Feldamycin

Syntheses of melanostatin and feldamycin have been completed from L-serine and L-threonine, respectively, and the configuration of unknown asymmetric carbons determined. Feldamycin analogs have also been prepared and the L-tryptophyl analog was the most potent in the depigmentation of Streptomyces bikiniensis and B16 melanoma cells.

A novel screening method for melanin biosynthesis inhibitors using Streptomyces bikiniensis NRRL B-1049 as the indicator organism has been developed. Several known compounds, including tyrosinase inhibitors, were found to inhibit melanin production of S. bikiniensis on agar plates. This screening method was applied to fermentation broths of actinomycetes and several cultures with melanin biosynthesis inhibitory activity were found.

The mechanism of a novel melanin synthesis inhibitor, BMY-28565, was studied using mouse B16 melanoma cells. This compound was active in depressing the intracellular accumulation of melanin with an IC50 of 5 microM. At dose levels causing no cytotoxicity, the melanolytic effect of this compound was correlated strongly with depression of the enzymatic activity of tyrosinase (monophenol oxygenase, EC 1.14.18.1), the key enzyme in the melanin synthesis pathway. Transcription of the tyrosinase gene was not inhibited by BMY-28565, as determined by RNA blotting analysis. BMY-28565 and three other active derivatives of this compound caused increased glycosylation of proteins in B16 melanoma cells, as assessed by radioactive mannose incorporation. It is, thus, suggested that the mechanism of inhibition of tyrosinase might be related to modifications of the sugar moiety of this enzyme or of a protein(s) that is essential for the expression of its enzymatic activity.