Abstract: | Tritium-labelled thymidine was injected 45 min before sacrifice into virgin female C3H/HeJ mice 7–23 weeks of age, as well as into 10-week-old mice which had been ovariectomized and treated daily with 1 μg of oestradiol-17β and/or 1 mg of progesterone. Autoradiographs were made of squash preparations of the mammary glands, stained by Feulgen's method. The following results were obtained: (1) During normal development of the gland, cells synthesizing DNA are abundant in terminal buds and virtually absent in duct epithelium. Hence ductal growth takes place by the addition of cells produced in the terminal end structures. (2) At 5–6 months, when mammary growth has ceased, a considerable number of cells synthesizing DNA can still be found in alveoli, though not in duct epithelium. Hence the alveolar cells constitute a renewal population in the adult virgin. Because they maintain the potentiality to divide, duct cells are a G0 population. (3) Ovariectomy results in arrest of DNA synthesis within 3–5 days. Both oestradiol and progesterone restore DNA synthesis in alveoli but only progesterone is able to induce DNA synthesis in duct epithelium, and the differentiation of terminal buds into alveoli. This finding provides an explanation for the resumed proliferation of duct cells in pregnancy. (4) The number of cells engaged in DNA synthesis varies considerably among identical structures within the same gland. This may be due either to synchrony of cell replication and/or to fluctuations of proliferative activity in the gland. |