be specific for substances inhibiting norepinephrine reuptake. The yohimbine test is simple to carry out, relatively inexpensive and does not fail to screen any molecule known to be effective to-date. The behavioural despair test is a good complement for screening except for drugs having a beta-agonist activity, it appears that this test is dependent on functional relationships between alpha 2 and serotonergic systems.
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PMID:Is it possible to predict the activity of a new antidepressant in animals with simple psychopharmacological tests? 218 84

We report a 42-year-old man with dopamine-beta-hydroxylase deficiency, an autonomic disorder characterized by lifelong severe orthostatic hypotension, ptosis, nasal stuffiness, hyperextensible joints, and retrograde ejaculation. There is isolated deficiency of norepinephrine in both central and peripheral neurons, which contain and release dopamine instead. Dopamine-beta-hydroxylase deficiency should be suspected also in infants presenting with delayed eye opening, hypoglycemia, hypothermia, or hypotension. It can be diagnosed definitively by assay of plasma norepinephrine and dopamine.
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PMID:Dopamine-beta-hydroxylase deficiency in humans. 230 Feb 63

The behavioral effects of paroxetine were investigated in mice and rats in comparison with imipramine and amitriptyline. 1) Locomotor activities were decreased by imipramine and amitriptyline but not by paroxetine in both animal species. 2) Paroxetine antagonized methamphetamine-induced hyperactivity in mice as did imipramine and amitriptyline. 3) Paroxetine showed a more potent antimuricidal effect in raphe-lesioned rats than imipramine and amitriptyline, and it also inhibited muricide in olfactory bulbectomized rats. 4) The immobility of rats in the forced swimming test was markedly decreased by imipramine and amitriptyline, but only slightly by paroxetine. 5) Like imipramine and amitriptyline, paroxetine potentiated the methamphetamine- or L-DOPA-induced stereotyped sniffing, and it inhibited oxotremorine-induced tremor. 6) Paroxetine antagonized reserpine-induced hypothermia, tetrabenazine-induced ptosis, and enhanced ether-induced anesthesia, all less potently than imipramine and amitriptyline. 7) The analgesic action of paroxetine was stronger than that of imipramine and amitriptyline. 8) Paroxetine did not antagonize maximal electroshock- or pentetrazol-induced convulsions and haloperidol- or THC-induced catalepsy in rats. In addition, paroxetine neither exerted muscle relaxation nor affected the shuttle-box type conditioned avoidance in rats. From these results, the behavioral effects of paroxetine, as compared with imipramine and amitriptyline, were characterized by its potent antimuricidal action in raphe-lesioned rats and its weak effect in the forced swimming test and by its less potent muscle relaxant, anticonvulsant, anticataleptic and anesthesia-potentiating actions.
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PMID:[Behavioral pharmacological properties of the novel antidepressant paroxetine, a selective 5-HT uptake inhibitor]. 253 Jan 42


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