Growth and survival of the trophoblast layer of the human placenta depends on continuous incorporation of villous trophoblast stem cells (cytotrophoblast), by syncytial fusion, into the syncytiotrophoblast. Descriptive studies suggest that this process may be intimately related to apoptosis. We have analyzed the expression and activation of initiator and execution caspases, critical effectors of apoptosis, in relation to trophoblast turnover (differentiation) in human placental villi. We used immunohistochemistry, caspase enzyme histochemistry, caspase activity assays, Western blots, and autoradiography techniques on placental tissue sections, trophoblast lysates, villous explants, and isolated trophoblast fragments (villous cytotrophoblast and mononuclear syncytial elements) in vitro. Our data demonstrate expression of initiator caspases 8 and 10 and activity of caspase 8 in villous cytotrophoblast. Proforms of the execution caspases 3, 6, and 7 were also expressed in villous cytotrophoblast, but activation of execution caspases 3 and 6 could only be demonstrated in the syncytiotrophoblast after syncytial fusion. Down-regulation of the general transcription level (reduced incorporation of [3H]uridine) as well as cleavage of the execution caspase substrates poly-(ADP-ribose)polymerase and lamin B was confined to syncytiotrophoblast and preceded the final events of apoptotic death (terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling reactivity and nuclear collapse). Our data confirm that the apoptosis cascade in villous trophoblast is regulated in parallel with trophoblast differentiation, syncytial fusion, and trophoblast turnover.