Wnt signaling activation confers a syncytiotrophoblast progenitor state on trophoblast stem cells of cynomolgus monkey.

Trophoblast stem cells (TSCs), derived from the trophectoderm of the blastocyst, are used as an in vitro model to reveal the mechanisms underlying placentation in mammals. In humans, suitable culture conditions for TSC derivation have recently been established. The established human TSCs (hTSCs) differentiate efficiently toward two trophoblast subtypes: syncytiotrophoblasts (STBs) and extravillous trophoblasts (EVTs). However, the efficiency of differentiation is lower in macaque TSCs than in hTSCs. Here, we demonstrate that the activation of Wnt signaling downregulated the expression of inhibitory G protein and induced trophoblastic lineage switching to the STB progenitor state. The treatment of macaque TSCs with a GSK-3 inhibitor, CHIR99021, upregulated STB progenitor markers and enhanced proliferation. Under the Wnt signaling-activated conditions, macaque TSCs effectively differentiated to STBs upon dbcAMP and forskolin treatment. RNA-seq analyses revealed the downregulation of inhibitory G protein, which may make macaque TSCs responsive to forskolin. Interestingly, this lineage switching appeared to be reversible as the macaque TSCs lost responsiveness to forskolin upon the removal of CHIR99021. The ability to regulate the direction of macaque TSC differentiation would be advantageous in elucidating the mechanisms underlying placentation in non-human primates.