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  • Title: Effect of fumonisin B1 on phosphatidylethanolamine biosynthesis in Chinese hamster ovary cells.
    Author: Badiani K, Byers DM, Cook HW, Ridgway ND.
    Journal: Biochim Biophys Acta; 1996 Dec 13; 1304(3):190-6. PubMed ID: 8982265.
    Abstract:
    Fumonisin B1 has been shown to inhibit dihydroceramide synthesis and elevate cellular sphinganine levels in several cultured cell lines. In Chinese hamster ovary (CHO)-K1 cells, 20 microM fumonisin B1 inhibited sphingomyelin synthesis by 75% after 5 h, but stimulated [3H]serine incorporation into PtdEtn by 5- to 7-fold. Fumonisin caused a 10-20% increase in [3H]serine labelling of PtdSer. While fumonisin (20 microM) caused sustained inhibition of sphingomyelin synthesis, PtdEtn labelling peaked at 7-fold above controls at 12 h and declined to 4-fold by 24 h. Fumonisin treatment for 12 h increased the in vitro activity of PtdSer synthase by 62% and inhibited PtdSer decarboxylase by 35%, suggesting that increased PtdEtn labelling by [3H]serine is not by this pathway. An ethanolamine 'trap' experiment was performed to assess the contribution of phosphoethanolamine from sphinganine degradation for PtdEtn labelling. Stimulation of [3H]serine incorporation into PtdEtn by fumonisin could be reduced by 60% with the inclusion of 50 microM unlabelled ethanolamine in the culture medium. The ethanolamine-mediated reduction in [3H]serine incorporation into PtdEtn was accompanied by 4-fold increase in cellular [3H]phosphoethanolamine. In control cells labelled with [3H]serine, 50 microM ethanolamine did not cause [3H]phosphoethanolamine to accumulate. Consistent with elevated phosphoethanolamine production in fumonisin-treated cells, [3H]ethanolamine incorporation into PtdEtn was inhibited by 75% after 12 h. The degradation of endogenous long-chain bases to phosphoethanolamine and entry into the CDP-ethanolamine pathway appears to be a major pathway for PtdEtn synthesis in fumonisin-treated CHO-K1 cells.
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