Protein kinase Cδ and caspase‐3 modulate TRAIL‐induced apoptosis in breast tumor cells

This report describes that protein kinase C delta (PKCδ) overexpression prevents TRAIL‐induced apoptosis in breast tumor cells; however, the regulatory mechanism(s) involved in this phenomenon is(are) incompletely understood. In this study, we have shown that TRAIL‐induced apoptosis was significantly inhibited in PKCδ overexpressing MCF‐7 (MCF7/PKCδ) cells. Our data reveal that PKCδ inhibits caspase‐8 activation, a first step in TRAIL‐induced apoptosis, thus preventing TRAIL‐induced apoptosis. Inhibition of PKCδ using rottlerin or PKCδ siRNA reverses the inhibitory effect of PKCδ on caspase‐8 activation leading to TRAIL‐induced apoptosis. To determine if caspase‐3‐induced PKCδ cleavage reverses its inhibition on caspase‐8, we developed stable cell lines that either expresses wild‐type PKCδ (MCF‐7/cas‐3/PKCδ) or caspase‐3 cleavage‐resistant PKCδ mutant (MCF‐7/cas‐3/PKCδ mut) utilizing MCF‐7 cells expressing caspase‐3. Cells that overexpress caspase‐3 cleavage‐resistant PKCδ mutant (MCF‐7/cas‐3/PKCδmut) significantly inhibited TRAIL‐induced apoptosis when compared to wild‐type PKCδ (MCF‐7/cas‐3/PKCδ) expressing cells. In MCF‐7/cas‐3/PKCδmut cells, TRAIL‐induced caspase‐8 activation was blocked leading to inhibition of apoptosis when compared to wild‐type PKCδ (MCF‐7/cas‐3/PKCδ) expressing cells. Together, these results strongly suggest that overexpression of PKCδ inhibits caspase‐8 activation leading to inhibition of TRAIL‐induced apoptosis and its inhibition by rottlerin, siRNA, or cleavage by caspase‐3 sensitizes cells to TRAIL‐induced apoptosis. Clinically, PKCδ overexpressing tumors can be treated with a combination of PKCδ inhibitor(s) and TRAIL as a new treatment strategy. J. Cell. Biochem. 111: 979–987, 2010. © 2010 Wiley‐Liss, Inc.