Cytology and autoradiography of estrogen-induced differentiation of avian endosteal cells.

The endosteal reaction, the initial step in the formation of medullary bone, was investigated in femurs of estrogen-treated male Japanese quail. Morphologically, the endosteal cells were in an undifferentiated state until 30 h after estrogen treatment and showed characteristics resembling those of resting cells. Many preosteoblasts were seen on the endosteum at 33 h, whereas mitotic figures and fully differentiated osteoblasts were recognized at 36 h after estrogen. The mitotic figures were observed among the preosteoblasts on the endosteum. Autoradiographs showed that the number of endosteal cells labeled by [3H]thymidine injected 1 h before sacrifice was maximal 27 h after the estrogen administration and decreased markedly by 30 h. When a single injection of [3H]thymidine was given at 26 h after estrogen, the highest percent of labeled endosteal cells was observed 1 h later (27 h after estrogen). Labeled preosteoblasts and osteoblasts were observed at 7 h (33 h after estrogen) and 10 h (36 h after estrogen), respectively. Our results show that under the influence of estrogen, endosteal cells are induced to maximally synthesize DNA about 27 h after estrogen. These cells appear to modulate into preosteoblasts in about 6 h and then divide via mitosis to become osteoblasts within an additional 3 h. The development of medullary bone induced by estrogen occurs in a sequential and predictable manner, which makes it a useful system for studying basic problems on bone cell differentiation.