[EGF-dependent epithelial cells of the mammary cell line HC11 demonstrate a high degree of synchronized cell cycle during stimulation with epidermal growth factor].

The most popular object for studying endocytosis of EGF-receptor complexes, human epidermoid carcinoma A431, was shown to answer to EGF in high concentration (100 ng/ml) by growth inhibition, being indifferent to lower (0.1-1 ng/ml) concentrations. At the same time, cells NIH 3T3, expressing human EGF receptor (HER14), and epithelial mammary cells HC11 increased 14C-thymidine incorporation into DNA after EGF addition. However, for HER14 cells stimulatory effect of EGF was twice weaker than that induced by serum, whereas the effect of EGF on 14C-thymidine incorporation in DNA of cells HC11 was approximately 5 times stronger compared to serum. Therefore, cells HC11 may be referred to as EGF-dependent. Cell cycle analysis by fluorimetry showed that more than 90% of serum-starved HER14 and HC11 were in G0/G1. Within 19-20 h after stimulation by EGF 70-90% of HC11 cells and only 30-40% of HER14 cells were in S-phase. EGF removing from culture medium earlier than 9-11 h after stimulation blocked entering of HC11 cells into S-phase, whereas such EGF-dependent period was not found for cells HER14. Thus, synchronization of progression through early stages of cell cycle, stimulated by EGF and the presence of well defined "early" (EGF-dependent) and "late" (EGF-independent) phases, make cells HC11 convenient object for studying physiological role of EGF receptor complexes endocytosis.