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W2070706618 startingPage "25810" @default.
W2070706618 abstract "The regulation of cardiolipin biosynthesis by CTP in H9c2 cardiac myoblasts was investigated. H9c2 cells were incubated in the presence of cyclopentenylcytosine which is converted to cyclopentenylcytosine-triphosphate, a potent and specific inhibitor of CTP synthetase. Incubation of cells for 12 h with cyclopentenylcytosine reduced the cellular pool size of CTP to less than 10% of control cells but did not influence the pool size of other nucleotides. The de novo biosynthesis of phosphatidylcholine from [methyl-3H]choline, phosphatidylethanolamine from [1-3H]ethanolamine, and biosynthesis of all glycerol containing phospholipids from [U-14C]glycerol or [1,3-3H]glycerol were reduced approximately 50% after preincubation of the cells with cyclopentenylcytosine. In contrast, radioactive glycerol accumulated in phosphatidic acid, diacylglycerol, and triacylglycerol in cyclopentenylcytosine-treated cells compared with controls suggesting a re-routing of phospholipid biosynthesis away from CTP utilizing reactions toward neutral lipid synthesis. The de novo biosynthesis of all phospholipids was restored to control levels by addition of cytidine to the medium which elevated CTP levels. Cyclopentenylcytosine did not affect the in vitro enzyme activities involved in cardiolipin biosynthesis in these cells. In addition, the resynthesis of cardiolipin and most phospholipids from [1-14C]linoleic acid was not affected by cyclopentenylcytosine. Our findings indicate that the cellular CTP level may regulate cardiolipin biosynthesis in H9c2 cardiac myoblasts and support the notion that the cellular CTP level may be a universal signal/switch for all phospholipid biosynthesis in eukaryotic cells. The regulation of cardiolipin biosynthesis by CTP in H9c2 cardiac myoblasts was investigated. H9c2 cells were incubated in the presence of cyclopentenylcytosine which is converted to cyclopentenylcytosine-triphosphate, a potent and specific inhibitor of CTP synthetase. Incubation of cells for 12 h with cyclopentenylcytosine reduced the cellular pool size of CTP to less than 10% of control cells but did not influence the pool size of other nucleotides. The de novo biosynthesis of phosphatidylcholine from [methyl-3H]choline, phosphatidylethanolamine from [1-3H]ethanolamine, and biosynthesis of all glycerol containing phospholipids from [U-14C]glycerol or [1,3-3H]glycerol were reduced approximately 50% after preincubation of the cells with cyclopentenylcytosine. In contrast, radioactive glycerol accumulated in phosphatidic acid, diacylglycerol, and triacylglycerol in cyclopentenylcytosine-treated cells compared with controls suggesting a re-routing of phospholipid biosynthesis away from CTP utilizing reactions toward neutral lipid synthesis. The de novo biosynthesis of all phospholipids was restored to control levels by addition of cytidine to the medium which elevated CTP levels. Cyclopentenylcytosine did not affect the in vitro enzyme activities involved in cardiolipin biosynthesis in these cells. In addition, the resynthesis of cardiolipin and most phospholipids from [1-14C]linoleic acid was not affected by cyclopentenylcytosine. Our findings indicate that the cellular CTP level may regulate cardiolipin biosynthesis in H9c2 cardiac myoblasts and support the notion that the cellular CTP level may be a universal signal/switch for all phospholipid biosynthesis in eukaryotic cells." @default.
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W2070706618 date "1996-10-01" @default.
W2070706618 modified "2023-10-13" @default.
W2070706618 title "Regulation of Cardiolipin Biosynthesis in H9c2 Cardiac Myoblasts by Cytidine 5′-Triphosphate" @default.
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W2070706618 cites W1506841734 @default.
W2070706618 cites W1520083288 @default.
W2070706618 cites W1564147925 @default.
W2070706618 cites W1570483040 @default.
W2070706618 cites W1575864823 @default.
W2070706618 cites W1584969825 @default.
W2070706618 cites W1601987904 @default.
W2070706618 cites W1607921146 @default.
W2070706618 cites W162053295 @default.
W2070706618 cites W1775749144 @default.
W2070706618 cites W1874992696 @default.
W2070706618 cites W1963628973 @default.
W2070706618 cites W1966129095 @default.
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W2070706618 cites W1983183720 @default.
W2070706618 cites W1992973572 @default.
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W2070706618 cites W2053095345 @default.
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W2070706618 cites W2058033272 @default.
W2070706618 cites W2060139042 @default.
W2070706618 cites W2062262661 @default.
W2070706618 cites W2062433889 @default.
W2070706618 cites W2064825406 @default.
W2070706618 cites W2065220901 @default.
W2070706618 cites W2084810576 @default.
W2070706618 cites W2091629397 @default.
W2070706618 cites W2112600280 @default.
W2070706618 cites W2122415937 @default.
W2070706618 cites W2127908594 @default.
W2070706618 cites W2134887138 @default.
W2070706618 cites W2141810718 @default.
W2070706618 cites W2165968581 @default.
W2070706618 cites W2168248533 @default.
W2070706618 cites W2186316312 @default.
W2070706618 cites W2186474974 @default.
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W2070706618 cites W2416675734 @default.
W2070706618 cites W2418651706 @default.
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W2070706618 doi "https://doi.org/10.1074/jbc.271.42.25810" @default.
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