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)

The histogenesis of Ewing's sarcoma remains unknown. Recent studies have suggested a relationship to an unusual form of childhood neural tumor, often termed peripheral neuroepithelioma or primitive neuroectodermal tumor. Five Ewing's sarcoma tumor cell lines were studied for evidence of a neural phenotype. Under normal culture conditions, no morphologic evidence of neural differentiation was detected. Treatment with retinoic acid, an agent known to induce marked neural differentiation in neuroblastoma, had no demonstrable effect. Treatment with either cyclic AMP or TPA, in contrast, induced pronounced morphologic evidence of neural differentiation. Cells developed elongate processes with varicosities by phase-contrast microscopy; filaments, microtubules, and uraniffin-positive dense core granules were present by electron microscopy. Three neural markers (NSE, NFTP, and cholinesterase) were absent or barely detectable in untreated cells, but became abundant after treatment. These results provide convincing evidence for a neural histogenesis of Ewing's sarcoma. They also suggest a close relationship between Ewing's sarcoma and peripheral neural tumors, including the chest wall tumor described by Askin, but only a distant relationship to neuroblastoma.
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PMID:Experimental evidence for a neural origin of Ewing's sarcoma of bone. 303 30

The glial cell contents of S100 protein, 2',3'-cyclic AMP, 3'-phosphohydrolase (CNP), isoenzyme II of carbonic anhydrase (CAII) and butyrylcholinesterase (BuChE) were biochemically determined in the cerebellum and cerebrum of the reeler mutant mouse. Astrocytes and oligodendrocytes, shown by this study, contain abnormal amounts of these components. The CAII concentration was significantly increased in the particulate fraction of the reeler cerebellum and cerebrum (by 50% and 89%, respectively). The BuChE specific activity was greatly increased in the reeler, by 120% for cerebellum and by 40% in cerebrum. In contrast, the S100 protein concentration was reduced in the reeler cerebellum by 40% and by 25% in cerebrum, while the CNP specific activity increased by 30% in the reeler cerebellum. In addition, the glial cell distribution was studied by immunohistological techniques with antibodies directed against S100 protein, glial fibrillary acidic protein (GFA) and CAII. Apparently the density of glial cells is not significantly affected. However, the Golgi epithelial cells were usually abnormally placed and their Bergmann fibres were less well developed.
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PMID:Glial cell markers in the reeler mutant mouse: a biochemical and immunohistological study. 625 45

Cholinesterase inhibitors are known to potentiate the effects of acetylcholine (ACh) and vagal stimulation on the myocardium. The studies presented here demonstrate that cholinesterase inhibitors (ChEI) also have activity in isolated atria in the absence of extrinsic cholinergic stimulation and that, depending on the ChEI, either indirect stimulation or direct blockade of cardiac muscarinic receptors can occur. Muscarinic agonists inhibit cyclic AMP formation in atria and the ChEIs physostigmine, neostigmine and echothiophate likewise produce a marked attenuation of isoproterenol-stimulated cyclic AMP accumulation The effect of physostigmine appears to result from muscarinic receptor activation by endogenous ACh as it is blocked by atropine. In contrast, the ChEI ambenonium does not stimulate but instead blocks muscarinic receptors coupled to cyclic AMP accumulation. Radioligand binding studies provide direct evidence that both ambenonium and demecarium are relatively potent muscarinic receptor antagonists, whereas physostigmine and other ChEI have little direct receptor activity. Physostigmine and ambenonium also have different effects on heart rate in vivo, the former potentiating and the latter apparently blocking vagal tone. The inhibition of cyclic AMP formation produced by physostigmine can be used as a measure of the concentration of endogenous ACh available at muscarinic receptor sites. Physostigmine blocks cyclic AMP formation in atria incubated in the absence of calcium or in the presence of tetrodotoxin, suggesting that endogenous ACh is spontaneously released in the absence of neuronal activity or depolarization-secretion coupling.
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PMID:Activation and blockade of cardiac muscarinic receptors by endogenous acetylcholine and cholinesterase inhibitors. 628 18

"Contractile" arterial smooth muscle cells (SMC) return to a less differentiated "synthetic" state during adaptative and proliferative processes in vitro and in cell cultures. At present, the enzyme expression of the modulation of cultured SMC is partially unknown. In order to define metabolic events associated with cell modulation in vitro, we studied 16 enzyme activities in primary and secondary (P1-P3-P10) SMC cultures in comparison to in situ SMC in fetal and adult rat aorta. The "contractile" SMC in aorta of 2 months old rat showed very high nucleotide hydrolase activities (5'-nucleotidase, Mg-ATPase, Ca-ATPase), and naphthylesterase activities and weak lysosomal acid phosphatase activity; the glycolysis-linked dehydrogenases were expressed with higher activities than Krebs cycle-linked enzymes. In primary cultures, the SMC near the explant expressed a "contractile-like" enzyme behaviour, in opposite to cells in the peripheral part of growing area enzymatically similar to sub-cultured SMC. Proliferating SMC in secondary cultures were characterized by increased lysosomal activities and by the decrease or disappearance of Ca-ATPase, Mg-ATPase, 5'-nucleotidase, and butyrylcholinesterase activities like fetal SMC in vivo. These enzyme changes in subcultures might be related to a deficiency of nucleotide ester hydrolysis, abnormal adenosine and AMP levels, lowered lipolytic capability and increased lysosomal reactivity. In conclusion, subcultured "synthetic" SMC expressed enzyme cytochemical patterns different from those of "contractile" SMC and similar to those of fetal immature SMC. Their enzyme behaviour is unfavourable to contractile function and favourable to cell proliferation and lipid accumulation, two characteristic features of SMC in atherosclerotic plaques.
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PMID:Enzyme cytochemical expression of aortic smooth muscle cell modulation in primary and secondary cultures. 835 76

The N-[(11)C]methylpiperidinyl esters are used as radiopharmaceuticals for measuring brain cholinesterase activity. We have synthesized a series of N-methylpiperidinemethyl (1), N-methylpyrrolidinyl (2) and N-methylpyrrolidinemethyl (3) esters and examined the effects of sterric constraint and stereochemistry on cholinesterase-mediated cleavage. Acetylcholinesterase exhibited a preference for primary esters 1 and for the R-isomers of both 1 and 2. Biological data for (S)-N-[(11)C]methyl-2-piperidinemethyl acetate (1a) were similar to [(11)C]AMP. These data better define the structure-activity relationships for cholinesterase radiotracers and provide lead compounds for (18)F- labeling.
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PMID:N-methylpiperidinemethyl, N-methylpyrrolidyl and N-methylpyrrolidinemethyl esters as PET radiotracers for acetylcholinesterase activity. 1274 21

The developmental neurotoxicity of chlorpyrifos (CPF) involves mechanisms over and above cholinesterase inhibition. In the present study, we evaluated the effects of gestational CPF exposure on the adenylyl cyclase (AC) signaling cascade, which regulates the production of cyclic AMP, a major controller of cell replication and differentiation. In addition to basal AC activity, we assessed the AC response to direct enzymatic stimulants [forskolin, manganese (Mn(2+))]; the response to isoproterenol, which activates signaling through beta-adrenoceptors (betaARs); and the concentration of betaAR binding sites. CPF administered to pregnant rats on gestational days (GD) 9-12 elicited little or no change in any components of AC activity or betaARs. However, shifting the treatment window to GD17-20 produced regionally selective augmentation of AC activity. In the brainstem, the response to forskolin or Mn(2+) was markedly stimulated by doses at or below the threshold for observable toxicity of CPF or for inhibition of fetal brain cholinesterase, whereas comparable effects were seen in the forebrain only at higher doses. In addition, low doses of CPF reduced betaAR binding without impairing receptor-mediated stimulation of AC. These results indicate that signal transduction through the AC cascade is a target for CPF during a discrete developmental period in late gestation, an effect that is likely to contribute to the noncholinergic component of CPF's developmental neurotoxicity.
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PMID:Developmental neurotoxicity elicited by gestational exposure to chlorpyrifos: when is adenylyl cyclase a target? 1464 59

Zinc, copper and cadmium are important environmental contaminants and differences in purinergic and cholinergic systems of invertebrates have been described when compared to characteristics of these signaling systems in vertebrates. Here we evaluate the effect in vitro of these metals on the ATPase, 5'-nucleotidase and cholinesterase (ChE) activities in the digestive gland of Helix aspersa. Zinc (500 and 1000 microM) promoted a significant decrease in 5'-nucleotidase activity. However, it did not induce changes in ATP hydrolysis. Copper (25 and 50 microM), inhibited significantly ATPase activity, but did not alter 5'-nucleotidase when compared to control (no metal added). In relation to effects of cadmium, an inhibitory effect on ATP hydrolysis has been observed at concentrations of 100, 500 and 1000 microM and a similar decrease of AMP hydrolysis was observed at 500 and 1000 microM. However, there were no significant changes in ChE activity from homogenates of the digestive gland of H. aspersa for all metals tested. This study demonstrated that zinc, cadmium and copper affect ATPase and 5'-nucleotidase in digestive gland, but not ChE, suggesting that the purinergic system may be a target related to toxicity induced by these metals and a possible indicator of biological impact of exposure to these contaminants.
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PMID:In vitro exposure of heavy metals on nucleotidase and cholinesterase activities from the digestive gland of Helix aspersa. 1673 Feb 35

Amyloid precursor protein (APP) is overexpressed in the developing brain and portions of its extracellular domain, especially amino acid residues 96-110, play an important role in neurite outgrowth and neural cell differentiation. In the current study, we evaluated the developmental abnormalities caused by administration of exogenous APP(96-110) in sea urchin embryos and larvae, which, like the developing mammalian brain, utilize acetylcholine and other neurotransmitters as morphogens; effects were compared to those of beta-amyloid 1-42 (Abeta42), the neurotoxic APP fragment contained within neurodegenerative plaques in Alzheimer's Disease. Although both peptides elicited dysmorphogenesis, Abeta42 was far more potent; in addition, whereas Abeta42 produced abnormalities at developmental stages ranging from early cleavage divisions to the late pluteus, APP(96-110) effects were restricted to the intermediate, mid-blastula stage. For both agents, anomalies were prevented or reduced by addition of lipid-permeable analogs of acetylcholine, serotonin or cannabinoids; physostigmine, a carbamate-derived cholinesterase inhibitor, was also effective. In contrast, agents that act on NMDA receptors (memantine) or alpha-adrenergic receptors (nicergoline), and that are therapeutic in Alzheimer's Disease, were themselves embryotoxic, as was tacrine, a cholinesterase inhibitor from a different chemical class than physostigmine. Protection was also provided by agents acting downstream from receptor-mediated events: increasing cyclic AMP with caffeine or isobutylmethylxanthine, or administering the antioxidant, a-tocopherol, were all partially effective. Our findings reinforce a role for APP in development and point to specific interactions with neurotransmitter systems that act as morphogens in developing sea urchins as well as in the mammalian brain.
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PMID:Amyloid precursor protein 96-110 and beta-amyloid 1-42 elicit developmental anomalies in sea urchin embryos and larvae that are alleviated by neurotransmitter analogs for acetylcholine, serotonin and cannabinoids. 1856 28

Organophosphates are developmental neurotoxicants but recent evidence points to additional adverse effects on metabolism and cardiovascular function. One common mechanism is disrupted cell signaling mediated through cyclic AMP, targeting neurohumoral receptors, G-proteins and adenylyl cyclase (AC) itself. Earlier, we showed that neonatal parathion evokes later upregulation of the hepatic AC pathway in adolescence but that the effect wanes by young adulthood; nevertheless metabolic changes resembling prediabetes persist. Here, we administered parathion to neonatal rats (postnatal days 1-4, 0.1 or 0.2 mg/kg/day), straddling the threshold for cholinesterase inhibition, but we extended the studies to much later, 5 months of age. In addition, we investigated whether metabolic challenge imposed by consuming a high-fat diet for 7 weeks would exacerbate neonatal parathion's effects. Parathion alone increased the expression or function of G(i), thus reducing AC responses to fluoride. Receptors controlling AC activity were also affected: beta-adrenergic receptors (betaARs) in skeletal muscle were increased, whereas those in the heart were decreased, and the latter also showed an elevation of m(2)-muscarinic acetylcholine receptors, which inhibit AC. The high-fat diet also induced changes in AC signaling, enhancing the hepatic AC response to glucagon while impairing the cardiac response to fluoride or forskolin, and suppressing betaARs and m(2)-muscarinic receptors; the only change in the cerebellum was a decrease in betaARs. Although there were no significant interactions between neonatal parathion exposure and a high-fat diet, their convergent effects on the same signaling cascade indicate that early OP exposure, separately or combination with dietary factors, may contribute to the worldwide increase in the incidence of obesity and diabetes.
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PMID:Neonatal parathion exposure and interactions with a high-fat diet in adulthood: Adenylyl cyclase-mediated cell signaling in heart, liver and cerebellum. 2007 26

Human exposures to organophosphate insecticides are ubiquitous. Although regarded as neurotoxicants, increasing evidence points toward lasting metabolic disruption from early-life organophosphate exposures. We gave neonatal rats chlorpyrifos, diazinon or parathion in doses devoid of any acute signs of toxicity, straddling the threshold for barely-detectable cholinesterase inhibition. Organophosphate exposure during a critical developmental window altered the trajectory of hepatic adenylyl cyclase/cyclic AMP signaling, culminating in hyperresponsiveness to gluconeogenic stimuli. Consequently, the animals developed metabolic dysfunction resembling prediabetes. When the organophosphate-exposed animals consumed a high fat diet in adulthood, metabolic defects were exacerbated and animals gained excess weight compared to unexposed rats on the same diet. At the same time, the high fat diet ameliorated many of the central synaptic defects caused by organophosphate exposure, pointing to nonpharmacologic therapeutic interventions to offset neurodevelopmental abnormalities, as well as toward fostering dietary choices favoring high fat intake. These studies show how common insecticides may contribute to the increased worldwide incidence of obesity and diabetes.
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PMID:Does early-life exposure to organophosphate insecticides lead to prediabetes and obesity? 2085 May 19


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