Ferguson P J, Phillips J R, Selner M, Cass C E
Cancer Res. 1984 Aug;44(8):3307-12.
Vincristine and vinblastine exhibit differential activity against tumors and normal tissues. In this work, a number of cultured cell lines were assayed for their sensitivity to the antiproliferative and cytotoxic effects of the two drugs following short-term (4 hr) or during continuous exposures. Differential activity was not seen when cells were subjected to continuous exposures. The concentrations of vincristine and vinblastine, respectively, that inhibited growth rates by 50% were: mouse leukemia L1210 cells, 4.4 and 4.0 nM; mouse lymphoma S49 cells, 5 and 3.5 nM; mouse neuroblastoma cells, 33 and 15 nM; HeLa cells, 1.4 and 2.6 nM; and human leukemia HL-60 cells, 4.1 and 5.3 nM. In contrast, differential toxicity was seen when cells were subjected to 4-hr exposures and transferred to drug-free medium: the 50% growth-inhibitory concentrations for vincristine and vinblastine, respectively, for inhibition (a) of proliferation of L1210 cells were 100 and 380 nM and of HL-60 cells were 23 and 900 nM and (b) of colony formation of L1210 cells were 6 and greater than 600 nM and of HeLa cells were 33 and 62 nM. Uptake and release of [3H]-vincristine and [3H]vinblastine were examined in L1210 cells under the conditions of growth experiments. Uptake of both drugs was dependent on the pH of culture media, and significantly greater amounts of [3H]vinblastine than of [3H]vincristine were associated with cells after 4-hr exposures to equal concentrations of either drug. When cells were transferred to drug-free medium after 4-hr exposures, vinblastine was released much more rapidly from cells than was vincristine, and by 0.5 hr after resuspension of cells, the amount of vincristine associated with the cells was greater than the amount of vinblastine and remained so for up to at least 6 hr.
长春新碱和长春碱对肿瘤组织和正常组织表现出不同的活性。在本研究中,检测了多种培养细胞系在短期(4小时)或持续暴露后对这两种药物抗增殖和细胞毒性作用的敏感性。当细胞持续暴露时,未观察到不同的活性。分别使生长速率抑制50%的长春新碱和长春碱浓度为:小鼠白血病L1210细胞,4.4和4.0 nM;小鼠淋巴瘤S49细胞,5和3.5 nM;小鼠神经母细胞瘤细胞,33和15 nM;HeLa细胞,1.4和2.6 nM;以及人白血病HL-60细胞,4.1和5.3 nM。相反,当细胞进行4小时暴露并转移至无药物培养基时,观察到了不同的毒性:长春新碱和长春碱分别对(a)L1210细胞增殖的50%生长抑制浓度为100和380 nM,对HL-60细胞增殖的生长抑制浓度为23和900 nM;(b)对L1210细胞集落形成的生长抑制浓度为6和大于600 nM,对HeLa细胞集落形成的生长抑制浓度为33和62 nM。在生长实验条件下,检测了L1210细胞中[3H] - 长春新碱和[3H] - 长春碱的摄取和释放。两种药物的摄取均依赖于培养基的pH值,在同等浓度的任一药物暴露4小时后,与细胞结合的[3H] - 长春碱量显著多于[3H] - 长春新碱。当细胞在4小时暴露后转移至无药物培养基时,长春碱从细胞中释放的速度比长春新碱快得多,并且在细胞重悬后0.5小时,与细胞结合的长春新碱量大于长春碱量,并且至少在长达6小时内一直如此。
