Background And Aim: Mutations in the β-tubulin genes of helminths confer benzimidazole (BZ) resistance by reducing the drug's binding efficiency to the expressed protein. However, the effects of these resistance-associated mutations on tubulin dimer formation in soil-transmitted helminths remain unknown. Therefore, this study aimed to investigate the impact of these mutations on the dimerization of hookworm α- and β-tubulins using open-source bioinformatics tools.
Materials And Methods: Using AlphaFold 3, the α- and β-tubulin amino acid sequences of were used to predict the structural fold of the hookworm tubulin heterodimer. The modeled complexes were subjected to several protein structure quality assurance checks. The binding free energies, overall binding affinity, dissociation constant, and interacting amino acids of the complex were determined. The dimer's structural flexibility and motion were simulated through molecular dynamics.
Results: BZ resistance-associated amino acid substitutions in the β-tubulin isotype 1 protein of hookworms altered tubulin dimerization. The E198K, E198V, and F200Y mutations conferred the strongest and most stable binding between the α and β subunits, surpassing that of the wild-type. In contrast, complexes with the Q134H and F200L mutations exhibited the opposite effect. Molecular dynamics simulations showed that wild-type and mutant tubulin dimers exhibited similar dynamic behavior, with slight deviations in those carrying the F200L and E198K mutations.
Conclusion: Resistance-associated mutations in hookworms impair BZ binding to β-tubulin and enhance tubulin dimer interactions, thereby increasing the parasite's ability to withstand treatment. Conversely, other mutations weaken these interactions, potentially compromising hookworm viability. These findings offer novel insights into helminth tubulin dimerization and provide a valuable foundation for developing anthelmintics targeting this crucial biological process.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11784061 | PMC |
| http://dx.doi.org/10.14202/vetworld.2024.2736-2746 | DOI Listing |
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