Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.34 (lipoprotein lipase)
 7,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphatidic acid synthesis via diacylglycerol kinase and free fatty acid release via diacylglycerol lipase were investigated in rat brain subcellular fractions using membrane-bound [I-(14)C]arachidonoyl-diacylglycerol as substrate. Labeled diacylglycerol was generated by incubating brain membranes containing [I-(14)C]arachidonoyl-phosphatidylinositols in the presence of deoxycholate and Ca(2+). Incubation of the prelabeled synaptosomes enriched in [1-(14)C]arachidonoyl-diacylglycerols or incubation of brain subcellular fractions with heat-treated prelabeled membranes resulted in the release of free fatty acids from the diacylglycerols. When incubations were carried out in the presence of ATP, MgCl(2) and NaF, both free fatty acid release and conversion of diacylglycerols to phosphatidic acids were observed. The conversion of diacylglycerols to phosphatidate or their hydrolysis to free fatty acids were linear with time for at least 15 min. In three brain subcellular fractions examined, diacylglycerol kinase activity indicated a pH maximum of 7.4. The free fatty acid release was enhanced slightly by Ca(2+) (1 mM), but Ca(2+) (0.5-4 mM) in the presence of Mg(2+) (10 mM) was inhibitory to the diacylglycerol kinase reaction. Phosphatidate formation was also inhibited by an excessive amount of deoxycholate added to the incubation mixture. Among the brain subcellular fractions, diacylglycerol kinase was more active in synaptic vesicles and cytosol than in the microsomal fraction, whereas diacylglycerol lipase activity was higher in the cytosol fraction than in the membrane fractions. Upon washing the membranes by centrifugation, a substantial portion of the diacylglycerol kinase activity was removed after the first washing, whereas the diacylglycerol lipase activity remained essentially unchanged. The metabolic role of arachidonoyl-diacylglycerols in brain membranes in relation to the biosynthesis of phosphatidate and the release of arachidomic acid is discussed.
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PMID:Diacylglycerol kinase and lipase activities in rat brain subcellular fractions. 2049 49

At nerve terminals G protein coupled receptors modulate neurotransmitter release probability. We recently showed that prolonged activation of metabotropic glutamate receptor 7, mGlu7 receptor, potentiates glutamate release. This signalling involves phospholipase C activation via a pertussis toxin insensitive G protein, the hydrolysis of phosphatidylinositol (4,5)-bisphosphate, and the subsequent activation of the non-kinase diacylglycerol binding protein Munc13-1 which primes synaptic vesicle for exocytosis at the active zone. Here we found that inhibitors of diacylglycerol metabolism (diacylglycerol kinase inhibitor II and diacylglycerol lipase inhibitor RHC80267) remarkably reduce the time of mGlu7 receptor stimulation required for glutamate release potentiation in mice cerebrocortical nerve terminals. We conclude that changes in diacylglycerol levels at nerve terminals control the efficiency of the exocytotic release machinery.
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PMID:Inhibitors of diacylglycerol metabolism reduce time to the onset of glutamate release potentation by mGlu7 receptors. 2171 54

Target of rapamycin (TOR) signaling is a nutrient-sensing pathway controlling metabolism and lifespan. Although TOR signaling can be activated by a metabolite of diacylglycerol (DAG), phosphatidic acid (PA), the precise genetic mechanism through which DAG metabolism influences lifespan remains unknown. DAG is metabolized to either PA via the action of DAG kinase or 2-arachidonoyl-sn-glycerol by diacylglycerol lipase (DAGL). Here, we report that in Drosophila and Caenorhabditis elegans, overexpression of diacylglycerol lipase (DAGL/inaE/dagl-1) or knockdown of diacylglycerol kinase (DGK/rdgA/dgk-5) extends lifespan and enhances response to oxidative stress. Phosphorylated S6 kinase (p-S6K) levels are reduced following these manipulations, implying the involvement of TOR signaling. Conversely, DAGL/inaE/dagl-1 mutants exhibit shortened lifespan, reduced tolerance to oxidative stress, and elevated levels of p-S6K. Additional results from genetic interaction studies are consistent with the hypothesis that DAG metabolism interacts with TOR and S6K signaling to affect longevity and oxidative stress resistance. These findings highlight conserved metabolic and genetic pathways that regulate aging.
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PMID:Diacylglycerol lipase regulates lifespan and oxidative stress response by inversely modulating TOR signaling in Drosophila and C. elegans. 2488 82


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