Papain-like cysteine proteases are involved in programmed cell death in plants under heavy metal stress

Abstract

Programmed cell death (PCD) plays a crucial role in plant development (dPCD) and is also activated under the influence of environmental factors (ePCD). As the mechanism of PCD under heavy metal stress is poorly understood, a suspension culture of cells from the facultative metallophyte Viola tricolor was used as a model to study the role of caspase-like proteases in PCD in plant cells under heavy metal stress.Cell suspension cultures treated with Zn or Pb (2000 μM for 72 h) were subjected to TUNEL assay and ligand blotting using a biotinylated inhibitor of caspase-like proteases (biotin-xVAD-fmk). The results from the TUNEL assay showed that the frequency of PCD events was significantly higher in the metal-treated suspended cells (6.8–19.6 % vs 21.8–30.1 %, Zn or Pb, respectively) than it was in the control cells (7.1–9.1 %). The results from the biotinylated inhibitor blot analysis revealed that papain-like cysteine proteases (PLCPs) were involved in heavy metal-induced PCD. Exogenous application of the PLCPs inhibitor E-64-d at a concentration of 50 μM together with Zn or Pb remarkably increased cell viability.This is the first report on the role of the PLCPs in ePCD in plant cells under heavy metal stress.