Mechanism of action of gliotoxin: elimination of activity by sulfhydryl compounds
- PMID: 4670497
- PMCID: PMC444303
- DOI: 10.1128/AAC.2.4.261
Mechanism of action of gliotoxin: elimination of activity by sulfhydryl compounds
Abstract
Gliotoxin and two other compounds, with antiviral activity against a number of ribonucleic acid (RNA) viruses and structurally related via the epidithiapiperazinedione moiety, appeared to be equally active in their oxidized and reduced forms. However, the ability of the reduced forms to inhibit viral RNA synthesis was abolished when these compounds were maintained in the reduced state by the simultaneous presence of a large molar excess of dithiothreitol or reduced glutathione. The active form therefore appeared to be that containing a disulfide bridge, and the apparent activity of the dithiol was due to cellular oxidation. Possible mechanisms by which the compounds could interact with viral proteins, e.g., viral RNA-dependent RNA polymerase, are proposed.
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