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  • The role of phosphometabolites in cell proliferation, energy metabolism, and tumor therapy.

The role of phosphometabolites in cell proliferation, energy metabolism, and tumor therapy.

Journal of bioenergetics and biomembranes (1997-08-01)
S Mazurek, C B Boschek, E Eigenbrodt
초록

A common characteristic of tumor cells is the constant overexpression of glycolytic and glutaminolytic enzymes. In tumor cells the hyperactive hexokinase and the partly inactive pyruvate kinase lead to an expansion of all phosphometabolites from glucose 6-phosphate to phosphoenolpyruvate. In addition to the glycolytic phosphometabolites, synthesis of their metabolic derivatives such as P-ribose-PP, NADH, NADPH, UTP, CTP, and UDP-N-acetyl glucosamine is also enhanced during cell proliferation. Another phosphometabolite derived from P-ribose-PP, AMP, inhibits cell proliferation. The accumulation of AMP inhibits both P-ribose-PP-synthetase and the increase in concentration of phosphometabolites derived from P-ribose-PP. In cells with low glycerol 3-phosphate and malate-aspartate shuttle capacities the inhibition of the lactate dehydrogenase by low NADH levels leads to an inhibition of glycolytic ATP production. Several tumor-therapeutic drugs reduce NAD and NADH levels, thereby inhibiting glycolytic energy production. The role of AMP, NADH, and NADPH levels in the success of chemotherapeutic treatment is discussed.

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Sigma-Aldrich
Phospho(enol)pyruvic acid tri(cyclohexylammonium) salt, ≥98% (enzymatic)
Sigma-Aldrich
Phospho(enol)pyruvic acid cyclohexylammonium salt, ≥97% (enzymatic)
Sigma-Aldrich
Phospho(enol)pyruvic acid monosodium salt hydrate, ≥97% (enzymatic)
Sigma-Aldrich
Phospho(enol)pyruvic acid trisodium salt hydrate, ≥97% (enzymatic)