A repertoire of cell cycle regulators whose expression is coordinated with human cytotrophoblast differentiation.

Although placental development depends on careful coordination of trophoblast proliferation and differentiation, little is known about the mitotic regulators that are key to synchronizing these events. We immunolocalized a broad range of these regulators in tissue sections of the maternal-fetal interface (first trimester through term) that contained floating villi (which include cytotrophoblasts differentiating into syncytiotrophoblasts) and anchoring villi (which include cytotrophoblasts differentiating into invasive cells). Trophoblast populations at the maternal-fetal interface stained for 16 of the cell cycle regulators whose expression we studied. The staining patterns changed as a function of both differentiation and gestational age. Differentiation along the invasive pathway was associated with entrance into, then permanent withdrawal from, the cell cycle, as evidenced by the orchestrated expression of cyclins, their catalytic subunits, and inhibitors. Surprisingly, we found coexpression of molecules that regulate different portions of the cell cycle in the syncytium. These data, which constitute one of the few examples to date of in situ localization of an extensive repertoire of mitotic regulators, provide the basis for studies aimed at understanding factors that lead to abnormal placentation.