Lysophosphatidic acid inhibits anti‐Fas‐mediated apoptosis enhanced by actin depolymerization in epithelial ovarian cancer

Conflicting reports exist on the effect of actin depolymerization in anti‐Fas‐induced apoptosis. Lysophosphatidic acid (LPA) has been found to inhibit apoptosis in variable cell types. In this study, we evaluated LPA's protective effects on anti‐Fas‐induced apoptosis enhanced by actin depolymerization and possible mechanisms in epithelial ovarian cancer. OVCAR3 cells were pretreated with vehicle or LPA, then treated with Cytochalasin D (Cyto D), followed with anti‐Fas mAb to induce apoptosis. Cells were stained with apoptotic markers and analyzed by flow cytometry. We report that LPA inhibited anti‐Fas‐induced apoptosis enhanced by actin depolymerization. Immunoprecipition of Fas death‐inducing signaling complex (DISC) and Western blot suggested that the actin depolymerization accelerated caspase‐8 activation, while LPA inhibited the association and activation of caspase‐8 at the DISC. LPA inhibited caspase‐3 and 7 activation induced by anti‐Fas and/or Cyto D in cytosols. Phosphorylation of ERK and Bad112 by LPA may play a role in preventing caspase‐3 activation through mitochondrial pathway induced by Cyto D. Our investigation found that LPA inhibited anti‐Fas‐induced apoptosis enhanced by actin depolymerization, and LPA may protect epithelial ovarian cancer from immune cell attack and cytoskeleton disrupting reagents induced apoptosis through multiple pathways.