TAYLOR E W
J Cell Biol. 1965 Apr;25(1):SUPPL:145-60. doi: 10.1083/jcb.25.1.145.
H(3)-colchicine of high specific activity (2.5 curies per mM) was prepared in order to study the mechanism of colchicine inhibition of mitosis in cultures of human cells, strain K.B. No direct effects on the duration of the cell cycle or macromolecular synthesis were demonstrable at a concentration of colchicine which completely inhibited mitosis. The radioactive compound was bound to the cells at a rate proportional to colchicine concentration. The binding appeared to be reversible since the radioactivity of the cells reached a maximum value for a given concentration and was slowly lost after resuspension of the cells in fresh medium. A suitable exposure to colchicine produced accumulation of metaphase-blocked mitoses after the colchicine was removed from the medium. An exposure of 6 to 8 hours at 10(-7)M was sufficient to block essentially all the cells in metaphase, thus indicating that colchicine is bound to the majority of interphase cells. The data are in quantitative agreement with a mechanism involving reversible binding of colchicine to a set of cellular sites. Based on the correlation between the time of first appearance of blocked mitoses and the radioactivity per cell, it is suggested that if a critical fraction (3 to 5 per cent) of the sites are complexed, the cell is unable to form a functional mitotic spindle.
为了研究秋水仙碱对人KB细胞株培养物中细胞有丝分裂的抑制机制,制备了高比活度(每毫摩尔2.5居里)的H(3)-秋水仙碱。在完全抑制有丝分裂的秋水仙碱浓度下,未发现对细胞周期持续时间或大分子合成有直接影响。放射性化合物与细胞的结合速率与秋水仙碱浓度成正比。这种结合似乎是可逆的,因为在给定浓度下细胞的放射性达到最大值,并且在将细胞重悬于新鲜培养基后会缓慢丧失。从培养基中去除秋水仙碱后,适当暴露于秋水仙碱会导致中期阻断的有丝分裂积累。在10(-7)M浓度下暴露6至8小时足以使基本上所有细胞阻断在中期,这表明秋水仙碱与大多数间期细胞结合。这些数据在数量上与秋水仙碱与一组细胞位点可逆结合的机制一致。根据阻断有丝分裂首次出现的时间与每个细胞的放射性之间的相关性,有人提出,如果临界比例(3%至5%)的位点被结合,细胞就无法形成功能性有丝分裂纺锤体。