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Molecular basis for fungal selectivity of novel antimitotic compounds.


ABSTRACT: Compounds that selectively disrupt fungal mitosis have proven to be effective in controlling agricultural pests, but no specific mitotic inhibitor is available for the treatment of systemic mycoses in mammalian hosts. In an effort to identify novel mitotic inhibitors, we used a cell-based screening strategy that exploited the hypersensitivity of a yeast alpha-tubulin mutant strain to growth inhibition by antimitotic agents. The compounds identified inhibited yeast nuclear division and included one structural class of compounds shown to be fungus specific. MC-305904 and structural analogs inhibited fungal cell mitosis and inhibited the in vitro polymerization of fungal tubulin but did not block mammalian cell microtubule function or mammalian tubulin polymerization. Extensive analysis of yeast mutations that specifically alter sensitivity to MC-305904 structural analogs suggested that compounds in the series bind to a site on fungal beta-tubulin near amino acid 198. Features of the proposed binding site explain the observed fungal tubulin specificity of the series and are consistent with structure-activity relationships among a library of related compounds.

SUBMITTER: Lila T 

PROVIDER: S-EPMC161869 | biostudies-literature | 2003 Jul

REPOSITORIES: biostudies-literature

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Molecular basis for fungal selectivity of novel antimitotic compounds.

Lila Thomas T   Renau Thomas E TE   Wilson Lori L   Philips Jay J   Natsoulis Georges G   Cope M Jamie MJ   Watkins William J WJ   Buysse Jerry J  

Antimicrobial agents and chemotherapy 20030701 7


Compounds that selectively disrupt fungal mitosis have proven to be effective in controlling agricultural pests, but no specific mitotic inhibitor is available for the treatment of systemic mycoses in mammalian hosts. In an effort to identify novel mitotic inhibitors, we used a cell-based screening strategy that exploited the hypersensitivity of a yeast alpha-tubulin mutant strain to growth inhibition by antimitotic agents. The compounds identified inhibited yeast nuclear division and included o  ...[more]

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