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

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

The effects of physostigmine, tacrine and NIK-247 on scopolamine-induced impairment of a passive avoidance response were examined in rats. In addition, we investigated possible peripheral side-effects: miosis and salivation, and central side-effects: hypothermia and tremor which are mediated by cholinergic activation. Intraperitoneal injection of physostigmine reversed scopolamine-induced amnesia at a dose of 0.03 mg/kg. Antiamnesic effects of oral administration of tacrine and NIK-247 were observed at doses of 0.3 and 0.1-0.3 mg/kg, respectively. Intraperitoneal injection of physostigmine induced miosis, salivation, hypothermia and tremor at doses > or = 0.1, 0.3, 0.3 and 1 mg/kg, respectively. Oral administration of tacrine (at doses > or = 0.3 mg/kg) and NIK-247 (at doses > or = 3 mg/kg) produced miosis. Tacrine (at doses > or = 1 mg/kg) and NIK-247 (at doses > or = 3 mg/kg) produced hypersalivation. Hypothermia and tremor were observed after administration of tacrine (at doses > or = 10 mg/kg) and NIK-247 (30 mg/kg). The antiamnesic dose of physostigmine was 1/30-1/3 of doses with central or peripheral side-effects. The dose ratio of tacrine was 1/30-1; that of NIK-247 was 1/300-1/10. These results indicate that NIK-247 has higher safety and greater selectivity for cognitive functions than physostigmine or tacrine.
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PMID:Antiamnesic and cholinomimetic side-effects of the cholinesterase inhibitors, physostigmine, tacrine and NIK-247 in rats. 811 9

The pharmacological properties of MKC-231 (2-(2-oxopyrrolidin-1-yl)-N- (2,3-dimethyl-5,6,7,8-tetrahydrofuro[2,3-b]quinolin-4-yl) acetoamide, CAS 135463-81-9) in comparison with an acetylcholinesterase (AChE) inhibitor, tacrine (CAS 1684-40-8) were studied. MKC-231(10(-10)-10(-6) moll) significantly increased high affinity choline uptake (HACU) when it was incubated with the hippocampal synaptosomes of ethylcholine mustard aziridinium ion (AF64A) treated rats, but not of normal rats. MKC-231 did not affect the AChE activity, [3H]- quinuclidinyl benzilate binding, and [3H]-pirenzepine binding. Oral administration of MKC-231 (1-10 mg/kg) significantly improved the learning deficits in the Morris' water maze of AF64A-treated rats, but it did not produce any significant side effects, like tremor, salivation or hypothermia, which were observed in rats treated with high doses of tacrine. Tacrine (0.1-3 mg/kg p.o.) failed to ameliorate the learning deficits in AF64A-treated rats. These results suggest that MKC-231 is a novel and quite unique compound, which improves the memory impairment induced by AF64A through the enhancement of HACU without any side effects at the effective doses.
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PMID:Effect of the novel high affinity choline uptake enhancer 2-(2-oxopyrrolidin-1-yl)-N-(2,3-dimethyl-5,6,7,8-tetrahydrofuro[2,3-b] quinolin-4-yl)acetoamide on deficits of water maze learning in rats. 874 80

In the present study, three experiments were conducted to provide a characterization of some of the motor effects of the anticholinesterase tacrine (1.25-5.0 mg/kg I.P.) in rats. In the first experiment, tacrine was found to produce tremulous jaw movements in the dose range of 1.25-5.0 mg/kg. The second experiment examined the effects of tacrine on locomotion, and it was demonstrated that tacrine produced a dose-related suppression of open-field motor activity. In the third experiment, the effects of tacrine were assessed using operant conditioning procedures. Behavioral output during lever pressing on a fixed ratio 5 schedule was recorded by a computerized system that measured response initiation time (time from offset of one response to onset of the next) and duration for each lever press. Tacrine administration substantially depressed lever pressing response rate. This deficit was largely due to a substantial increase in the average response initiation time. Analysis of the distribution of response initiation times indicated that tacrine-treated rats made relatively few responses with fast initiation times (e.g., 0-125 ms), and also that tacrine led to a dramatic increase in the number of pauses in responding (i.e., response initiation times greater than 2.5 s). Tacrine-treated rats showed a slight increase in the average initiation time for fast responses (i.e., a slight decrease in the local rate of responding), and also showed a substantial increase in the average length of pauses greater than 2.5 s. Analysis of response durations indicated that there was an overall increase in average response duration among animals that received the higher doses of tacrine. Although tacrine-induced decreases in the local rate of responding and increases in response duration contribute to the overall deficit, the major reason why tacrine-treated animals responded less was because they took much longer breaks in responding. It is possible that the tacrine-induced increases in pausing reflect a drug-induced akinesia. Thus, the present experiments indicate that tacrine impairs several aspects of motor function in the dose range tested. In view of the fact that tremor and motor slowing are classic symptoms of Parkinsonism, the present results in rats are consistent with the human literature indicating that tacrine (Cognex) can produce Parkinsonian side effects. Studies of the motor dysfunctions produced by tacrine in rats could be useful for investigating the motor side effects of tacrine in humans.
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PMID:Motor dysfunction produced by tacrine administration in rats. 940 86

Lu 25-109 [5-(2-ethyl-2H-tetrazol-5-yl)-1,2,3,6-tetrahydro-1-methylpyridine] , has M agonistic and M2/M3 antagonistic effects at muscarinic receptors in vitro; a pharmacological profile that may be beneficial in treatment of Alzheimer's disease. In the present study, we compare functional in vivo effects of Lu 25-109 and reference compounds in animal models of muscarinic cholinergic function. Lu 25-109 substituted completely for the discriminative stimulus effects of (-)-7-methyl-3-(2-propynyloxy)-4,5,6,7-tetrahydroisothiazolo -[4, 5-c]pyridine (Lu 26-046), a partial M1/M2 agonist, but only weakly for the effects of the non-selective M1/M2/M3 agonist 3-methoxy-4,5,6,7-tetrahydro-isoxazolo[4, 5-c] pyridine (O-Me-THPO). Lu 25-109 did not reverse O-Me-THPO-induced discriminative stimulus. Tacrine did not substitute for any of the training drugs. Lu 25-109 did not substitute in (-)-nicotine trained rats. Lu 25-109 did not antagonize oxotremorine-induced hypothermia, tremor and salivation in mice and antagonized physostigmine-induced lethality with low potency. Unlike non-selective muscarinic agonists and acetylcholinesterase inhibitors, Lu 25-109 did not induce hypothermia, tremor or salivation in mice. Spontaneous locomotor activity and motor co-ordination were inhibited only at high doses. Lu 25-109 had no effect on mean blood pressure in anaesthetized rats. Lu 25-109 and O-Me-THPO produced a significant increase in heart rate. The maximum increase was 37%. In anaesthetized cats, increasing i.v. doses of Lu 25-109 were without effect on the mean blood pressure, except for a short lasting (<2 min) depressor effect following the IV injection. Furthermore, Lu 25-109 did not attenuate the reflex mechanisms restoring blood pressure following orthostasis in cats. In conclusion, the drug discrimination studies suggest a unique activity profile of Lu 25-109, and the in vivo profile suggests none or a very low frequency of unwanted cholinergic mediated effects.
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PMID:In vivo muscarinic cholinergic mediated effects of Lu 25-109, a M1 agonist and M2/M3 antagonist in vitro. 968

The in vitro and in vivo effects of the novel acetylcholinesterase inhibitors donepezil and NXX-066 have been compared to tacrine. Using purified acetylcholinesterase from electric eel both tacrine and donepezil were shown to be reversible mixed type inhibitors, binding to a similar site on the enzyme. In contrast, NXX-066 was an irreversible non-competitive inhibitor. All three compounds were potent inhibitors of rat brain acetylcholinesterase (IC50 [nM]; tacrine: 125 +/- 23; NXX-066: 148 +/- 15; donepezil: 33 +/- 12). Tacrine was also a potent butyrylcholinesterase inhibitor. Donepezil and tacrine displaced [3H]pirenzepine binding in rat brain homogenates (IC50 values [microM]; tacrine: 0.7; donepezil: 0.5) but NXX-066 was around 80 times less potent at this M1-muscarinic site. Studies of carbachol stimulated increases in [Ca2+]i in neuroblastoma cells demonstrated that both donepezil and tacrine were M1 antagonists. Ligand binding suggested little activity of likely pharmacological significance with any of the drugs at other neurotransmitter sites. Intraperitoneal administration of the compounds to rats produced dose dependent increases in salivation and tremor (ED50 [micromol/kg]; tacrine: 15, NXX-066: 35, donepezil: 6) with NXX-066 having the most sustained effect on tremor. Following oral administration, NXX-066 had the slowest onset but the greatest duration of action. The relative potency also changed, tacrine having low potency (ED50 [micromol/kg]; tacrine: 200, NXX-066: 30, donepezil: 50). Salivation was severe only in tacrine treated animals. Using in vivo microdialysis in cerebral cortex, both NXX-066 and tacrine were found to produce a marked (at least 30-fold) increase in extracellular acetylcholine which remained elevated for more than 2 h after tacrine and 4 h after NXX-066.
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PMID:A comparative study in rats of the in vitro and in vivo pharmacology of the acetylcholinesterase inhibitors tacrine, donepezil and NXX-066. 1019 9

There are now several acetylcholinesterase inhibitors in clinical use for the treatment of Alzheimer's disease, however, no systematic comparative studies of their central and peripheral cholinergic mediated effects in rats appear to have been reported. The present study investigated the dose-response characteristics of donepezil, tacrine, rivastigmine and metrifonate in inducing tremor, lacrimation, salivation and hypothermia and the duration of action of these compounds in Lister hooded rats. Data obtained were compared with the clinical observations on these drugs. Three doses of each compound were given orally to establish a dose-response curve for each behaviour, Tremor and lacrimation were scored, salivation was measured by weighing swabs applied to the mouth area and hypothermia was measured with a rectal probe. ED50 values were calculated for tremor. Using a just sub-maximal tremorigenic dose, the duration of response was examined. All four compounds produced dose-dependent increases in tremor and hypothermia. Only tacrine also produced marked salivation and lacrimation. The order of potency (ED50 value in micromol/kg) was rivastigmine (3.7), donepezil (18.0), tacrine (37.5), metrifonate (470). Tremor following tacrine (150 micromol/kg) and donepezil (20 micromol/kg) was prolonged (> 6 h) with a similar hypothermic response. The duration of these responses following metrifonate (777 micromol/kg) and rivastigmine (12.5 micromol/kg) did not exceed 3 h. Tacrine had poor selectivity for central (tremor) versus peripheral (salivation/lacrimation) effects compared to the other compounds. Donepezil also had a sustained duration of action. The data are consistent with clinical results and indicate that simple in-vivo models may assist in the selection of acetylcholinesterase inhibitors with a suitable response profile for use in the symptomatic treatment of Alzheimer's disease.
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PMID:Comparison of donepezil-, tacrine-, rivastigmine- and metrifonate-induced central and peripheral cholinergically mediated responses in the rat. 1110 8

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

Tacrine is a potent and reversible inhibitor of acetylcholinesterase (AChE) in the brain. It produces tremor in animals, which is believed to be due to an increase in the brain acetylcholine level following AChE inhibition. The present study was undertaken to investigate the involvement, if any, of biogenic amines in the genesis of this motor dysfunction. Administration of tacrine (10-20 mg/kg, i.p.) produced dose- and time-dependent tremor in Balb/c mice. While in vivo inhibition of striatal AChE activity was observed only for the highest dose of tacrine, a dose-dependent increase in striatal choline acetyltransferase activity was obtained. Serotonin (5-HT) levels, as assayed following a sensitive HPLC-electrochemical procedure, were significantly increased in nucleus caudatus putamen, nucleus accumbens, substantia nigra, nucleus raphe dorsalis, olivary nucleus and the cerebellum. However, dopamine or norepinephrine levels remained unaltered in these areas of the brain. In animals treated with p-chlorophenylalanine, a specific tryptophan hydroxylase inhibitor and 5-HT depletor, tacrine failed to elevate the levels of 5-HT in the brain regions, and significantly attenuated tremor response to the drug. Tacrine-induced tremor was also significantly (83%) attenuated by 5-HT(2A/2C) receptor antagonist mianserin (5 mg/kg, i.p.), but methysergide (5 mg/kg, i.v.) could block tacrine-induced tremor only by 20%. Atropine (5 mg/kg, i.p.) antagonized tacrine-induced tremor by about 53%, but a combination of atropine and mianserin completely blocked the tremor response. These results indicate that the cholinergic tremor produced by tacrine in Balb/c mice is mediated via central serotonergic mechanisms, and stimulation of 5-HT(2A/2C) receptors plays a pivotal role in this motor dysfunction.
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PMID:Evidence for the involvement of central serotonergic mechanisms in cholinergic tremor induced by tacrine in Balb/c mice. 1599 Jan 78

Physiological alterations that may change pharmacological response accompany aging. Pharmacokinetic/pharmacodynamic properties of cholinesterase inhibitors (ChEIs) used in the treatment of Alzheimer's disease, donepezil, tacrine, and galantamine, were investigated in an aged Lister hooded rat model. Intravenous and oral 6-h blood sampling profiles in old (30 months old) and young (7 months old) rats revealed pharmacokinetic changes similar to those in humans with an approximately 40% increase in C(max) of galantamine and prolonged t(1/2) (1.4-fold) and mean residence time (1.5-fold) of donepezil. Tacrine disposition was maintained with age, and area under the concentration-time curve and clearance in old rats were similar to those in young rats for all drugs tested as was bioavailability. Old rats showed a trend of increased pharmacodynamic sensitivity (<20%) to ChEIs in cholinesterase activity assays, which was attributed to pharmacokinetic effects because a trend of higher blood and brain concentrations was seen in the old rats although brain/blood ratios remained unaffected. Enhanced cholinergic-mediated behaviors such as tremor, hypothermia, salivation, and lacrimation were also observed in the old rats, which could not be accounted for by a similar magnitude of change in pharmacokinetics. A decrease in expression of muscarinic acetylcholine receptor subtype 2 detected in old rat brains was postulated to play a role. Greater age effects in both pharmacokinetics and pharmacodynamics of donepezil and tacrine were seen in previous studies with Fischer 344 rats, indicating a potential risk in overreliance on this rat strain for aging studies.
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PMID:Pharmacokinetic and pharmacodynamic properties of cholinesterase inhibitors donepezil, tacrine, and galantamine in aged and young Lister hooded rats. 2114 81

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