Comparative Proteomic Analysis of Lithospermum erythrorhizon Reveals Regulation of a Variety of Metabolic Enzymes Leading to Comprehensive Understanding of the Shikonin Biosynthetic Pathway.

Plants produce a large variety of specialized (secondary) metabolites having a wide range of hydrophobicity. Shikonin, a red naphthoquinone pigment, is a highly hydrophobic metabolite produced in the roots of Lithospermum erythrorhizon, a medicinal plant in the family Boraginaceae. The shikonin molecule is formed by the coupling of p-hydroxybenzoic acid and geranyl diphosphate, catalyzed by a membrane-bound geranyltransferase LePGT at the endoplasmic reticulum, followed by cyclization of the geranyl chain and oxidations; the latter half of this biosynthetic pathway, however, has not yet been clarified. To shed light on these steps, a proteome analysis was conducted. Shikonin production in vitro was specifically regulated by illumination and by the difference in media used to culture cells and hairy roots. In intact plants, however, shikonin is produced exclusively in the root bark of L. erythrorhizon. These features were utilized for comparative transcriptome and proteome analyses. As the genome sequence is not known for this medicinal plant, sequences from de novo RNA-seq data with 95,861 contigs were used as reference for proteome analysis. Because shikonin biosynthesis requires copper ions and is sensitive to blue light, this methodology identified strong candidates for enzymes involved in shikonin biosynthesis, such as polyphenol oxidase, cannabidiolic acid synthase-like and neomenthol dehydrogenase-like proteins. Because acetylshikonin is the main end product of shikonin derivatives, an O-acetyltransferase was also identified. This enzyme may be responsible for end product formation in these plant species. Taken together, these findings suggest a putative pathway for shikonin biosynthesis.

Characterization of Shikonin Derivative Secretion in Lithospermum erythrorhizon Hairy Roots as a Model of Lipid-Soluble Metabolite Secretion from Plants.

Shikonin derivatives are specialized lipophilic metabolites, secreted in abundant amounts from the root epidermal cells of Lithospermum erythrorhizon. Because they have anti-microbial activities, these compounds, which are derivatives of red naphthoquinone, are thought to serve as a chemical barrier for plant roots. The mechanism by which they are secreted from cells is, however, largely unknown. The shikonin production system in L. erythrorhizon is an excellent model for studying the mechanism by which lipophilic compounds are secreted from plant cells, because of the abundant amounts of these compounds produced by L. erythrorhizon, the 0 to 100% inducibility of their production, the light-specific inhibition of production, and the visibility of these products as red pigments. To date, many factors regulating shikonin biosynthesis have been identified, but no mechanism that regulates shikonin secretion without inhibiting biosynthesis has been detected. This study showed that inhibitors of membrane traffic strongly inhibit shikonin secretion without inhibiting shikonin production, suggesting that the secretion of shikonin derivatives into the apoplast utilizes pathways common to the ADP-ribosylation factor/guanine nucleotide exchange factor (ARF/GEF) system and actin filament polymerization, at least in part. These findings provide clues about the machinery involved in secreting lipid-soluble metabolites from cells.