Autonomous regulation of proliferation and growth arrest in mouse primordial germ cells studied by mixed and clonal cultures.

In culture, mouse primordial germ cells (PGCs) proliferate and undergo growth arrest with a time course similar to that in vivo. It is unclear whether this behavior is regulated autonomously or by coexisting somatic cells. We performed mixed culture experiments using PGCs from 8.5- and 11.5-d.p.c. embryos and found no interaction between the PGCs and somatic cells at the two stages. Next, we carried out clonal culture of PGCs and examined the proliferation of and morphological change in individual clones. Such clonal culture did not reveal any subpopulation of PGCs with an increased growth rate or less differentiated characteristics, which might have been suggested by formation of the embryonic germ cell lines. Our results suggest that there is an autonomous regulation of growth and cell shape change in PGCs which occur as stochastical events but are not strictly timed by the number of cell divisions.