Abstract
Sordarin derivatives are selective inhibitors of fungal protein synthesis, which specifically impair elongation factor 2 (EF-2) function. We have studied the effect of sordarin on the ribosome-dependent GTPase activity of EF-2 from Candida albicans in the absence of any other component of the translation system. The effect of sordarin turned out to be dependent both on the ratio of ribosomes to EF-2 and on the nature of the ribosomes. When the amount of EF-2 exceeded that of ribosomes sordarin inhibited the GTPase activity following an inverted bell-shaped dose-response curve, whereas when EF-2 and ribosomes were in equimolar concentrations sordarin yielded a typical sigmoidal dose-dependent inhibition. However, when ricin-treated ribosomes were used, sordarin stimulated the hydrolysis of GTP. These results were compared with those obtained with fusidic acid, showing that both drugs act in a different manner. All these data are consistent with sordarin blocking the elongation cycle at the initial steps of translocation, prior to GTP hydrolysis. In agreement with this conclusion, sordarin prevented the formation of peptidyl-[(3)H]puromycin on polysomes from Candida albicans.
Highlights
Protein synthesis is an essential process common to all living cells
In the present paper we study the effect of sordarin on GTP hydrolysis catalyzed by elongation factor 2 (EF-2) and ribosomes from the pathogenic yeast Candida albicans, in the absence of any other elements of the protein synthesis machinery
The unexpected shape of the dose-response curve obtained when studying the effect of sordarin on the uncoupled GTPase reaction catalyzed by C. albicans EF-2 may give a clue to the precise mode of action of the drug
Summary
Elongation factor 2, salt-washed ribosomes, and polysomes were isolated from C. albicans 2005E as described previously [4].
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