Bioinspired Synthesis of Juglorubin from Juglomycin C

Anti-hepatitis C Virus Activity of Juglorubin Derivatives

Juglorubin is a natural dye isolated from the culture of Streptomyces sp. 3094, 815, and GW4184. It has been previously synthesized via the biomimetic dimerization of juglomycin C, a plausible genetic precursor. In this study, the derivatives of juglorubin, 1-O-acetyljuglorubin dimethyl ester and juglorubin dimethyl ester, were found to exhibit antiviral activity against hepatitis C virus (HCV) without exerting any remarkable cytotoxicity against host Huh-7 cells. They also inhibited liver X receptor α activation and lipid droplet accumulation in Huh-7 cells. These findings suggest that 1-O-acetyljuglorubin dimethyl ester and juglorubin dimethyl ester targeted the host factors required for HCV production.

Synthetic and Biological Studies of Juglorubin and Related Naphthoquinones

Juglorubin, juglorescein, and juglocombins A/B are naturally occurring naphthoquinone dimers isolated from Streptomyces sp. These dimers are proposed to be biogenetically derived from juglomycin C, a monomeric naphthoquinone isolated from the same Streptomyces sp. In this study, the dimerization of a juglomycin C derivative, a key step in the total syntheses of these natural products, was investigated. Juglorubin was synthesized from the minor product of the dimerization via the formation of the juglocombin A/B stereoisomers. A mechanism for the dimerization reaction as well as a plausible biosynthetic pathway to obtain juglorubin from juglomycin C are proposed. Furthermore, the antibacterial and cytotoxic activities of five synthetic compounds were evaluated. Among the compounds tested in this study, 1'-O-methyljuglocombin B dimethyl ester and juglomycin C exhibited antibacterial activity against Bacillus subtilis. 1'-O-Methyljuglocombin B dimethyl ester and juglomycin C showed cytotoxicity against human colon carcinoma HCT116 cells and human leukemia HL-60 cells. 1'-O-Methyljuglocombin B dimethyl ester exhibited cytotoxicity against human normal MRC-5 cells as strong as that against human cancer cells. In contrast, juglomycin C was less toxic against normal MRC-5 cells, indicating a significant selectivity toward cancer cells.

Unified Approach toward Syntheses of Juglomycins and Their Derivatives

A unified and common intermediate strategy for syntheses of juglomycins and their derivatives is reported. The use of a 1,4-dimethoxynaphthalene derivative as a key intermediate enabled easy access to various juglomycin derivatives. In this study, juglomycins A-D, juglomycin C amide, khatmiamycin and its 4-epimer, and the structure proposed for juglomycin Z were synthesized from this intermediate. The absolute configuration of natural khatmiamycin has been established to be 3R,4R through our synthesis. Unfortunately, the spectroscopic data for synthetic juglomycin Z were not consistent with the data reported for the natural one, strongly suggesting a structural misassignment.