Steroidal Antimetabolites Protect Mice against Trypanosoma brucei |
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| Authors: | Minu Chaudhuri Ujjal K. Singha Boden H. Vanderloop Anuj Tripathi W. David Nes |
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| Affiliation: | 1.Department of Microbiology, Immunology, and Physiology, Meharry Medical College, Nashville, TN 37208, USA; (U.K.S.); (A.T.);2.Department of Chemistry & Biochemistry, Texas Tech University, Lubbock, TX 79409, USA; |
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| Abstract: | ![]()
Trypanosoma brucei, the causative agent for human African trypanosomiasis, is an emerging ergosterol-dependent parasite that produces chokepoint enzymes, sterol methyltransferases (SMT), not synthesized in their animal hosts that can regulate cell viability. Here, we report the lethal effects of two recently described natural product antimetabolites that disrupt Acanthamoeba sterol methylation and growth, cholesta-5,7,22,24-tetraenol (CHT) and ergosta-5,7,22,24(28)-tetraenol (ERGT) that can equally target T. brucei. We found that CHT/ERGT inhibited cell growth in vitro, yielding EC50 values in the low nanomolar range with washout experiments showing cidal activity against the bloodstream form, consistent with their predicted mode of suicide inhibition on SMT activity and ergosterol production. Antimetabolite treatment generated altered T. brucei cell morphology and death rapidly within hours. Notably, in vivo ERGT/CHT protected mice infected with T. brucei, doubling their survival time following daily treatment for 8–10 days at 50 mg/kg or 100 mg/kg. The current study demonstrates a new class of lead antibiotics, in the form of common fungal sterols, for antitrypanosomal drug development. |
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| Keywords: | ergosta-5,7,22,24(28)-tetraenol (ERGT) cholesta-5,7,22,24-tetraenol (CHT) ergosterol biosynthesis antimetabolite suicide substrate Trypanosoma brucei |
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