Characterization of Cinnamomum kanehirae Extract-Stimulated Triterpenoids Synthesis in Submerged Fermentation of Antrodia camphorata via Untargeted Metabolomics.

The underlying mechanisms of Cinnamomum kanehirae-stimulated growth and metabolism of Antrodia camphorata remain unknown. Herein, we first observed that the methanol extract of C. kanehirae trunk (MECK) (2 g/L) showed a potent stimulatory effect on A. camphorata triterpenoids production (115.6 mg/L). Second, MECK treatment considerably increased the category and abundance of many secondary metabolites in the mycelia. We identified 93 terpenoids (8 newly formed and 49 upregulated) in the MECK-treated mycelia, wherein 21 terpenoids were the same as those in the fruiting bodies. Third, 42 out of the 93 terpenoids were annotated in the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways, mainly involving monoterpenoids and diterpenoids syntheses. Finally, 27 monoterpenes and 16 sesquiterpenes were detected in the MECK, and the two terpenoids with the highest abundance (linalool and α-pinene) were selected for verification and found to considerably increase the terpenoids production of A. camphorata and demonstrate the regulation of mRNA expression levels of nine key genes in the mevalonate pathway via RT-qPCR. This study is beneficial for elucidating the terpenoids synthesis mechanism in A. camphorata.

Promotion of Metabolite Synthesis in Isaria cicadae, a Dominant Species in the Cicada Flower Microbiota, by Cicada Pupae.

Cicada flowers, which are edible and medicinal mushrooms, are the fruiting bodies of Isaria cicadae, a fungus that is parasitic on the larvae of cicada pupae. We hypothesize that host factors might possess stimulatory activity on metabolite synthesis in Isaria cicadae. Here, we first compared the microbial community structures of different wild cicada flowers across geographical regions, compartments, and growth stages via high-throughput sequencing. Isaria cicadae TZC-3, an isolate of the most abundant operational taxonomic unit (OTU6782) in all the fungal communities, was isolated from wild cicada flowers. Furthermore, the effects of cicada pupae on metabolite synthesis in Isaria cicadae TZC-3 were studied in submerged culture. The contents of intercellular polysaccharides, adenosine, N6-(2-hydroxyethyl)-adenosine, free amino acids, and hydrolyzed monosaccharides in the mycelia cultured with cicada pupa powder (4%) were significantly increased as compared with the contents in the control group. This indicates that a cicada pupa can act as an elicitor for metabolite synthesis in Isaria cicadae.