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: EC:3.1.1.7 (acetylcholinesterase)
28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of t-butylhydroperoxide (tBHP), its alkoxyl radical (tBuO.) and its peroxyl radical (tBuOO.) in model systems and on red blood cells were studied. Glyceraldehyde-3-phosphate dehydrogenase was strongly inhibited by tBHP via a direct reaction of the hydroperoxide with an essential sulfhydryl group in the enzyme molecule. Several other enzymes were unaffected by tBHP. Alcohol dehydrogenase was strongly inhibited by tBuO. but was much less sensitive to tBuOO.. Lysozyme, lactate dehydrogenase and trypsin, on the other hand, were very sensitive to the peroxyl and not, or much less, to the alkoxyl radical, whereas acetylcholinesterase was very sensitive to both radicals. tBuOO. caused covalent binding of tryptophan, tyrosine, histidine and methionine to serum albumin. The corresponding alkoxyl radical was ineffective in this respect. Conversely, tBuO. caused peroxidation of linolenic acid, whereas tBuOO. did not. Incubation of human erythrocytes with tBHP caused lipid peroxidation and K+ leakage. Both effects were caused by tBHP-derived radicals generated in a reaction of the hydroperoxide with hemoglobin. With radical scavengers it was possible to dissociate tBHP-induced lipid peroxidation and K+ leakage, demonstrating that these two processes are not causally related. Experimental results indicate that tBuO. causes lipid peroxidation, whereas tBuOO. is responsible for K+ leakage.
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PMID:Inhibition of enzymes and oxidative damage of red blood cells induced by t-butylhydroperoxide-derived radicals. 293 Jul 85

Cholinesterases (ChEs) are highly polymorphic proteins, capable of rapidly hydrolyzing the neurotransmitter acetylcholine and involved in terminating neurotransmission in neuromuscular junctions and cholinergic synapses. In an attempt to delineate the structure and detailed properties of the human protein(s) and the gene(s) coding for the acetylcholine hydrolyzing enzymes, a human cDNA coding for ChE was isolated by use of oligodeoxynucleotide screening of cDNA libraries. For this purpose, a method for increasing the effectiveness of oligonucleotide screening by introducing deoxyinosine in sites of codon ambiguity and using tetramethyl-ammonium salt washes to remove false-positive hybrids was employed. The resulting isolated 2.4-kilobase (kb) cholinesterase cDNA sequences encode for the entire mature secretory protein, preceded by an N-terminal signal peptide. The human ChE primary sequence shows almost no homology to other serine hydrolases, with the exception of a hexapeptide at the active site. In contrast, it displays extensive homology with acetylcholinesterase form Torpedo californica and Drosophila melanogaster as well as with bovine thyroglobulin. These extensive homologies probably suggest the need of the entire coding sequence for the physiological function(s) fulfilled by the enzyme and further suggest a common, unique, ancestral gene for these cDNAs. In turn, the cDNA was used as a probe to isolate genomic DNA sequences for the 5'-region of the human ChE gene. The genomic DNA fragment encoding part of the 5'-region of ChEcDNA was detected by DNA blot hybridization, enriched 70-fold by gel electrophoresis and electroelution, cloned in lambda phage and isolated. Sequencing of the cloned DNA revealed that it did indeed include part of the 5'-region of ChEcDNA, starting at an adjacent 5'-position to the nucleotides coding for the initiator methionine, and ending with an EcoRI restriction site inherent to the ChEcDNA sequence. The isolated fragment of the human cholinesterase gene is currently employed to complete the structural characterization of this and related genes.
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PMID:Molecular biological search for human genes encoding cholinesterases. 307 58

Acetylcholinesterase (AChE, EC 3.1.1.7) purified from the electric organ of eel possesses a protease activity resembling that of a neuropeptide processing enzyme. To examine whether any mammalian AChEs possess a similar protease activity, the enzyme was purified, 110,000-fold from foetal bovine serum. Purified serum AChE cleaved 2 synthetic peptide substrates in a manner resembling the combined actions of trypsin-like and carboxypeptidase B-like enzymes. A synthetic fragment of preproenkephalin A (residues 97-107) containing a complete methionine-enkephalin sequence was cleaved by serum AChE to yield free methionine-enkephalin. The carboxypeptidase action of AChE was weakly stimulated by the presence of 100 microM CoCl2 suggesting the requirement of a metal ion for complete activity. The results support the hypothesis that in many tissues AChE may act as a neuropeptide processing enzyme.
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PMID:Serum acetylcholinesterase possesses trypsin-like and carboxypeptidase B-like activity. 322 17

Cholinergic neurons are unique among cells since they alone utilize choline not only as a component of major membrane phospholipids, such as phosphatidylcholine (Ptd-Cho), but also as a precursor of their neurotransmitter acetylcholine (AcCho). It has been hypothesized that choline-phospholipids might serve as a storage pool of choline for AcCho synthesis. The selective vulnerability of cholinergic neurons in certain neurodegenerative diseases (e.g., Alzheimer disease, motor neuron disorders) might result from the abnormally accelerated liberation of choline (to be used as precursor of AcCho) from membrane phospholipids, resulting in altered membrane composition and function and compromised neuronal viability. However, the proposed metabolic link between membrane turnover and AcCho synthesis has been difficult to demonstrate because of the heterogeneity of the preparations used. Here we used a population of purely cholinergic cells (human neuroblastoma, LA-N-2), incubated in the presence of [methyl-3H]methionine to selectively label PtdCho synthesized by methylation of phosphatidylethanolamine, the only pathway of de novo choline synthesis. PtdCho, purified by thin-layer chromatography, contained 90% of the label incorporated into lipids, demonstrating that LA-N-2 cells contained phosphatidylethanolamine N-methyltransferase. Three peaks of radioactive material that cochromatographed with authentic Ac-Cho, choline, and phosphocholine were observed when the water-soluble metabolites of the [3H]PtdCho were purified by high-performance liquid chromatography. Their identities were ascertained by subjecting them to enzymatic modifications with acetylcholinesterase, choline oxidase, and alkaline phosphatase, respectively. The results demonstrate that AcCho can be synthesized from choline derived from the degradation of endogenous PtdCho formed de novo by methylation of phosphatidylethanolamine.
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PMID:Synthesis of acetylcholine from choline derived from phosphatidylcholine in a human neuronal cell line. 347 63

A cDNA library from human basal ganglia was screened with oligonucleotide probes corresponding to portions of the amino acid sequence of human serum cholinesterase (EC 3.1.1.8). Five overlapping clones, representing 2.4 kilobases, were isolated. The sequenced cDNA contained 207 base pairs of coding sequence 5' to the amino terminus of the mature protein in which there were four ATG translation start sites in the same reading frame as the protein. Only the ATG coding for Met-(-28) lay within a favorable consensus sequence for functional initiators. There were 1722 base pairs of coding sequence corresponding to the protein found circulating in human serum. The amino acid sequence deduced from the cDNA exactly matched the 574 amino acid sequence of human serum cholinesterase, as previously determined by Edman degradation. Therefore, our clones represented cholinesterase (EC 3.1.1.8) rather than acetylcholinesterase (EC 3.1.1.7). It was concluded that the amino acid sequences of cholinesterase from two different tissues, human brain and human serum, were identical. Hybridization of genomic DNA blots suggested that a single gene, or very few genes, coded for cholinesterase.
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PMID:Brain cDNA clone for human cholinesterase. 347 99

The effect on enkephalin degradation of the four highly potent organophosphorus anticholinesterases, soman, sarin, tabun and DFP was studied in synaptosomal fractions of rat brain striata. None of the agents effected any of the enkephalin degrading enzymes, the puromycin sensitive aminopeptidase, the p-hydroxymercurybenzoate (p-HMB) sensitive dipeptidyl aminopeptidase or the phosphoramidon sensitive enkephalinase. Furthermore, no peptidase function of acetylcholinesterase was found, when Leu-enkephalin was used as substrate at low concentrations (27 nM). Supporting the in vitro data, no difference was obtained in the striatal levels of Met- and Leu-enkephalin between rats receiving a high single dose of soman and controls. The results show that the analgesic effect of anticholinesterases are more likely due to mechanisms other than inhibition of enkephalin degradation.
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PMID:Organophosphorus anticholinesterases do not mediate analgesia through inhibition of enkephalin degradation. 351 93

The mesostriatal projections from the dopamine-containing cells groups A8, A9 and A10 have been studied in the cat in relation to the histochemical compartments known to exist in the striatum. In order to do this, we made stereotaxic injections in the substantia nigra of either [3H]proline-[3H]leucine, [35S]methionine, wheat germ agglutinin-horseradish peroxidase, or the two last tracers combined, and compared the location of anterograde labeling in the striatum to the locations of striosomes and extrastriosomal matrix identified by their low or high content, respectively, of the enzyme acetylcholinesterase. A discrete innervation of dorsolateral striosomes by a caudal densocellular subdivision of the substantia nigra pars compacta was found. This densocellular zone of the pars compacta was readily identifiable in sections stained for tyrosine hydroxylase-like immunoreactivity and corresponded to the uniquely acetylcholinesterase-poor zone detected in the substantia nigra pars compacta in serially adjacent sections stained for this enzyme. Selective anterograde labeling of the extrastriosomal matrix occurred in cases with injection sites centered in cell group A8. Tracer deposits in cell group A10 also elicited a preferential labeling of the extrastriosomal matrix, but this innervation was sparse compared to the prominent labeling of fibers in the ventral striatum. An almost exclusive innervation of caudal and ventral striosomes of the head of the caudate nucleus occurred after a deposit of tracer in the pars lateralis of the substantia nigra. Mixed labeling of striosomes and matrix occurred with injection sites centered in the rostral, cell-sparse part of the pars compacta of the substantia nigra. Clusters of tyrosine hydroxylase-immunoreactive neurons within this zone, most likely representing finger-like extensions of the caudal densocellular zone of the pars compacta, might have accounted for part of the striosomal labeling in these cases. We conclude that different subdivisions of the A8-A9-A10 dopamine-containing cell complex of the cat's mesencephalon project preferentially to striosomes or to extrastriosomal matrix. On this basis we suggest that there may be different functional channels in the mesostriatal projection, including, from cell group A8, a channel providing dopaminergic modulation of sensorimotor processing in the striatal matrix, and, from the densocellular zone of the substantia nigra pars compacta, a channel leading to limbic-related mechanisms represented in the striosomal system.
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PMID:Subdivisions of the dopamine-containing A8-A9-A10 complex identified by their differential mesostriatal innervation of striosomes and extrastriosomal matrix. 368 62

The regulation of acetylcholinesterase (AChE) in the human brain has been approached at the level of the genome. A human DNA fragment of the length of 2 600 nucleotides was isolated from a human genomic library. This DNA fragment, designated Huache 1R, bears sequence homology to a DNA fragment from the vicinity of the Drosophila Ace region, that controls AChE biosynthesis (Soreq et al., 1985). Polyadenylated RNA from human brain was hybridized with Huache 1R DNA, eluted and microinjected into Xenopus oocytes in the absence or presence of 35S-methionine. The hybrid-selected RNA induced the biosynthesis of active AChE in the oocytes. Immunoprecipitation of labeled oocyte proteins with monoclonal antibodies against human AChE (Fambrough et al., 1982) resulted in the selective precipitation of an 85 000 Mr induced protein, with a similar size to that of the subunit of human brain AChE. These findings show that the Huache 1R DNA hybridizes with human brain AChEmRNA. The Huache 1R fragment was employed to select a collection of 12 homologous phage-cloned human genomic DNA fragments with different restriction patterns. A cDNA library in pBR322 plasmids was prepared from polyadenylated RNA isolated from embryonic brain. This library was also screened using labeled Huache 1R DNA as a probe. Forty-two out of 37 000 colonies were found positive. Several of these were selected for further analyses. Hybrid-selection experiments using DNA from two of the positive plasmid clones showed that these cDNAs also hybridize with AChEmRNA from human brain. DNA blot hybridization revealed homologies between these cDNA chains and the original Huache 1 fragment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of acetylcholinesterase gene(s) in the human brain: molecular cloning evidence for cross-homologous sequences. 393 15

Axonal transport was studied by several techniques in the sciatic nerves of adult male Sprague-Dawley rats with neuropathy induced by treatment with p-bromophenylacetylurea (BPAU) in dimethylsulfoxide solution. Control rats were treated with solvent alone. BPAU, 200 mg/kg, induced severe muscle weakness in the hindlimbs, beginning after a latent period of 1 week and progressing to near total paralysis by 2 weeks. Axonal transport of the endogenous transmitter enzymes, acetylcholinesterase, dopamine-beta-hydroxylase and choline acetyltransferase, was normal at both 2 and 15 days after administration of BPAU, as judged by the accumulation of enzyme activity above and below a set of double ligatures on the sciatic nerve. The velocity of fast anterograde transport of [35S] methionine labeled protein was also unaffected by BPAU. However, 4 abnormalities of transport were detected in BPAU- treated rats: (1) doubling of the time for initiation of fast anterograde transport after precursor injection in the dorsal root ganglion, (2) 25% fall in the velocity of slow axonal transport of [3H] leucine labeled protein, (3) 30% reduction in the proximal accumulation of fast transported labeled protein in ligated nerve, 8-30 h after injection of precursor, and (4) 50-60% reduction in distal accumulation of "early arriving" labeled protein, 8-14 h after precursor injection. The last abnormality, suggesting an impaired turnaround from anterograde to retrograde transport, was detected as soon as 2 days after BPAU administration. The turnaround abnormality was correlated with the severity of neuropathy as estimated by independent clinical scoring in the group of rats treated with 200 mg/kg of drug. However, further studies showed that turnaround was delayed even in rats treated with doses as low as 50 mg/kg, which never led to clinically evident neuropathy. Nevertheless it is proposed that the abnormalities of transport play a role, as yet undefined, in the distal axonopathy caused by BPAU.
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PMID:Axonal transport of enzymes and labeled proteins in experimental axonopathy induced by p-bromophenylacetylurea. 617 26

Effects of chicken interferon on the differentiation of chicken skeletal muscle in vitro were examined. Continuous treatment of chicken myoblast culture with 200 IU/ml of interferon (10 IU/mg protein) resulted in significant inhibition of cell fusion and subsequent myotube formation. However, treatment of myoblast culture with 2 to 200 IU/ml of interferon increased activities of creatine kinase and myokinase in 4- or 6-day cultured muscle cells in a dose-dependent fashion. The effect of interferon on myokinase was less than on creatine kinase. Three-fold increase in creatine kinase activity induced by interferon was not accompanied by the accelerated transition of creatine kinase isozyme from BB- to MM-type. On the other hand, accumulation of acetylcholinesterase in interferon-treated cells at day 6 was suppressed to nearly half the level of control cells. Rates of actin and myosin synthesis in 4-day cultures estimated by pulse-labelling with [35S]methionine were also suppressed to 85% of control cultures. However, a proportion of 35S-labelled actin and myosin in labelled proteins associated with glycerinated cells was not changed by interferon treatment. These results indicate that partially purified interferon has multiple effects on the process of the myogenic differentiation of chicken myoblast in vitro.
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PMID:Multiple effects of interferon on myogenesis in chicken myoblast cultures. 620 92


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