Simard A, Corneille L, Deschamps Y, Verly W G
Proc Natl Acad Sci U S A. 1974 May;71(5):1763-6. doi: 10.1073/pnas.71.5.1763.
A purified chalone isolated from rabbit liver was tested in vitro on regenerating rat liver slices incubated with tritiated thymidine to determine more precisely the phase of the normal cell cycle that was blocked by that substance. Biochemical and radioautographic studies showed that the inhibition of tritiated thymidine incorporation during chromosomal DNA replication resulted chiefly from a block in the G(1)-S transition in the normal cell cycle. Under these conditions the chalone had little inhibitory effect on hepatocytes that were in the S phase of the cell cycle. The inhibitory effects of the liver chalone appeared to be specific for hepatocytes and no significant inhibition of cell division was observed when that compound was tested against intestinal villi or tongue epithelial cells of the rat. When, on the other hand, the purified chalone was injected into rats following partial hepatectomy, not only was an inhibition observed during the G(1)-S transition but an increase in the ratio of metaphases to anaphases was found, suggesting that a block also occurs at metaphase as a result of the action of the purified liver chalone used in this study. The injection of a crude supernatant fluid obtained from rabbit liver homogenates into partially hepatectomized rats resulted not only in a more pronounced block at the G(1)-S transition than was observed when the purified chalone was used, but the supernatant liquid also affected significantly DNA synthesis during the S phase of the cell cycle. These inhibitory effects were observed not only in hepatocytes but in intestinal epithelium and tongue epithelial cells of the rat as well. The rabbit liver supernatant fluid thus appears to contain, in addition to the liver chalone, one or more nonspecific inhibitors of DNA synthesis.
从兔肝脏中分离出的一种纯化的抑素,在体外对用氚标记胸腺嘧啶核苷培养的再生大鼠肝切片进行了测试,以更精确地确定被该物质阻断的正常细胞周期阶段。生化和放射自显影研究表明,在染色体DNA复制过程中氚标记胸腺嘧啶核苷掺入的抑制主要是由于正常细胞周期中G(1)-S转换的阻断。在这些条件下,抑素对处于细胞周期S期的肝细胞几乎没有抑制作用。肝脏抑素的抑制作用似乎对肝细胞具有特异性,当用该化合物对大鼠的肠绒毛或舌上皮细胞进行测试时,未观察到对细胞分裂的显著抑制。另一方面,在部分肝切除术后将纯化的抑素注射到大鼠体内,不仅在G(1)-S转换期间观察到抑制作用,而且发现中期与后期的比例增加,这表明由于本研究中使用的纯化肝脏抑素的作用,在中期也发生了阻断。将从兔肝脏匀浆中获得的粗制上清液注射到部分肝切除的大鼠体内,不仅在G(1)-S转换处观察到比使用纯化抑素时更明显的阻断,而且该上清液还在细胞周期的S期显著影响DNA合成。这些抑制作用不仅在肝细胞中观察到,在大鼠的肠上皮和舌上皮细胞中也观察到。因此,兔肝脏上清液除了含有肝脏抑素外,似乎还含有一种或多种DNA合成的非特异性抑制剂。