Estrous cycle regulation of mammary epithelial cell proliferation, differentiation, and death in the Sprague-Dawley rat: A model for investigating the role of estrous cycling in mammary carcinogenesis

The Sprague-Dawley rat is highly regarded for studies designed to investigate the effects of endocrine modulation on mammary carcinogenesis. In this study, we further evaluate the validity of the Sprague-Dawley rat model for the study of human breast cancer by evaluating the effects of normal 4-day estrous cycling on mammary epithelial cell proliferation, differentiation, and apoptotic death. Trends in mammary gland development with stage of 4-day estrous cycle were evident. Mammary glands isolated from follicular and early luteal stages had predominantly ductal histoarchitecture, whereas glands isolated from mid-late luteal were predominantly lobuloalveolar. Quantitation of BrdU incorporation revealed that epithelial cell proliferation was eight-fold higher in metestrus and diestrus-l than in proestrus. Expression of beta -casein and whey acidic protein (WAP)(4) mRNA was also highly dependent on stage of estrous, with detection restricted to midcycle. Apoptotic cell death of mammary epithelium was found to be suppressed during the peak in cell proliferation. TRPM-2/clusterin mRNA was elevated when apoptosis was low and milk protein mRNA levels were high, consistent with putative roles for TRPM-2/clusterin in inhibiting cell death in regressing tissues and inducing mammary epithelial cell differentiation. Cell proliferation, differentiation, and death occurred only in a subset of epithelial cells per estrous cycle, and these cells appeared randomly distributed throughout multiple ductules and alveoli. These observations suggest that cellular response(s) to ovarian hormone-dependent signals is asynchronous. Cumulatively, these observations demonstrate that rat mammary epithelial cell proliferation, differentiation, and death are under the control of cycling ovarian hormones, similarly to the human mammary epithelium during the menstrual cycle.