Fort this reason, a detailed investigation of the HMGA1 expression in neuroblastoma cell lines treated with ATRA and LOX/COX inhibitors is needed. Metronomic chemotherapy refers to the prolonged administration of low-dose cytotoxic and/or anti-angiogenic agents. This approach was reported to be potentially effective in the treatment of relapsed and poor-prognosis see more pediatric cancers, even in neuroblastoma [15] and CNS tumors [43]. In both these reports, chemotherapy agents were this website combined with administration of celecoxibe and isotretinoin.
In context of our previous results [17] and especially of these data on expression profiling, therapeutic usage of retinoid in combination with COX inhibitor has strong biological rationale. Moreover, dietary uptake of the natural phenolic compounds including caffeic acid, for example, in honey, apple juice, grapes and some vegetables may also click here potentiate the cell differentiation induced by retinoids [44–46]. For these reasons, phase I/II clinical trials
are highly warranted to further testing of the promising effect of LOX/COX inhibitors on retinoid-induced differentiation in pediatric cancer patients. Conclusion These data support our initial hypothesis that ATRA-induced cell differentiation may be modulated by the combined application with LOX/COX inhibitors. Using expression profiling, we identified common changes in the expression of genes involved especially in cytoskeleton rearrangements that accompany neuronal differentiation of neuroblastoma cells. Not surprisingly, we also noted nonspecific activation of genes involved MG-132 manufacturer in reparation processes or that participate in the cell response to oxidative stress (for example, XRCC5, XRCC6, NQO1, SOD1, etc.). Nevertheless, the detected increase in expression of genes
related to cell differentiation, mostly in a concentration-dependent manner (both for ATRA and inhibitors), suggests that the ATRA-induced differentiation of neuroblastoma cells may be enhanced by compounds affecting the intracellular metabolism of ATRA, especially via inhibition of arachidonic acid metabolic pathway. Acknowledgements We thank Mrs. Johana Maresova for her skillful technical assistance and Dr. Jakub Neradil for critical reading of the manuscript. This study was supported by grant IGA NR9341-3/2007. References 1. Soprano DR, Qin P, Soprano KJ: Retinoic acid receptors and cancers. Annu Rev Nutr 2004, 24:201–221.PubMedCrossRef 2. Abu J, Batuwangala M, Herbert K, Symonds P: Retinoic acid and retinoid receptors: potential chemopreventive and therapeutic role in cervical cancer. Lancet Oncol 2005, 6:712–720.PubMedCrossRef 3. Coelho SM, Vaisman M, Carvalho DP: Tumour re-differentiation effect of retinoic acid: a novel therapeutic approach for advanced thyroid cancer. Curr Pharm Des 2005, 11:2525–2531.PubMedCrossRef 4.