Albendazole resistance in Giardia is correlated with cytoskeletal changes but not with a mutation at amino acid 200 in beta-tubulin.

Abstract

Albendazole resistance was induced in three different Giardia cultures following growth in successively increasing amounts of drug. One of the lines was previously resistant to high levels of metronidazole and was able to grow in 2 microM albendazole. The other two survived exposure to 0.8 microM, while normally lethal levels of albendazole against Giardia in vitro were around 0.1-0.2 microM. Albendazole-resistant Giardia were cross-resistant to parbendazole. Major chromosome rearrangements were evident in the line resistant to 2 microM albendazole and IFA with antitubulin antibody indicated differences in the cytoskeleton, particularly the median body, between sensitive and resistant lines. This implicates the cytoskeleton in the mechanism of resistance. Substitution of Tyr for Phe is a consistent beta-tubulin amino acid change in the benzimidazole-resistant helminths and fungi so far analyzed. PCR primers were designed from the published Giardia beta-tubulin gene sequence and spanned the region encoding Phe at position 200. Sequence data from albendazole-resistant Giardia demonstrated that the beta-tubulin gene did not carry a mutation in the codon for amino acid 200. These data suggest that Phe at position 200 in beta-tubulin is not necessary for benzimidazole resistance.