Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.3.1 (citrate synthase)
 4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of three bisethyl polyamine analogs on mitochondrial structure and function were examined in human HeLa and L1210 murine leukemia cells. N, N' Bis-[3(ethylamino)-propyl]1-7- heptane diamine (BEPH), and its octane (BEPO), and butane (BESPM) derivative, were shown by electron microscopy and/or Rhodamine 123 uptake studies to alter the structural integrity of mitochondria when both cell lines were treated at the approximate IC50 dose of each drug. At this dose, BEPH had no marked effects on levels of the naturally occurring polyamines, putrescine, spermidine or spermine, in either cell line whereas BEPO and BESPM treatment did result in pool depletion. Southern blot analysis demonstrated a time and dose-dependent loss of mitochondrial DNA from BEPH-treated L1210 cultures suggesting that loss of mitochondrial integrity extended to the DNA level. Treatment of L1210 cells with all three analogs revealed marked reductions in the activity of two mitochondrial enzymes citrate synthase and cytochrome C oxidase. HeLa cells treated with all three analogs exhibited markedly reduced levels of ATP, complete loss of cytidine triphosphate (CTP) and near total depletion of uridine triphosphate (CTP) and near total depletion of uridine triphosphate (UTP). There was also a loss of colony forming ability in HeLa cells which could be nearly completely reversed by the addition of either uridine or cytidine suggesting that NTP reduction may be the primary antiproliferative determinant in these cells. Growth inhibition by BEPH in L1210 cells was markedly potentiated by the glycolysis inhibitor, 2-deoxyglucose, which had no such effect in otherwise untreated cells. This suggests that BEPH treatment of L1210 cells results in impairment of mitochondrial ATP synthesis and activation of the glycolytic pathway for energy production. 2-deoxyglucose treatment also completely prevented the increase of ATP by BEPH treatment of L1210 cells. It is concluded that all three bisethyl polyamines alter HeLa and L1210 mitochondria both structurally and functionally and that these alterations may play a primary role in the antiproliferative activity of these agents in HeLa cells. In L1210, the different spectra of cellular biochemical changes following bisethyl polyamine treatment suggests that additional mechanisms may be in effect.
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PMID:Anti-mitochondrial effects of bisethyl polyamines in mammalian cells. 801 33

Many cancer cells consume large quantities of glutamine to maintain TCA cycle anaplerosis and support cell survival. It was therefore surprising when RNAi screening revealed that suppression of citrate synthase (CS), the first TCA cycle enzyme, prevented glutamine-withdrawal-induced apoptosis. CS suppression reduced TCA cycle activity and diverted oxaloacetate, the substrate of CS, into production of the nonessential amino acids aspartate and asparagine. We found that asparagine was necessary and sufficient to suppress glutamine-withdrawal-induced apoptosis without restoring the levels of other nonessential amino acids or TCA cycle intermediates. In complete medium, tumor cells exhibiting high rates of glutamine consumption underwent rapid apoptosis when glutamine-dependent asparagine synthesis was suppressed, and expression of asparagine synthetase was statistically correlated with poor prognosis in human tumors. Coupled with the success of L-asparaginase as a therapy for childhood leukemia, the data suggest that intracellular asparagine is a critical suppressor of apoptosis in many human tumors.
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PMID:Asparagine plays a critical role in regulating cellular adaptation to glutamine depletion. 2524 45