CELL PROLIFERATION IN THE ERYTHROID COMPARTMENT OF GUINEA‐PIG BONE MARROW: STUDIES WITH 3H‐THYMIDINE

Single and multiple injections of 3 H‐TdR have been used for measuring the rate of proliferation in morphologically defined cell populations of guinea‐pig bone marrow that are committed to erythroid differentiation. The conclusions are based on the analysis of absolute cell numbers in the maturational compartments, the labeling and mitotic indices, labeled mitotic curves, pulse and chase grain counts over dividing and interphase cells, and on the rate of labeling during multiple, repeated injections of 3 H‐TdR. The average duration of S and the rate of cycling is similar in all maturational compartments of the erythron. The majority of cells progress to the next maturational compartment by the time they divide for the second time. All proerythroblasts and basophilic erythroblasts are in cycle. Polychromatic erythroblasts incapable of incorporating 3 H‐TdR reach the orthochromatic population in the span of 5–6 hr. The orthochromatic population is renewed every 20–24 hr. The number of divisions between the proerythroblast and orthochromatic erythroblast does not exceed four and some cells may undergo only two divisions during the maturation pathway. Cell input from a progenitor cell population contributes to the maintenance of the erythron. The kinetic behavior of progenitor cells is similar to that of proerythroblasts. By the time of their second division, progenitor cells may reach either the proerythroblast or basophilic erythroblast compartments. The kinetic behavior of basophilic transitional cells corresponds to the predicted behavior of the erythroblast progenitor cell pool. Several of the conclusions are based on the assumption that grain count halving is the result of cell division. In view of the evidence discussed, this assumption in the present studies seems justified.