Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several steps implicated in platelet-derived growth factor (PDGF) receptor-coupled signaling are activated by PDGF exposure at 0-4 degrees C. These include receptor self-phosphorylation, physical association with and phosphorylation of phospholipase C gamma (PLC gamma). Reduced temperature blocks PDGF internalization, making it possible to dissociate bound PDGF after PLC gamma tyrosine phosphorylation. We addressed the functional consequences of PDGF dissociation from intact cell PDGF receptors. PDGF exposure at 0-4 degrees C for 15 min stimulated self-phosphorylation of a subpopulation of BALB/c 3T3 cell PDGF beta-type receptors (35%) and initiated subsequent inositol phosphate production. A small fraction of cellular PLC gamma (1-3%) coprecipitated with ligand-activated PDGF receptors; 3-5% of cellular PLC gamma acquired phosphotyrosine. The PLC gamma coprecipitating with PDGF receptors did not contain detectible phosphotyrosine. Phosphotyrosine antibody recovered similar amounts of PLC gamma from soluble and particulate fractions of PDGF-stimulated cells. Acid dissociation of bound PDGF from receptor caused rapid dephosphorylation of PDGF receptors and PCL gamma, and interrupted PLC gamma-PDGF receptor coprecipitation. Orthovanadate blocked tyrosine dephosphorylation of both PDGF receptors and PLC gamma and stabilized coprecipitation. Orthovanadate reversed the acid wash effect to abrogate PDGF-stimulated inositol phosphate production. PDGF receptor remains competent to coprecipitate with PLC gamma and stimulate PLC-mediated inositol phosphate production if PDGF-induced receptor phosphorylation is maintained. Formation of a coprecipitable PDGF receptor-PLC gamma complex appears required for PDGF-stimulated inositol phosphate production.
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PMID:Phospholipase C gamma complexes with ligand-activated platelet-derived growth factor receptors. An intermediate implicated in phospholipase activation. 184 94

Pedicellarial toxin, partially purified from the sea urchin Toxopneustes pileolus, dose-dependently and time-dependently caused histamine release from rat peritoneal mast cells. Pedicellarial toxin induced a rapid initial rise in [Ca2+]i within several seconds which was followed by a further slower increase of [Ca2+]i (second rise). The toxin induced a dose-dependent formation of inositol 1,4,5-triphosphate (IP3) as well as the histamine release in mast cells. Furthermore, the toxin stimulated phosphoinositide-specific phospholipase C (PI-PLC) activity in mast cell membranes. 2-Nitro-4-carboxyphenyl-N,N-diphenylcarbamate (NCDC), a PLC inhibitor, inhibited the activation of PI-PCL induced by pedicellarial toxin. Cholera toxin inhibited pedicellarial toxin-induced histamine release, whereas pretreatment of pertussis toxin failed to inhibit it. These results suggest that pedicellarial toxin from T. pileolus activates PI-PCL and the stimulation of PI turnover may lead to the release of IP3 into the cytoplasm, resulting in histamine release from rat mast cells.
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PMID:Mast cell activation by pedicellarial toxin of sea urchin, Toxopneustes pileolus. 768 24

The neurochemical organization of the basal ganglia has been studied extensively with respect to neurotransmitters, neuropeptides, and their receptors. The chemoarchitecture of the striatum has been found particularly striking, because it distinguishes many substances by their relative distributions within the striosome and matrix compartments of the striatum. Very little is yet known about the differential distribution of second messenger systems in the basal ganglia, however, and no information is available about whether the distribution of second messenger systems is related to the prominent neurochemical compartmentalization of the striatum. We have examined the distribution of the phosphoinositide second messenger system in the primate basal ganglia and substantia nigra, as detected with polyclonal antisera against the inositol 1,4,5-trisphosphate receptor (IP3R), and monoclonal antisera against phospholipase C beta (PLC beta) and phospholipase C gamma (PLC gamma). In the striatum, immunostaining for each of the three proteins was present predominantly in medium-sized neuronal perikarya and in the neuropil. Circumscribed zones of enhanced IP3R, PLC beta, and PLC gamma immunoreactivity appeared in a background of generally weaker staining, and these zones corresponded to striosomes as identified by calbinidin D28k and substance P immunostaining in adjacent sections. Thus, the richest representation of the phosphoinositide system in the primate striatum appears to be in striosomes. In the substantia nigra pars compacta, neurons and neuropil were immunopositive, but in the substantia nigra pars reticulata and in each segment of the globus pallidus, immunostaining was mainly confined to the neuropil. Perikaryal PCL gamma immunoreactivity in the absence of detectable PLC beta or IP3R immunolabeling was found in the magnocellular neurons embedded in the medullary layer between the putamen and the globus pallidus. These observations demonstrate that the phosphoinositide second messenger system is selectively enhanced in neuronal subsystems of the basal ganglia, including striosomes, and suggest that signaling by phosphoinositide pathways elicits discrete effects on input-output processing by the basal ganglia.
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PMID:Phosphoinositide second messenger system is enriched in striosomes: immunohistochemical demonstration of inositol 1,4,5-trisphosphate receptors and phospholipase C beta and gamma in primate basal ganglia. 839 81