Physiologic concentrations of magnesium and placental apoptosis: prevention by antioxidants.

OBJECTIVE: To identify the role of physiologic magnesium concentrations on the induction of placental apoptosis in vitro and test the anti-apoptotic action of antioxidants.
METHODS: Placental tissue was obtained from normal pregnancies after cesarean delivery. Placental explants were incubated with increasing concentrations of extracellular magnesium (range 0-2.0 mM). Placental apoptosis was evaluated by tissue morphology, DNA fragmentation, cytokeratin-18 neoepitope formation, and cleavage of plasminogen activator inhibitor type 2.
RESULTS: Physiologic concentrations of extracellular magnesium stimulated placental apoptosis. Magnesium stimulated apoptosis within the physiologic range (0.8-1.2 mM) (n = 6, P <.001) and was associated with cleavage of plasminogen activator inhibitor type 2 and cytokeratin-18 neoepitope formation. These data implicate caspase activation in the transduction of the magnesium-induced apoptotic signal. Therapeutic concentrations of vitamin C, vitamin E, and acetylcysteine (all at 25 microg/mL) inhibited DNA fragmentation and attenuated cleavage of plasminogen activator inhibitor type 2 and cytokeratin-18 neoepitope formation.
CONCLUSION: Magnesium-induced placental apoptosis is a potent mechanism of placental degeneration in vitro and may represent an important regulator of placental tissue dynamics in vivo. The ability of antioxidants to prevent magnesium-induced placental apoptosis implicates oxidation-reduction-dependent signaling events in this process. Furthermore, these findings provide a basis for further studies of antioxidants in mitigating the adverse effects of preeclampsia.