Estrogen stimulates growth of mammary tumor cells ZR-75 without activation of S6 kinase and S6 phosphorylation. Difference from epidermal growth factor and alpha-transforming growth-factor-induced proliferation.

Growth of the human mammary tumor cell line ZR-75-1 is stimulated by epidermal growth factor (EGF) and alpha-type transforming growth factor (alpha TGF), as well as by estradiol (E2). The role of activation of S6 kinase and S6 phosphorylation in the EGF(alpha TGF)-induced and E2-induced growth was investigated. Maximal effects on growth are observed at 10 nM EGF or alpha TGF. EGF as well as alpha TGF treatment of serum-starved cells leads to rapid activation of S6 kinase; the activity is increased about tenfold after 30 min of EGF treatment and declines with the time reaching about 25% of the maximal activity after 2 h of EGF treatment. Similar to the growth response, S6 kinase is activated at lower doses of EGF than alpha TGF and shows a maximal response at 10 nM for both growth factors. In contrast to this finding the incubation of serum-starved cells with E2 over a concentration range between 1 pM and 10 nM and times from 30 min to 4 h does not lead to increased S6 kinase activity. On investigating whether this lack of response to E2 is due to desensitization of the system by induction of alpha TGF it was found that preincubation of cells with alpha TGF for 2-6 h desensitizes them to reactivation of S6 kinase by alpha TGF, whereas preincubation with E2 does not. When S6 phosphorylation is monitored over times from 1 h to 6 h, it is observed that EGF leads to increased S6 phosphorylation, whereas E2 does not. The rate of onset of protein synthesis in the first 2 h of stimulation, when EGF-induced S6 phosphorylation is maximal, is more rapid with EGF than with E2. The results suggest that different pathway are involved in E2-induced and EGF(alpha TGF)-induced proliferation.