Temporal Characteristics of the Differentiation of Embryonic Erythroid Cells in Fetal Peripheral Blood of the Syrian Hamster

Abstract

The morphological changes in erythroid cells and their nuclei in the circulation of fetuses of the Syrian hamster were investigated by use of an image‐processing system. The analysis included monitoring of nuclear condensation, nuclear periphralization (access of the nucleus to the cell membrane), enucleation, density of cells, and changes in cell size from day 9 of gestation to day 5 after birth. The yolk‐sac‐derived erythroid cells made rapid progress in nuclear condensation on day 11, while this process proceeded at a much lower rate after day 12 of gestation. The peripheralization of nuclei started on day 10 and reached a maximum on day 11. The frequency of enucleated cells was below 2% on day 11, while it increased to 30% on day 12. Extruded nuclei, most of which were accompanied by a small quantity of cytoplasm, appeared in the circulation on day 12. The most frequently observed diameter of enucleated erythrocytes, which was 10–10.5 μm on day 12, fell gradually to 8–9 μm on day 14. By contrast, the shift from fetal liver erythrocytes to adult erythrocytes occurred in a discontinuous manner. Adult‐type erythrocytes were detected after birth with diameters of 5.5–6 μm. Our data allows us to present the schedule of morphological changes during embryonic erythropoiesis and show that the developmental behavior of “primitive” yolk‐sac‐derived erythroid cells is more closely correlated with that of the “definitive” fetal liver cells than has been considered to be the case to date.