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

The cholinesterases are serine hydrolases that show no global similarities in sequence with either the trypsin or the subtilisin family of serine proteases. The cholinesterase superfamily includes several esterases with distinct functions and other proteins devoid of the catalytic serine and known esterase activity. To identify the residues involved in catalysis and conferring specificity on the enzyme, we have expressed wild-type Torpedo acetylcholinesterase (EC 3.1.1.7) and several site-directed mutants in a heterologous system. Mutation of serine-200 to cysteine results in diminished activity, while its mutation to valine abolishes detectable activity. Two conserved histidines can be identified at positions 425 and 440 in the cholinesterase family; glutamine replacement at position 440 eliminates activity whereas the mutation at 425 reduces activity only slightly. The assignment of the catalytic histidine to position 440 defines a rank ordering of catalytic residues in cholinesterases distinct from trypsin and subtilisin and suggests a convergence of a catalytic triad to form a third, distinct family of serine hydrolases. Mutation of glutamate-199 to glutamine yields an enzyme with a higher Km and without the substrate-inhibition behavior characteristic of acetylcholinesterase. Hence, modification of the acidic amino acid adjacent to the serine influences substrate association and the capacity of a second substrate molecule to affect catalysis.
 ...
PMID:Mutagenesis of essential functional residues in acetylcholinesterase. 221 85

Male rats were treated bi-weekly by gavage with the equivalent of 0.5 mg X kg-1 X day-1 technical diazinon for up to 28 weeks. The animals were sacrificed at specific time intervals (7, 14 and 28 weeks) and compared with age matched controls. Blood and brain tissues were analysed for cholinesterase activity and for concentrations of catecholamines and amino acids. Only Plasma cholinesterase was significantly reduced by the low level pesticide treatment. Erythrocyte acetyl cholinesterase and brain acetyl cholinesterase were unchanged while during the same period several putative brain neurotransmitters aspartate, glutamate (excitatory) and taurine as well as GABA (inhibitory) were significantly reduced in experimental vs control animals whereas no significant changes occurred between weeks in similarly fed animals. Blood serotonin was significantly elevated but no other blood or brain monoamine was significantly altered. Overt manifestations of brain toxicity observed were not apparent in experimental compared with control animals save for a significant decrease in growth observed in experimental animals. It was concluded that oral administration of low doses of diazinon exerts significant effects other than as an anticholinesterase on important brain neurotransmitters even at the low dose levels administered in this study.
 ...
PMID:Effects of chronic intake of diazinon on blood and brain monoamines and amino acids. 287 63

Addition of the acetylcholinesterase inhibitor 1,2,3,4-tetra-9-hydroaminoacridine (THA) at 1-3 mM markedly reduced the neuronal cell loss that otherwise followed brief exposure of murine cortical cell cultures to 500 microM N-methyl-D-aspartate (NMDA). This novel antagonism was selective for NMDA receptor-mediated toxicity, as it extended to glutamate toxicity but not to quisqualate toxicity, and was THA concentration-dependent between 100 microM and 3 mM, with IC50 approximately 500 microM. The antagonism was probably not due to enhancement of endogenous cholinergic action, as it was not mimicked by acetylcholine, carbachol, or bethanechol; rather, it likely reflected a recently described interaction of THA with the phencyclidine receptor. Exploration of structural specificity revealed some partial neuron-protection with high concentrations of other cholinesterase inhibitors--physostigmine, neostigmine, and edrophonium, but not the structurally related potassium channel blocker, 4-aminopyridine. Further examination of correlations between THA-like structure, and neuron-protective activity, may provide useful insights in the development of new antagonists of NMDA receptor-mediated neurotoxicity.
 ...
PMID:Tetrahydroaminoacridine selectively attenuates NMDA receptor-mediated neurotoxicity. 290 64

Growing rats were fed ad libitum soy protein isolate (SPI) or its peptic (SPI-P) or tryptic digest (SPI-T) for a month and their sera were examined for cholesterol and triglyceride levels and enzyme activities such as cholinesterase, glutamate-pyruvate transaminase (GPT) and alkaline phosphatase. The rats fed SPI-P or SPI-T were inferior in growth to those fed SPI. Similarly, the serum glyceride level was lower in the SPI-P and SPI-T groups than in the SPI group. On the other hand, a significant difference was found in the serum cholesterol level between the SPI-P and SPI or SPI-T groups but not between the SPI and SPI-T groups. A similar tendency was observed for serum GPT and alkaline phosphatase activities, although there were no significant differences among dietary groups in small intestinal enzyme activities. As for the atherogenic index being a risk factor inducing atherosclerosis, the order of its value was SPI-P less than SPI less than SPI-T.
 ...
PMID:Effect of feeding peptic digest of soy protein isolate on rat serum cholesterol. 310 Jul 38

Studied was the enzyme constellation, resp., activity of alkaline phosphatase (AP), glutamate-oxaloacetic transaminase (GOT), glutamate-pyruvate transaminase (GPT), aldolase (ALD), leucin-aminopeptidase (LAP), cholinesterase (CE), creatine phosphokinase (CPK), lactate dehydrogenase (LDH), ornithine carbamoyltransferase (OCT), and guanase (G) in a total of 360 clinically normal and lactating and dry cows of the Black-and-White and Simmental crossbreeds. Characteristic quantitative changes were found with GOT, GPT, ALD, LDH, and CPK both over the dry period and over the entire period of lactation. The activity of LAP, AP, OCT, and G was not influenced by the functional status of the animals. In the course of the analyses there were changes in the serum ALD, CE, and GOT, associated with the breed. The enzymes referred to were studied with a view to establishing their normal parameters needed for the practice as the base to demonstrate preclinical disturbances in individual organs and tissues of the cows during pregnancy and the puerperium.
 ...
PMID:[Enzyme constellation in cows of the Simmental crossbreed and Black Pied breed during the dry period and lactation]. 367 21

It is well established that the putative excitatory neurotransmitters, glutamate (Glu) and aspartate (Asp), are neurotoxins that have the potential of destroying central neurons by an excitatory mechanism. Kainic acid (KA), a rigid structural analog of Glu, powerfully reproduces the excitatory neurotoxic (excitotoxic) action of Glu on central neurons and, in addition, causes sustained limbic seizures and a pattern of seizure-linked brain damage in rats that closely resembles that observed in human epilepsy. In the course of studying the seizure-related brain damage syndrome induced by KA, we observed that a similar type of brain damage occurs as a consequence of sustained seizure activity induced by any of a variety of methods. These included intraamygdaloid or supradural administration of known convulsants such as bicuculline, picrotoxin and folic acid, or systemic administration of lithium and cholinergic agonists or cholinesterase inhibitors that have not commonly been viewed as convulsants. We have further observed that this type of brain damage can be reproduced in the hippocampus by persistent electrical stimulation of the perforant path, a major excitatory input to the hippocampus that is thought to use Glu as transmitter. It is a common feature of all such neurotoxic processes that the acute cytopathology resembles the excitotoxic type of damage induced by Glu or Asp, which is acute swelling of dendrites and vacuolar degeneration of neuronal soma, without acute changes in axons or axon terminals. We have found that the seizure-brain damage syndrome induced by cholinergic agents can be prevented by pretreatment with atropine and that the syndrome induced by any of the above methods, cholinergic or noncholinergic, can be either prevented or aborted respectively by either pre-or posttreatment with diazepam. Our findings in experimental animals may be summarized in terms of their potential relevance to human epilepsy as follows. Sustained complex partial seizure activity consistently results in cellular damage if allowed to continue for longer than 1 hr. Hippocampal, or Ammon's horn, sclerosis is the primary pathological result. It may be a priority goal, therefore, in the management of human epilepsy to control such seizure activity within very narrow limits. This proposal is discussed in terms of three major transmitter systems that may be involved; cholinergic, GABAergic, and glutamergic/aspartergic. The cholinergic system may play a role in generating or maintaining this type of seizure activity, and anticholinergics may protect against it provided they are given prior to commencement of behavioral seizures.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Excitotoxic mechanisms of epileptic brain damage. 370 27

Adult male rats have lower serum cholinesterase activity levels than adult female rats and hypophysectomized male rats have higher activity levels than sham-operated males (similar to control females). GH administered to hypophysectomized male rats abolishes the effect of hypophysectomy on serum cholinesterase. Adult male rats treated neonatally with monosodium L-glutamate to induce arcuate nucleus lesions of the hypothalamus have higher serum cholinesterase activities and decreased serum GH concentrations. GH administered to these male rats results in decreased serum cholinesterase activities. These experiments demonstrate that GH is a negative modulator of serum cholinesterase in the male rat.
 ...
PMID:Growth hormone modulates serum cholinesterase. 394 77

The tonic flexor muscles of the crayfish abdomen respond with a large depolarizing potential to acetylcholine iontophoresed onto a neuromuscular Junction, but not to glutamate. Excitatory junctional potentials are abolished by d-tubocurarine and enhanced by a cholinesterase inhibitor. The membrane is depolarized and the junctional potentials are desensitized by excess acetylcholine. Thus acetylcholine is thought to be the neuromuscular transmitter.
 ...
PMID:Acetylcholine: possible neuromuscular transmitter in Crustacea. 433 82

1. Studies of the synthesis and release of radioactive acetylcholine in rat brain-cortex slices incubated in Locke-bicarbonate-[U-(14)C]glucose media, containing paraoxon as cholinesterase inhibitor, revealed the following phenomena: (a) dependence of K(+)-or protoveratrine-stimulated acetylcholine synthesis and release on the presence of Na(+) and Ca(2+) in the incubation medium, (b) enhanced release of radioactive acetylcholine by substances that promote depolarization at the nerve cell membrane (e.g. high K(+), ouabain, protoveratrine, sodium l-glutamate, high concentration of acetylcholine), (c) failure of acetylcholine synthesis to keep pace with acetylcholine release under certain conditions (e.g. the presence of ouabain or lack of Na(+)). 2. Stimulation by K(+) of radioactive acetylcholine synthesis was directly proportional to the external concentration of Na(+), but some synthesis and release of radioactive acetylcholine occurred in the absence of Na(+) as well as in the absence of Ca(2+). 3. The Na(+) dependence of K(+)-stimulated acetylcholine synthesis was partly due to suppression of choline transport, as addition of small concentrations of choline partly neutralized the effect of Na(+) lack, and partly due to the suppression of the activity of the Na(+) pump. 4. Protoveratrine caused a greatly increased release of radioactive acetylcholine without stimulating total radioactive acetylcholine synthesis. Protoveratrine was ineffective in the absence of Ca(2+) from the incubation medium. It completely blocked K(+) stimulation of acetylcholine synthesis and release. 5. Tetrodotoxin abolished the effects of protoveratrine on acetylcholine release. It had blocking effects (partial or complete) on the action of high K(+), sodium l-glutamate and lack of Ca(2+) on acetylcholine synthesis and release. 6. Unlabelled exogenous acetylcholine did not diminish the content of labelled tissue acetylcholine, derived from labelled glucose, suggesting that no exchange with vesicular acetylcholine took place. In the presence of 4mm-KCl it caused some increase in the release of labelled acetylcholine. 7. The barbiturates (Amytal, pentothal), whilst having no significant effects on labelled acetylcholine synthesis in unstimulated brain except at high concentration (1mm), diminished or abolished (at 0.25 or 0.5mm) the enhanced release of acetylcholine, due to high K(+) or lack of Ca(2+). The fall in tissue content of acetylcholine, due to lack of Ca(2+), was diminished or abolished by pentothal (0.25 or 0.5mm) or Amytal (0.25mm).
 ...
PMID:Control of synthesis and release of radioactive acetylcholine in brain slices from the rat. Effects of neurotropic drugs. 472 96

It is generally believed that neural transmission in the central nervous systems of insects is cholinergic, on the basis of secondary evidence: the presence of cholinesterase, and sensitivity of a nonsynaptic region of the neuron, its cell body, to iontophoresed acetylcholine. In the present work a preparation has been developed which takes advantage of the availability of identified motor neurons in the locust metathoracic ganglion with known 3-dimensional geometry of dendritic fields. These neurons transmit at their peripheral neuromuscular junctions with glutamate. The fast extensor tibiae motor neuron also makes excitatory central connections onto its functional antagonists the flexor tibiae motor neurons. Unless Dale's principle is contravened, transmission at these central synapses should also be glutamatergic. This transmission onto flexor motor neurons was found to be attenuated 70% by a glutamatergic blocker. Glutamate iontophoresed into selected areas of neuropil into which the motor neurons have dendritic branches caused the neurons to be depolarized, in a dose-dependent manner. Individual motor neurons were directly excited to spike with suprathreshold iontophoretic current. With long durations of release they were desensitized, but recovered quickly with rest. The data provide evidence that central transmission onto motor neurons in the locust metathoracic ganglion is glutamatergic.
 ...
PMID:Glutamatergic central nervous transmission in locusts. 609 46


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>