Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.1 (Mg2+-ATPase)
 1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hexachlorocyclohexanes (HCCH) are chlorinated analogs of inositol; the alpha, beta, gamma, and delta isomers of HCCH have the stereochemical configurations of (+/-)-, scyllo-, muco-, and myo-inositol, respectively. To assess their potential as specific tools for the study of agonist-stimulated phosphoinositide metabolism, we examined the effects of these four HCCH isomers on phosphatidylinositol (PI) synthase (CDP-1,2-diacyl-sn-glycerol:myo-inositol 3-phosphatidyltransferase), PI:inositol exchange enzyme, and several membrane-associated enzymes unrelated to inositol metabolism. In pancreas microsomes, in the presence of saturating myo-inositol, the alpha, beta, gamma, and delta isomers (4 mM) inhibited PI synthase activity by 9, 4, 22, and 69%, respectively. Half-maximal inhibition by delta-HCCH occurred at 0.25 mM. A similar pattern of HCCH inhibition was obtained using n-octylglucopyranoside-solubilized and partially purified PI synthase preparations. The inhibition by delta-HCCH was noncompetitive versus myo-inositol. The PI:inositol exchange enzyme in mouse pancreas microsomes was inhibited 90% by 1 mM delta-HCCH in the presence of 0.25% Triton X-100, but not in its absence; half-maximal inhibition occurred with 0.5 mM delta-HCCH. delta-HCCH (4 mM) also inhibited to varying extents the following enzymes: pancreas CDP-choline:1,2-diacyl-sn-glycerol cholinephosphotransferase (75%), brain and erythrocyte (Na+,K+)-ATPase (87 and 70%), brain and erythrocyte Mg2+-ATPase (38 and -5%), brain 1,2-diacyl-sn-glycerol kinase (22%), and liver glucose 6-phosphatase (16%). gamma-HCCH (4 mM) inhibited these enzymes to a lesser extent, or not at all. The order of inhibition by HCCH stereoisomers was the same as the order of their saturation level in phospholipid vesicles (delta greater than gamma greater than alpha greater than beta). This suggests that the inhibitory action is due to insertion of the compounds either into hydrophobic domains of the enzymes or into annular lipid. The results indicate that the HCCHs are not selective inhibitors of inositol metabolism.
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PMID:Inhibition of phosphatidylinositol synthase and other membrane-associated enzymes by stereoisomers of hexachlorocyclohexane. 257 70

In eukaryotic cells, type 4 P-type ATPases function as phospholipid flippases, which translocate phospholipids from the exoplasmic leaflet to the cytoplasmic leaflet of the lipid bilayer. Flippases function in the formation of transport vesicles, but the mechanism remains unknown. Here, we isolate an arrestin-related trafficking adaptor, ART5, as a multicopy suppressor of the growth and endocytic recycling defects of flippase mutants in budding yeast. Consistent with a previous report that Art5p downregulates the inositol transporter Itr1p by endocytosis, we found that flippase mutations were also suppressed by the disruption of ITR1, as well as by depletion of inositol from the culture medium. Interestingly, inositol depletion suppressed the defects in all five flippase mutants. Inositol depletion also partially restored the formation of secretory vesicles in a flippase mutant. Inositol depletion caused changes in lipid composition, including a decrease in phosphatidylinositol and an increase in phosphatidylserine. A reduction in phosphatidylinositol levels caused by partially depleting the phosphatidylinositol synthase Pis1p also suppressed a flippase mutation. These results suggest that inositol depletion changes the lipid composition of the endosomal/TGN membranes, which results in vesicle formation from these membranes in the absence of flippases.
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PMID:Inositol depletion restores vesicle transport in yeast phospholipid flippase mutants. 2578 Oct 26