Dependence of UV-B-induced camptothecin production on nitrate reductase-mediated nitric oxide signaling in Camptotheca acuminata suspension cell cultures

Abstract

UV-B irradiation induced production of secondary metabolites in plant cells. However, the mechanisms of UV-B-induced secondary metabolite production remained largely unknown. Here we report that UV-B treatment stimulated nitric oxide (NO) generation and camptothecin (CPT) production in Camptotheca acuminata cells. To investigate the origin of the UV-B-triggered NO and the role of NO in UV-B-induced CPT production, we assayed the responses of nitrate reductase (NR) and NO synthase (NOS) activities of the cells to UV-B exposure and examined the effects of NR and NOS inhibitors on CPT production in UV-B-treated cells. The data showed that UV-B irradiation enhanced NR activities in the cells. Pretreatment with NR inhibitors tungstate and okadaic acid not only suppressed the UV-B-triggered NR activities but also inhibited the UV-B-induced NO generation and CPT production in the cells. In contrast, UV-B irradiation had no effects on NOS activity of the cells and treatment of NOS inhibitor did not suppress UV-B-induced CAT production. Together, the results demonstrated that NR activity was essential for UV-B-triggered NO generation and that NR-mediated NO signaling was involved in UV-B-induced CPT production in C. acuminata cells.