Abstract

20-Hydroxyecdysone (20E) triggers programmed cell death (PCD) and regulates de novo gene expression in the anterior silk glands (ASGs) of the silkworm Bombyx mori. PCD is mediated via a nongenomic pathway that includes Ca 2+ as a second messenger and the activation of protein kinase C/caspase-3-like protease; however, the steps leading to a concomitant buildup of intracellular Ca 2+ are unknown. We employed pharmacological tools to identify the components of this pathway. ASGs were cultured in the presence of 1 μM 20E and one of the following inhibitors: a G-protein-coupled receptor (GPCR) inhibitor, a phospholipase C (PLC) inhibitor, an inositol 1,4,5-trisphosphate receptor (IP 3R) antagonist, and an L- or T-type Ca 2+ channel blocker. The T-type Ca 2+ channel blocker inhibited 20E-induced nuclear and DNA fragmentation; in contrast, PCD was induced by 20E in Ca 2+-free medium, indicating that the source of Ca 2+ is an intracellular reservoir. The IP 3R antagonist inhibited nuclear and DNA fragmentation, suggesting that the endoplasmic reticulum may be the Ca 2+ source. Finally, the GPCR and PLC inhibitors effectively blocked nuclear and DNA fragmentation. Our results indicate that 20E increases the intracellular level of Ca 2+ by activating IP 3R, and that this effect may be brought about by the serial activation of GPCR, PLC, and IP 3.

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