Detailed mechanistic insights into HIV-1 sensitivity to three generations of fusion inhibitors

Publication date

2009-09-25

Authors

Eggink, Dirk
Langedijk, Johannes P.M.
Bonvin, Alexandre M J JORCID 0000-0001-7369-1322ISNI 0000000396501354
Deng, Yiqun
Lu, Min
Berkhout, Ben
Sanders, Rogier W.

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Document Type

Article
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Abstract

Peptides based on the second heptad repeat (HR2) of viral class I fusion proteins are effective inhibitors of virus entry. One such fusion inhibitor has been approved for treatment of human immunodeficiency virus-1 (T20, enfuvirtide). Resistance to T20 usually maps to the peptide binding site in HR1. To better understand fusion inhibitor potency and resistance, we combined virological, computational, and biophysical experiments with comprehensive mutational analyses and tested resistance to T20 and second and third generation inhibitors (T1249 and T2635). We found that most amino acid substitutions caused resistance to the first generation peptide T20. Only charged amino acids caused resistance to T1249, and none caused resistance to T2635. Depending on the drug, we can distinguish four mechanisms of drug resistance: reduced contact, steric obstruction, electrostatic repulsion, and electrostatic attraction. Implications for the design of novel antiviral peptide inhibitors are discussed. © 2009 by The American Society for Biochemistry and Molecular Biology, Inc.

Keywords

enfuvirtide, Human immunodeficiency virus fusion inhibitor, tifuvirtide, t 2635, unclassified drug, amino acid substitution, antiviral activity, antiviral resistance, antiviral susceptibility, article, biophysics, circular dichroism, controlled study, drug design, drug potency, electricity, human, human cell, Human immunodeficiency virus 1, IC50, molecular interaction, mutational analysis, physical chemistry, priority journal, stereospecificity, virus cell interaction, SDG 3 - Good Health and Well-being

Citation

Eggink, D, Langedijk, J P M, Bonvin, A M J J, Deng, Y, Lu, M, Berkhout, B & Sanders, R W 2009, 'Detailed mechanistic insights into HIV-1 sensitivity to three generations of fusion inhibitors', Journal of Biological Chemistry, vol. 284, no. 39, pp. 26941-26950. https://doi.org/10.1074/jbc.M109.004416