Lucci A, Giuliano A E, Han T Y, Dinur T, Liu Y Y, Senchenkov A, Cabot M C
John Wayne Cancer Institute at Saint John's Health Center, Santa Monica, CA 90404, USA.
Int J Oncol. 1999 Sep;15(3):535-40. doi: 10.3892/ijo.15.3.535.
Previously we demonstrated that multidrug-resistant (MDR) cancer cells have elevated levels of a glycosylated form of ceramide, glucosylceramide. Here we compared ceramide metabolism and ceramide toxicity in MCF-7 and in adriamycin-resistant (MCF-7-AdrR) human breast cancer cells. MCF-7-AdrR cells were resistant to C6-ceramide (1-10 microM); however, in MCF-7 cells treated with C6-ceramide, viability dropped sharply. Ceramide, when supplemented, was not metabolized by MCF-7 cells. In contrast, ceramide was efficiently converted to glucosylceramide by MCF-7-AdrR cells. Analysis of extracellular [3H]ceramide in radiolabeled cells showed that MCF-7-AdrR cells do not have an enhanced capacity to efflux ceramide compared with MCF-7 cells. Triphenylethylene anti-estrogens, known modulators of drug resistance, were effective inhibitors of ceramide conversion to glucosylceramide, suggesting that blocking ceramide metabolism plays a role in chemosensitization. The anti-progestine, RU486, also blocked glucosylceramide synthesis in cells; however, LY117018, a raloxifene analog, was without influence. We propose that an enhanced capacity to glycosylate ceramide as evidenced in MCF-7-AdrR cells, is a molecular determinant of drug resistance, particularly as regards resistance to ceramide-enhancing agents such as anthracyclines, ionizing radiation, and tumor necrosis factor-alpha.
此前我们证明,多药耐药(MDR)癌细胞中糖基化形式的神经酰胺——葡萄糖神经酰胺的水平升高。在此,我们比较了MCF-7细胞和阿霉素耐药(MCF-7-AdrR)人乳腺癌细胞中的神经酰胺代谢及神经酰胺毒性。MCF-7-AdrR细胞对C6-神经酰胺(1-10微摩尔)具有抗性;然而,在用C6-神经酰胺处理的MCF-7细胞中,细胞活力急剧下降。添加的神经酰胺未被MCF-7细胞代谢。相反,MCF-7-AdrR细胞能有效地将神经酰胺转化为葡萄糖神经酰胺。对放射性标记细胞中细胞外[3H]神经酰胺的分析表明,与MCF-7细胞相比,MCF-7-AdrR细胞没有增强的神经酰胺外排能力。已知的耐药调节剂三苯乙烯抗雌激素是神经酰胺转化为葡萄糖神经酰胺的有效抑制剂表明,阻断神经酰胺代谢在化学增敏中起作用。抗孕激素RU486也能阻断细胞中葡萄糖神经酰胺的合成;然而,雷洛昔芬类似物LY117018则没有影响。我们提出,如MCF-7-AdrR细胞中所证实的那样,增强的神经酰胺糖基化能力是耐药性的分子决定因素,特别是对于对神经酰胺增强剂(如蒽环类药物、电离辐射和肿瘤坏死因子-α)耐药而言。
