Hormonal regulation of epidermal growth factor receptor content and signaling in bovine mammary tissue

Abstract

Mammary tissue from midpregnant heifers was cultured with epidermal growth factor (EGF) or transforming growth factor alpha for 1-3 days. After 1 day, 10 nM EGF or transforming growth factor alpha doubled DNA synthesis, whereas lower concentrations (0.1 or 1 nM) increased DNA synthesis 2- to 3-fold after 2-3 days in culture. In other studies, bovine mammary tissue was transplanted to ovariectomized athymic mice and treated for 10 days with saline, estradiol (1 microg/day), progesterone (1 mg/day), or estradiol + progesterone. Subsequent explant culture of the bovine tissue indicated that estradiol + progesterone augmented the ability of EGF to stimulate DNA synthesis. The increased response to EGF was associated with increased EGF binding and with increased EGF-induced tyrosine kinase that paralleled the increased EGF binding. In other studies, athymic mice bearing xenografted bovine mammary tissue were primed for 10 days with estradiol and progesterone, followed by 2-day treatment with saline (control), hydrocortisone (200 microg/day), PRL (1 mg/day), or hydrocortisone + PRL. Hydrocortisone and PRL alone decreased, and PRL + hydrocortisone eliminated, EGF-induced DNA synthesis. EGF receptor content was unaffected by hydrocortisone but was reduced by PRL or hydrocortisone + PRL. Furthermore, the ability of EGF to induce tyrosine kinase activity was decreased by PRL and by hydrocortisone + PRL. The decreased kinase activity was greater than the decrease in receptor binding, suggesting a specific modulation of EGF receptor kinase activity in response to lactogenic hormones.