Autor: |
Mandala, Suzanne M., Thornton, Rosemary A., Milligan, James, Rosenbach, Mark, Garcia-Calvo, Margarita, Bull, Herbert G., Harris, Guy, Abruzzo, George K., Flattery, Amy M., Gill, Charles J., Bartizal, Kenneth, Dreikorn, Sarah, Kurtz, Myra B. |
Zdroj: |
Journal of Biological Chemistry; June 1998, Vol. 273 Issue: 24 p14942-14949, 8p |
Abstrakt: |
Rustmicin is a 14-membered macrolide previously identified as an inhibitor of plant pathogenic fungi by a mechanism that was not defined. We discovered that rustmicin inhibits inositol phosphoceramide synthase, resulting in the accumulation of ceramide and the loss of all of the complex sphingolipids. Rustmicin has potent fungicidal activity against clinically important human pathogens that is correlated with its sphingolipid inhibition. It is especially potent against Cryptococcus neoformans, where it inhibits growth and sphingolipid synthesis at concentrations <1 ng/ml and inhibits the enzyme with an IC50of 70 pm. This inhibition of the membrane-bound enzyme is reversible; moreover, rustmicin is nearly equipotent against the solubilized enzyme. Rustmicin was efficacious in a mouse model for cryptococcosis, but it was less active than predicted from its in vitropotency against this pathogen. Stability and drug efflux were identified as two factors limiting rustmicin's activity. In the presence of serum, rustmicin rapidly epimerizes at the C-2 position and is converted to a γ-lactone, a product that is devoid of activity. Rustmicin was also found to be a remarkably good substrate for the Saccharomyces cerevisiaemultidrug efflux pump encoded by PDR5. |
Databáze: |
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