Sorting out the role of nitric oxide in cadmium-induced Arabidopsis thaliana programmed cell death

As a vital cell-signaling molecule, nitric oxide (NO) has been reported to regulate toxic metal responses in plants. Our recent report has suggested that caspase-3-like protease activation was detected in Arabidopsis (Arabidopsis thaliana) after Cd²⁺ treatment. NO contributed caspase-3-like protease activation in Cd²⁺ induced Arabidopsis thaliana programmed cell death (PCD), which was mediated by MPK6. It was first shown that NO promotes Cd²⁺-induced Arabidopsis PCD by promoting MPK6-mediated caspase-3-like activation. Our study contributed to the understanding of NO signaling pathway in Cd²⁺-induced Arabidopsis thaliana PCD. Although several studies have revealed that NO regulates plant PCD, compared with the study of signaling pathways involved in animal cell apoptosis, the mechanism of NO function still remains elusive and the molecular mechanisms of MAPK are far from clear in Cd²⁺-induced PCD. By using the fluorescence techniques and the Arabidopsis seedlings as the reference model, the subsequent researches have been performed to obtain comprehensive understanding of Cd²⁺-induced plant PCD.