UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Central cholinergic mechanisms involved in D-amphetamine induced head-shaking (H-S) were explored in 9-day-old albino rats using anticholinergic, anticholinesterase and cholinomimetic drugs. Scopolamine (5 mg/kg, IP) blocks both spontaneous and D-amphetamine induced H-S. Physostigmine (0.10 mg/kg, IP), but not neostigmine, increases D-amphetamine induced H-S up to 400%. Pilocarpine (1-10 mg/kg, IP) per se induces H-S and strongly potentiates the amphetamine H-S effect. Cholinergic--catecholaminergic interactions in the CNS are discussed in relation to the expression of this motor item.
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PMID:Cholinergic mechanisms involved in head-shaking of infant rats. 59 96

The effect of central serotonergic stimulation on hippocampal and neocortical electrical activity and behavior was studied in freely moving rats by administering: (a) tranylcypromine followed by tryptophan, (b) fluoxetine followed by 5-hydroxytryptophan, or (c) p-chloroamphetamine alone. In all rats, scopolamine-resistant hippocampal rhythmical slow activity (RSA), thought to be dependent on brain serotonin, maintained its normal relation to behavior, occurring in close correlation with Type 1 behaviors (postural changes, turning of the head, walking). This RSA was generally absent during stereotyped behavior (head weaving, forepaw treading, hindlimb splaying and tremor). Scopolamine-resistant neocortical low-voltage fast activity (LVFA), also though to be dependent on brain serotonin, was present during Type 1 behaviors and also during stereotyped behavior. Most rats that developed a full stereotyped behavior syndrome had behavioral and electrocortical seizures which were associated with a reduction in the amplitude of hippocampal activity. These seizures were suppressed by methysergide or benserazide. Metergoline (and methysergide to a lesser extent) suppressed the stereotypic behaviors of the serotonin syndrome, resulting in a striking increase in the locomotion caused by central serotonergic stimulation. Such locomotion was accompanied by RSA and LVFA. It was concluded that increased serotonergic activity in the CNS causes an increase in motor activity and a correlated increase in scopolamine-resistant hippocampal RSA and scopolamine-resistant neocortical LVFA and suggested that metergoline blocks serotonin receptors mediating stereotyped behaviors, thereby permitting the expression of serotonin-mediated locomotion.
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PMID:The effects of serotonergic stimulation on hippocampal and neocortical slow waves and behavior. 193 39

Fluphenazine decanoate (25 mg/kg IM every 3 weeks x 6) resulted in spontaneous vacuous chewing mouth movements and jaw tremor in male Sprague-Dawley rats. These movements could be suppressed by the selective D1 or D2 dopamine antagonists SCH 23390 (0.5 mg/kg) and raclopride (0.5 mg/kg), respectively, and by CCK-8S (50 micrograms/kg). Fluphenazine-induced mouth movements were unaffected by the selective CCK antagonist MK-329, and by a dose of physostigmine (50 micrograms/kg) sufficient to stimulate mouth movements in placebo treated rats. Scopolamine (0.1 mg/kg) suppressed spontaneous mouth movements in placebo-treated rats, but the effect on fluphenazine-induced mouth movements was not significant. A higher dose of scopolamine (0.5 mg/kg) did suppress the neuroleptic-induced mouth movements, but also induced hyperactivity, characterized by increased sniffing and grooming. These findings indicate that mouth movements resulting from the chronic administration of neuroleptics to the rat may serve as a useful pharmacological model of tardive dyskinesia in the human, and suggest that a relative increase of D1 activity as well as impaired CCK function may contribute to the pathogenesis of this disorder.
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PMID:Chronic neuroleptic-induced mouth movements in the rat: suppression by CCK and selective dopamine D1 and D2 receptor antagonists. 256 57

The ability of various treatments to prevent peripheral parasympathetic actions, central effects and lethality of the muscarinic agonist oxotremorine was studied in rats. The percentage of animals exhibiting effects of oxotremorine was dose and time dependent. The ED50 for producing lacrimation, salivation, tremor, convulsions and death was 2.5, 1.3, 1.6, 3.2 and 8.3 mg/kg i.p., respectively. Pretreatment with 5 mg/kg of atropine completely prevented all observable effects of oxotremorine at doses of 5 mg/kg and below. Doses of oxotremorine in excess of 5 mg/kg produced tremor, generalized clonic convulsions and death that could not be prevented by atropine when given at up to 160 mg/kg; lacrimation and salivation were not present in atropine-treated rats. In the presence of 40 mg/kg of atropine, ED50 values for oxotremorine were shifted more than 12-fold for lacrimation, salivation and tremor, whereas convulsions and death were maximally altered by a factor of 2. Scopolamine, benactyzine and benztropine were also incapable of completely preventing tremor, convulsions and death induced by 10 or 15 mg/kg of oxotremorine. Atropine methyl nitrate had effects comparable to atropine sulfate on lacrimation, salivation and lethality induced by oxotremorine (10 or 15 mg/kg) but had no effect on tremor or convulsions. A similar profile of atropine-insensitive effects was produced by pilocarpine and arecoline. Doses of diazepam 4 times higher (4 mg/kg) than necessary to prevent tonic-clonic convulsions induced by pentylenetetrazol were ineffective against tremor, convulsions or death produced by oxotremorine (10 or 15 mg/kg) unless given in conjunction with atropine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonmuscarinic neurotoxicity of oxotremorine. 357 94

Increasing doses of pilocarpine, 100-400 mg/kg, were given intraperitoneally to mice and the resulting behavioral, electroencephalographic and neuropathological alterations were studied. No behavioral phenomena were observed in mice treated with the lowest dose of pilocarpine. Occasional tremor and myoclonus of hindlimbs were found in animals which received pilocarpine in a dose of 200 mg/kg. At doses of 300, 325 and 350 mg/kg, pilocarpine produced a sequence of behavioral alterations including staring spells, limbic gustatory automatisms and motor limbic seizures that developed over 15-30 min and built up progressively into a limbic status epilepticus lasting for several hours. The highest dose of pilocarpine, 400 mg/kg, was generally lethal to mice. Pilocarpine produced both interictal and ictal epileptiform activity in the electroencephalogram (EEG). The earliest EEG alterations appeared in the hippocampus and then spread to cortical areas. EEG seizures started 10-15 min after injection of large doses of pilocarpine, 300-350 mg/kg. Ictal periods lasted for 1-2 min, recurred every 5-10 min and were followed by periods of depression of the EEG activity. By 30-45 min paroxysmal activity resulted in a status epilepticus. Examination of frontal forebrain sections with light microscopy revealed a widespread damage to several brain regions including the hippocampus, amygdala, thalamus, olfactory cortex, neocortex and substantia nigra. Scopolamine, 10 mg/kg, and diazepam, 10 mg/kg, prevented the development of convulsive activity and brain damage produced by pilocarpine. The results emphasize that excessive and sustained stimulation of cholinergic receptors can lead to seizures and seizure-related brain damage in mice. It is proposed that systemic pilocarpine in mice provides a useful animal model for studying mechanisms of and therapeutic approaches to temporal lobe epilepsy.
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PMID:Seizures produced by pilocarpine in mice: a behavioral, electroencephalographic and morphological analysis. 649 17

Scopolamine was either continuously infused or injected once daily into C3H mice. Chronic infusion resulted in mice that were supersensitive to the hypothermia and tremor produced by the muscarinic agonist, oxotremorine. Chronic scopolamine infusion did not alter brain acetylcholinesterase (AChE) or choline acetyltransferase (ChAT) activities but it did produce an increase in brain muscarinic receptors, as measured by quinuclidinyl benzilate (QNB) binding. The maximal increase in QNB binding was seen at the 0.2 mg/kg/hr dose. Further increase in dose resulted in a return to control QNB binding in all brain regions studied except cortex. These animals were still supersensitive to oxotremorine, suggesting a dissociation between receptor number and response to agonist. Animals injected once daily for 10 days with 5 mg/kg exhibited an increase in QNB binding while no increase was seen at 20 mg/kg/day. Chronic oxotremorine infusion resulted in tolerance to the hypothermia-producing effects of oxotremorine. This was accompanied by a decrease in brain QNB binding. Coinfusion of scopolamine with oxotremorine blocked both the tolerance development and receptor changes. These experiments demonstrate that chronic scopolamine treatment can elicit an increase in brain muscarinic receptors which is accompanied by supersensitivity to agonists. However, this effect is not clearly dose related, and a strict relationship between receptor number and agonist response does not exist.
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PMID:Chronic scopolamine treatment and brain cholinergic function. 673 17

The influence of drugs affecting different neurotransmitter systems on an acute abstinence head-shaking (AHS) model induced by nalorphine or naloxone was studied in 9-day-old rat pups pretreated (3 h before) with morphine (10 mg/kg, i.p.). One hour after the injection of nalorphine (10 mg/ kg, i.p.) AHS was stopped by a second dose of morphine (10 mg/kg, i.p.) and reinitiated 1 h later by a higher dose of nalorphine (20 mg/kg, i.p.). In other groups AHS was blocked by spiroperidol (0.1 mg/kg, i.p.), clonidine (0.01 mg/kg, i.p.) or scopolamine (50 mg/kg, i.p.). In these groups a second injection of nalorphine did not reinitiate AHS. In dose-effect curve experiments the AHS induced by naloxone or nalorphine was significantly reduced by previous injections of scopolamine, spiroperidol, metergoline or phentolamine in the corresponding groups. Scopolamine was the only antagonist which displaced the AHS dose-effect curves to the right without affecting the maximal response. Since no common receptors exist for a direct competitive interaction between opiate antagonists and scopolamine, these experiments suggest that a direct molecular relationship exists between the tissue concentration of nalorphine (or naloxone) and the endogenous ACh release during abstinence. Thus, the AHS model in 9-day-old rats clearly differentiates specific from non-specific blockade of the abstinence syndrome, and confirms a distinct or primary role of cholinergic neurotransmission in morphine abstinence.
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PMID:Pharmacological analysis of acute morphine dependence in infant rats: close molecular relationship of head-shaking precipitated by opiate antagonists and cholinergic neurotransmission. 869 55

Butylthio[2.2.2] (LY297802 / NNC11-1053) is a mixed muscarinic cholinergic receptor agonist/antagonist that produces antinociception in mice and rats. As such, butylthio[2.2.2] may have therapeutic utility in the treatment of pain. Butylthio[2.2.2] was fully efficacious in the mouse grid shock, writhing, tail-flick and hot plate tests with ED50 values ranging from 1.5 to 12.2 mg/kg after oral administration. In contrast, the ED50 values for morphine ranged from 7.3 to 72 mg/kg after oral administration. Scopolamine was a competitive antagonist of the antinociceptive effects of butylthio[2.2.2]. Butylthio[2.2.2] did not produce either salivation or tremor at therapeutic doses; rather, there was a 50- to >100-fold separation between therapeutic doses and doses which produced side-effects. Butylthio[2.2.2] had high affinity for muscarinic receptors, but little if any affinity for other neurotransmitter receptors or uptake sites. In isolated tissues, butylthio[2.2.2] was an agonist with high affinity at M1 receptors in rabbit vas deferens, an antagonist at M2 receptors in guinea pig atria as well as an antagonist at M3 receptors in guinea pig urinary bladder. Although it has been suggested that M1 receptors mediate the antinociceptive effects of muscarinic agonists, M1 efficacy is not a requirement for antinociception, and, in vivo, the antinociceptive effects of muscarinic agonists are blocked by the intrathecal administration of pertussis toxin, indicating the involvement of m2 or m4 receptors. Since butylthio[2.2.2] is an M2 antagonist, antinociception is therefore most likely mediated by m4 receptors. Butylthio[2.2.2] is currently undergoing clinical development as a novel analgesic.
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PMID:In vivo pharmacology of butylthio[2.2.2] (LY297802 / NNC11-1053), an orally acting antinociceptive muscarinic agonist. 912 63

In order to provide evidence for the involvement of cholinergic mechanisms in a low-dose physostigmine-induced tremor, a novel technique for measuring forelimb tremor in rats was used. Rats that were administered physostigmine (0.05 and 0.1 mg/kg, s.c.), scopolamine (0.1 and 0.2 mg/kg, s.c.), and combinations of the two drugs, pressed a force-sensing operandum while a computer measured force output and performed Fourier analyses on resulting force-time waveforms. When given alone, both drugs decreased task engagement but mutually antagonized this effect when given together. Physostigmine increased tremors as well as peak force. Scopolamine decreased tremor and force when administered alone and reversed physostigmine-induced increases in force and tremor. Physostigmine's low-dose induction of increased tremor during rats' skilled forelimb use appears to have a prominent cholinergic component.
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PMID:Scopolamine reversal of tremor produced by low doses of physostigmine in rats: evidence for a cholinergic mechanism. 914 94

This study presents a comparison between two inhibitors of acetylcholinesterase, tacrine and E2020 (Donepezil), the 5-HT(3) receptor antagonist ondansetron, and the H(3) receptor antagonist thioperamide, in models of cholinergic function and cognition in male, Lister hooded rats. The cognitive tests used were an operant VI20 task, the delayed match to position task (short-term memory) and the 5-choice serial reaction time task (attention). Scopolamine (SCOP) (0.075mg/kg s.c.) was utilised in both the short-term memory and attention tasks to impair performance. Both tacrine (1-30mg/kg) and E2020 (1-10mg/kg) similarly produced overt cholinomimetic signs of likely central origin (hypothermia, tremor), although tacrine produced more profound peripheral cholinomimetic signs (miosis, secretory signs) than E2020. Tacrine (30mg/kg) and E2020 (10mg/kg) reduced the number of reinforcements gained in the VI20 schedule. Similarly, both drugs attenuated the SCOP-impairment models in the short-term memory and attention tasks (1-3mg/kg). Ondansetron (10ng/kg-1mg/kg) and thioperamide (0.2-10mg/kg) failed to elicit overt cholinomimetic signs or influence the number of food reinforcements gained in the VI20 schedule. Neither ondansetron nor thioperamide attenuated the SCOP-induced impairment in either cognitive task. From the present studies, both E2020 and tacrine showed a similar behavioural profile in the models used, although E2020 was about three times more potent. Furthermore, E2020 but not tacrine appeared to show some discrimination in eliciting central and peripheral cholinomimetic signs. The failure of ondansetron and thioperamide to reverse a SCOP-induced deficit in these models is discussed.
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PMID:Effects of anticholinesterase drugs tacrine and E2020, the 5-HT(3) antagonist ondansetron, and the H(3) antagonist thioperamide, in models of cognition and cholinergic function. 1122 48

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