EC:3.1.1.8 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.8 (cholinesterase)
12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heptyl-physostigmine (heptyl-Phy), a new carbamate derivative of physostigmine (Phy), has been assessed for potential clinical value by evaluating its in vitro activity against human erythrocyte acetylcholinesterase (AChE) and plasma butyrylcholinesterase (BChE), its duration of in vivo activity against rat plasma AChE, and its effects on attenuating a scopolamine-induced impairment in learning performance of young rats in a 14-unit T-maze. Heptyl-Phy demonstrated potent cholinesterase inhibition, with activity similar to that of Phy against AChE, IC50 values 21.7 +/- 2.0 nM and 27.9 +/- 2.4 nM, respectively, and significantly greater than that of Phy against BChE, IC50 values 5.0 +/- 0.1 nM and 16.0 +/- 2.9 nM, respectively. Heptyl-Phy achieved maximum AChE inhibition of 92.5% at 60 min and maintained a high and relatively constant inhibition for more than 8 h. For analysis of effects on learning performance, heptyl-Phy at 1.0, 1.5, 2.0 or 3.0 mg/kg, or vehicle was administered i.p. to 52 3-month-old male Fischer-344 rats 60 min prior to maze training. Thirty minutes prior to training, each animal received either 0.9% NaCl or scopolamine hydrochloride (0.75 mg/kg). Only a 2.0 mg/kg dose of heptyl-Phy significantly reduced the number of errors in scopolamine-treated rats. The other doses did not improve any aspect of maze performance. Although the therapeutic window of heptyl-Phy did not appear wide enough for clinical use, the longer duration of action of heptyl-Phy would appear beneficial.
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PMID:The long-acting cholinesterase inhibitor heptyl-physostigmine attenuates the scopolamine-induced learning impairment of rats in a 14-unit T-maze. 143 16

Cholinergic replacement therapy for Alzheimer's disease using existing cholinesterase inhibitors is compromised by short duration, meagre benefits restricted to subgroups of patients, and peripheral toxicity. Heptyl physostigmine is a lipophilic carbamate derivative of physostigmine. In rhesus monkeys, heptyl physostigmine (0.2-0.9 mg/kg i.m.) fully reversed a scopolamine-induced cognitive impairment. Following oral administration in squirrel monkeys, heptyl physostigmine (8 mg/kg) induced long-lasting hypothermia (greater than or equal to 4 h), a centrally-mediated cholinergic effect. Erythrocyte acetylcholinesterase activity was inhibited by 86% at the time of peak hypothermia (180 min). Clinical trials with heptyl physostigmine will enable a more rigorous evaluation of cholinomimetic therapy for dementia.
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PMID:Reversal of cognitive impairment by heptyl physostigmine, a long-lasting cholinesterase inhibitor, in primates. 156 24

We assessed the effects of heptyl physostigmine, a new cholinesterase inhibitor, in a mouse tail-flick (TF) test, a mouse and rat passive avoidance test, a rat conditioned suppression-of-drinking (CSD) test, a rat Random Interval (RI) response rate test and a rat delayed matching-to-position (DMTP) test. In the TF test, a dose of 8.0 mg/kg of heptyl induced a significant antinociceptive effect that was in excess of 75% of the maximum possible effect 300 minutes after administration. In the mouse passive avoidance test, a dose of 3.0 mg/kg of heptyl fully reversed, and a dose of 1.0 mg/kg partially reversed, a scopolamine-induced (0.2 mg/kg) deficit. In the rat passive avoidance test, a dose of 8.0 mg/kg fully reversed a scopolamine-induced (0.2 mg/kg) deficit, while a dose of 4.0 mg/kg of heptyl was without effect. In the same experiment, a dose of 0.6 mg/kg of physostigmine partially reversed the scopolamine-induced deficit. In the CSD test, a dose of 8.0 mg/kg of heptyl fully reversed, and doses of 1.0 and 4.0 mg/kg of heptyl partially reversed, the deficit induced by scopolamine (0.4 mg/kg). In the RI response rate test, doses of 8.0 mg/kg and 0.6 mg/kg of physostigmine fully suppressed lever pressing for food rewards. Doses of 4.0 mg/kg of heptyl and below had no effect on lever-pressing rates. In the working memory test (DMTP), 4.0 mg/kg heptyl partially reversed the scopolamine-induced deficit (0.2 mg/kg) in the number of correct choices made, but did not affect the scopolamine-induced deficit in the number of trials completed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The behavioral effects of heptyl physostigmine, a new cholinesterase inhibitor, in tests of long-term and working memory in rodents. 176 5

Heptyl-physostigmine (Heptyl-Phy; MF-201) is a new carbamate derivative of physostigmine (Phy) with greater lipophilicity and longer inhibitory action on cholinesterase (ChE) activity than the parent compound. Following single dose administration of 5 mg/kg heptyl-Phy i.m., maximal whole brain acetylcholinesterase (AChE) inhibition (82%) if reached at 60 min. Inhibition of plasma BuChE butyrylcholinesterase (BuChE) remains close to the steady state level (60%) between 120 and 360 min. At 360 min, whole brain AChE activity is still 67% inhibited compared to controls. Inhibition of AChE activity displays brain regional differences which are more significant at 360 min. At this time point, AChe activity in cerebellum is only 40% inhibited while frontal cortex and medial septum are still 80% inhibited. Increases in acetylcholine (ACh) levels also show regional differences, however, there is no direct relationship between AChE inhibition and ACh increase. The electrically evoked [3H]ACh release in cortical slices was inhibited only by the highest concentration of heptyl-Phy tested (10(-4) M). At this concentration ChE activity was 97% inhibited in vitro. In conclusion, our results demonstrate that heptyl-Phy compares favorably to other reversible cholinesterase inhibitors (ChEI), particularly to Phy as far as producing a more long-lasting inhibition of AChE and a more prolonged increase of ACh in brain with less severe side effects. Therefore, it represents an interesting candidate for cholinomimetic therapy of Alzheimer disease (AD).
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PMID:The effect of heptyl-physostigmine, a new cholinesterase inhibitor, on the central cholinergic system of the rat. 260 62

The microbiological transformation of N-heptyl physostigmine (L-693,487) (1), a semisynthetic physostigmine cholinesterase inhibitor, was investigated using Verticillium lecanii MF 5713 (ATCC 74148), Acremonium sp MF 5723 (ATCC 74164) and Actinoplanes sp MA 6559 (ATCC 53771). Nine microbial metabolites (2-10) of 1 were isolated and purified using reversed-phase HPLC. The structures of the metabolites were established using spectroscopic techniques including MS and NMR. Some of the microbial metabolites were identical to metabolites present in urine of a dog treated with 1.
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PMID:Microbial transformation of N-heptyl physostigmine, a semisynthetic alkaloid inhibitor of cholinesterase. 757 61

We examined whether cholinesterase inhibitors (ChEI) could alter the release of amyloid precursor protein (APP) from superfused brain cortical slices of the rat. Three ChEI, both reversible and irreversible, were tested for their ability to enhance the release of nonamyloidogenic soluble derivatives (APPs). These included: physostigmine (PHY), heptyl-physostigmine (HEP) and 2,2-dichloro-vinyldimethyl phosphate (DDVP), at concentrations producing cholinesterase (ChE) inhibition ranging from 5% to 95%. All three ChEI elevated APPs release significantly above control levels. Electrical field stimulation significantly increased the release of APPs within 50 min. Similar increase was observed after muscarinic receptor stimulation with bethanechol (BETHA). Tetrodotoxin (TTX) completely blocked the effect of electrical stimulation. These findings suggest that administration of ChEI to Alzheimer's disease (AD) patients may have a neuroprotective effect by activating normal APP processing.
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PMID:Cholinesterase inhibitors increase secretion of APPs in rat brain cortex. 760 15

The effects of inhibition of cholinesterase on levels of extracellular acetylcholine in the striatum of freely moving rats, were investigated with a microdialysis technique. Acetylcholine could not be detected under basal conditions. However, local administration of the cholinesterase inhibitors neostigmine, physostigmine or heptyl-physostigmine through the dialysis probe elevated acetylcholine above the detection limit. Complex interactions between the effects of local and systemic cholinesterase inhibitors were observed. Whereas systemic administration of physostigmine or heptylphysostigmine alone increased the extracellular concentration of acetylcholine, they also caused acetylcholine to fall below baseline levels, which had been established by perfusing physostigmine through the microdialysis probe. These studies demonstrate the ability of local inhibition of cholinesterase to affect the observation of effects of systemically-administered drugs.
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PMID:Cholinesterase inhibitor effects on extracellular acetylcholine in rat striatum. 847 26

In this study we examined the question whether cholinesterase inhibitors (ChEI) could alter the release of amyloid precursor protein (APP) from superfused brain cortical slices of the rat following electrical as well as pharmacological stimulation with bethanechol (BETHA). Three ChEI, both reversible and irreversible were tested for their ability to enhance the release of non-amyloidogenic soluble derivatives (APPs). These included physostigmine (PHY), heptyl-physostigmine (HEP) and 2,2-dichlorovinyldimethyl phosphate (DDVP), at the concentrations producing cholinesterase (ChE) inhibition ranging from 5% to 95%. All three ChEI elevated APPs release significantly above control levels. Electrical field stimulation significantly increased the release of APPs within 50 min. Similar increase was observed after muscarinic receptor stimulation with BETHA. Tetrodotoxin (TTX) completely blocked the effect of electrical stimulation. These findings suggest that long-term administration of ChEI to Alzheimer's disease (AD) patients may have a neuroprotective effect by activating normal APP processing and decreasing the formation of amyloidogenic APP products.
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PMID:The effect of cholinesterase inhibitors on the secretion of APPS from rat brain cortex. 862 19

The potency of a series of anticholinesterase (anti-ChE) agents and serotonin-related amines as inhibitors of the aryl acylamidase (AAA) activity associated with electric eel acetylcholinesterase (AChE) (EC 3.1.1.7) and horse serum butyrylcholinesterase (BuChE) (EC 3.1.1.8) was examined and compared with the potency of the same compounds as ChE inhibitors. Neostigmine, physostigmine, BW 284C51, (+/-)-huperzine A, E2020, tacrine, edrophonium and heptyl-physostigmine were, in that order, the most potent in inhibiting eel AChE-associated AAA activity, their inhibitor constant (Ki) values being in the range 0.02-0.37 microM. The rank order of the same compounds as AChE inhibitors basically paralleled that of AAA, although they were in general stronger on AChE (Ki = 0.001-0.05). The peripheral anionic site inhibitors propidium and gallamine were inactive on AChE-associated AAA. Serotonin and its derivatives were slightly stronger on AAA (Ki = 7.5-30 microM) than on AChE (Ki = 20-140 microM). Tacrine (IC50 = 0.03 microM), diisopropylfluorophosphate (IC50 = 0.04 microM), heptyl-physostigmine (IC50 = 0.11 microM), physostigmine (IC50 = 0.15 microM) and tetra-iso-propylpyrophosphoramide (iso-OMPA) (IC50 = 0.75 microM) were the most potent in inhibiting horse serum BuChE-associated AAA activity. Serotonin and related amines were very weak on BuChE-associated AAA activity. These results indicate that the inhibitory potencies of the active site anti-ChE agents on the AAA activity associated with eel AChE and horse serum BuChE are closely correlated with their action on the respective ChE. In addition, the efficacy of tacrine, E2020, heptyl-physostigmine and (+/-)-huperzine A in the treatment of Alzheimer's disease is unlikely to be related to the action of these drugs on ChE-associated AAA.
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PMID:Inhibition of cholinesterase-associated aryl acylamidase activity by anticholinesterase agents: focus on drugs potentially effective in Alzheimer's disease. 963 11

Eptastigmine (heptyl-physostigmine tartrate) is a carbamate derivative of physostigmine in which the carbamoylmethyl group in position 5 of the side chain has been substituted with a carbamoylheptyl group. In vitro and ex vivo results suggest that eptastigmine has a long-lasting reversible brain cholinesterase (i.e., acetylcholinesterase and butyryl-cholinesterase) inhibitory effect. When administered in vivo to rodents by various routes, eptastigmine inhibits cerebral acetylcholinesterases (AChE) and increases acetylcholine (Ach) brain levels by 2500-3000%, depending on the dose. This effect leads to an improvement in the cerebral blood flow in the ischemic brain, excitatory and inhibitory effects on the gastrointestinal tract and to a protection from acute soman and diisopropylfluorophosphate intoxication. Eptastigmine, by either acute or chronic administration, has been found to have memory enhancing effects in different species of normal, aged and lesioned animals. It also restored to normal the age-related increase of EEG power without affecting spontaneous motor activity. Clinical investigations on more than 1500 patients with Alzheimer's disease demonstrated that eptastigmine significantly improved cognitive performance (as assessed by the cognitive subscale of the Alzheimer's Disease Assessment Scale) as compared with placebo. This improvement was most evident in patients with more severe cognitive impairment at the baseline. The relationship between patient performance and average steady-state AChE inhibition was described by an inverted U-shaped dose-response curve. Pharmacokinetic studies have revealed that after oral administration eptastigmine is rapidly distributed to the tissues and readily enters the CNS, where it can be expected to inhibit AChE for a prolonged period. Eptastigmine is generally well tolerated and the majority of adverse events (cholinergic) were mild to moderate in intensity. However, the adverse hematologic (granulocytopenia) effects reported in two studies have resulted in the suspension of further clinical trials.
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PMID:Eptastigmine: ten years of pharmacology, toxicology, pharmacokinetic, and clinical studies. 1183 Jul 55

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