In Silico Prediction of Metabolic Fluxes in Cancer Cells with Altered S-adenosylmethionine Decarboxylase Activity
Автор
Доценко, О. І.
Штофель, Д. Х.
Dotsenko, O.
Shtofel, D.
Дата
2021Metadata
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Анотації
This paper investigates the redistribution of metabolic fluxes in the cell with altered activity of S-adenosylmethionine
decarboxylase (SAMdc, EC: 4.1.1.50), the key enzyme of the polyamine cycle and the common target for antitumor therapy.
To address these goals, a stoichiometric metabolic model was developed that includes five metabolic pathways: polyamine,
methionine, methionine salvage cycles, folic acid cycle, and the pathway of glutathione and taurine synthesis. The model is
based on 51 reactions involving 57 metabolites, 31 of which are internal metabolites. All calculations were performed using
the method of Flux Balance Analysis. The outcome indicates that the inactivation of SAMdc results in a significant increase
in fluxes through the methionine, the taurine and glutathione synthesis, and the folate cycles. Therefore, when using
therapeutic agents inactivating SAMdc, it is necessary to consider the possibility of cellular tumor metabolism
reprogramming. S-adenosylmethionine affects serine methylation and activates serine-dependent de novo ATP synthesis.
Methionine-depleted cell becomes methionine-dependent, searching for new sources of methionine. Inactivation of SAMdc
enhances the transformation of S-adenosylmethionine to homocysteine and then to methionine. It also intensifies the
transsulfuration process activating the synthesis of glutathione and taurine.
URI:
http://ir.lib.vntu.edu.ua//handle/123456789/34890