2002 Volume 55 Issue 3 Pages 315-321
UK-2A is a potent antifungal antibiotic and its structure is highly similar to that of antimycin A3 (AA). UK-2A and AA inhibit mitochondrial electron transport at complex III. However, the antifungal activities of UK-2A and AA disappear after 48-hour treatment. In an attempt to improve the duration of the antifungal activity of UK-2A, several UK-2A derivatives were prepared by substituting its nine-membered dilactone ring with an n-alkyl or an isoprenyl moiety. Among all the derivatives tested, C9- and C10-UK-2A showed the most potent and durable antifungal activities against a strict aerobic yeast, Rhodotorula mucilaginosa IFO 0001. C9-UK-2A, in particular, continued to demonstrate its broad-spectrum antifungal activity after 120-hour treatment. Therefore, we focused on C9-UK-2A to further examine its mode of action against the yeast. Interestingly, C9-UK-2A did not inhibit cellular respiration of the cells even at concentrations greater than 100μg/ml. C9-UK-2A gradually induced the efflux of potassium ions from the cells. Moreover, C9-UK-2A gradually induced the release of glucose from glucose-encapsulating liposomes. The patterns of efflux and release induced by C9-UK-2A were not as rapid as those seen with amphotericin B. These results suggest a membrane injury caused by C9-UK-2A in R. mucilaginosa IFO 0001.
