Enhanced production of perylenequinones in the endophytic fungus Shiraia sp. Slf14 by calcium/calmodulin signal transduction.

Abstract

Perylenequinones (PQ) that notably produce reactive oxygen species upon exposure to visible light are a class of photoactivated polyketide mycotoxins produced by fungal plant pathogens such as Shiraia sp. The involvement of Ca2+/calmodulin (CaM) signalling in PQ biosynthesis was investigated by submerged culturing of Shiraia sp. Slf14, a species that produces hypocrellins HA and HB and elsinochromes EA, EB, and EC. Our results showed that the total content of PQ reached 1894.66±21.93mg/L under optimal conditions of Ca2+ addition, which represents a 5.8-fold improvement over controls. The addition of pharmacological Ca2+ sensor inhibitors strongly inhibited PQ production, which indicates that Ca2+/CaM signalling regulates PQ biosynthesis. The expression levels of Ca2+ sensor and PQ biosynthetic genes were downregulated following addition of inhibitors but were upregulated upon addition of Ca2+. Inhibition was partially released by external Ca2+ supplementation. Fluo-3/AM experiments revealed that similar cytosolic Ca2+ variation occurred under these conditions. These results demonstrated that Ca2+ signalling via the CaM transduction pathway plays a pivotal role in PQ biosynthesis.