Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.5 (neuropathy target esterase)
 1,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pretreatment of 1321N1 human astrocytoma cells with serum induces a pronounced increase in subsequent stimulation by forskolin and other agents of intracellular cyclic AMP accumulation, a phenomenon referred to as sensitization (Mol. Pharmacol. 39, 399-406, 1991). Pretreatment of these cells with lysophosphatidic acid induced sensitization to a similar extent as that with serum (approximately fivefold for forskolin stimulation and twofold for isoproterenol and prostaglandin E1 stimulation), with half-maximal effects at approximately 30 nM lysophosphatidic acid. Phosphatidic acid was effective but less potent whereas other lipids were ineffective. Sensitization by serum and by lysophosphatidic acid were almost completely inhibited by pertussis toxin pretreatment and partially inhibited by prolonged phorbol ester exposure to induce protein kinase C down-regulation. Among nine cell lines tested, those that exhibited sensitization with serum showed comparable sensitization with lysophosphatidic acid. The effects of both lysophosphatidic acid and serum were markedly inhibited by treatment with phospholipase B but only minimally altered with phospholipases A2, D, and C. Exposure of cells to phospholipase C alone induced approximately threefold sensitization, but both serum and lysophosphatidic acid were able to induce further three- to fourfold sensitization above that induced by phospholipase C alone. In contrast, the effects of serum and lysophosphatidic acid were not additive with each other. Together these results suggest that lysophosphatidic acid or a closely related compound present in serum is the factor responsible for sensitization of the cyclic AMP pathway.
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PMID:Lysophosphatidic acid mimics serum-induced sensitization of cyclic AMP accumulation. 822 10

In the search for the existence of adrenergic regulation of the autocrine/paracrine function of the white adipose tissue, it was observed that conditioned media from isolated adipocytes or dialysates obtained by in situ microdialysis of human subcutaneous adipose tissue increased spreading and proliferation of 3T3F442A preadipocytes. These effects were amplified when an alpha2-adrenergic agonist was present during the obtention of conditioned media and microdialysates. This alpha2-adrenergic-dependent trophic activity was completely abolished by pretreatment of the conditioned media or microdialysates with the lysophospholipase, phospholipase B. Among the different lysophospholipids tested only lysophosphatidic acid (LPA) was able to induce spreading and proliferation of 3T3F442A preadipocytes. Moreover, previous chronic treatment of 3T3F442A preadipocytes with LPA which led to a specific desensitization of LPA responsiveness, abolished the alpha2-adrenergic-dependent trophic activities of the conditioned media and microdialysates. Finally, alpha2-adrenergic stimulation led to a rapid, sustained, and pertussis toxin-dependent release of [32P]LPA from [32P]-labeled adipocytes. Based upon these results it was proposed that in vitro and in situ stimulation of adipocyte alpha2-adrenergic receptors provokes the extracellular release of LPA leading, in turn, to regulation of preadipocyte growth.
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PMID:Alpha2-adrenergic receptor-mediated release of lysophosphatidic acid by adipocytes. A paracrine signal for preadipocyte growth. 952 86

Neuropathy target esterase (NTE) was identified as the primary target of organophosphate compounds that cause a delayed neuropathy with degeneration of nerve axons. NTE is a novel phospholipase B anchored to the cytoplasmic face of endoplasmic reticulum and essential for embryonic and nervous development. However, little is known about the regulation of NTE. A human fetal brain cDNA library was screened for proteins that interact with NTE, Gbeta2 and Gbeta2-like I subunits were found to be able to bind the C-terminal of NTE in yeast. The interaction of Gbeta2 and NTE was confirmed by in vivo co-immunoprecipitation analysis in COS7 cells. Furthermore, depletion of Gbeta2 by RNA interference down regulated the activity of NTE but not its expression level. In addition, the activity of NTE was down regulated by the G protein signal pathway influencing factor, pertussis toxin, treatment in vivo. These findings suggest that Gbeta2 may play a significant role in maintaining the activity of NTE.
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PMID:G protein beta2 subunit interacts directly with neuropathy target esterase and regulates its activity. 1697 9

Lysophosphatidylcholine (LPC) is an important bioactive lipid. In the nervous system, elevated levels of LPC have been shown to produce demyelination. In the present study, we examined the effect of exogenous LPC on intracellular Ca2+ mobilization in human neuroblastoma SH-SY5Y cells. In Ca2+-containing medium, introduction of LPC induced a steady rise in cytosolic Ca2+ levels ([Ca2+]i) in a dose-dependent manner, and this rise was provoked by LPC itself, not by its hydrolysis product produced by lysophospholipase. The increase in [Ca2+]i was reduced by 36% by removal of extracellular Ca2+, while preincubation of the cells with verapamil, an L-type Ca2+ channel blocker, inhibited the response by 23%, part of the Ca2+ influx. Conversely, Ni2+, which inhibits the Na+-Ca2+ exchanger, or Na+-deprivation did not affect LPC-induced Ca2+ influx. In Ca2+-free medium, depletion of Ca2+ stores in the endoplasmic reticulum (ER) by thapsigargin, an ER Ca2+-ATPase inhibitor, abolished the Ca2+ increase. Moreover, LPC-induced [Ca2+]i increase was fully blocked by ruthenium red and procaine, inhibitors of ryanodine receptor (RyR), but was not affected by 2-aminoethoxydiphenyl borate, an inhibitor of inositol triphosphate receptor, or by pertussis toxin, a G(i/o) protein inhibitor. Combined treatment with verapamil plus thapsigargin markedly inhibited but did not abolish the LPC-induced Ca2+ response. These findings indicate that LPC-induced [Ca2+]i increase depends on both external Ca2+ influx and Ca2+ release from ER Ca2+ stores, in which L-type Ca2+ channels and RyRs may be involved. However, in digitonin-permeabilized SH-SY5Y cells, LPC could not induce any [Ca2+]i increase in Ca2+-free medium, suggesting that LPC may act indirectly on RyRs of ER.
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PMID:Characteristics of lysophosphatidylcholine-induced Ca2+ response in human neuroblastoma SH-SY5Y cells. 1715 26