3r0w Citations

Crystal structures of multidrug-resistant HIV-1 protease in complex with two potent anti-malarial compounds.

Yedidi RS, Liu Z, Wang Y, Brunzelle JS, Kovari IA, Woster PM, Kovari LC, Gupta D
Biochem Biophys Res Commun 421 413-7 (2012)
Cited: 8 times
EuropePMC logo PMID: 22469467

Abstract

Two potent inhibitors (compounds 1 and 2) of malarial aspartyl protease, plasmepsin-II, were evaluated against wild type (NL4-3) and multidrug-resistant clinical isolate 769 (MDR) variants of human immunodeficiency virus type-1 (HIV-1) aspartyl protease. Enzyme inhibition assays showed that both 1 and 2 have better potency against NL4-3 than against MDR protease. Crystal structures of MDR protease in complex with 1 and 2 were solved and analyzed. Crystallographic analysis revealed that the MDR protease exhibits a typical wide-open conformation of the flaps (Gly48 to Gly52) causing an overall expansion in the active site cavity, which, in turn caused unstable binding of the inhibitors. Due to the expansion of the active site cavity, both compounds showed loss of direct contacts with the MDR protease compared to the docking models of NL4-3. Multiple water molecules showed a rich network of hydrogen bonds contributing to the stability of the ligand binding in the distorted binding pockets of the MDR protease in both crystal structures. Docking analysis of 1 and 2 showed a decrease in the binding affinity for both compounds against MDR supporting our structure-function studies. Thus, compounds 1 and 2 show promising inhibitory activity against HIV-1 protease variants and hence are good candidates for further development to enhance their potency against NL4-3 as well as MDR HIV-1 protease variants.

Articles - 3r0w mentioned but not cited (4)

  1. Crystal structures of multidrug-resistant HIV-1 protease in complex with two potent anti-malarial compounds. Yedidi RS, Liu Z, Wang Y, Brunzelle JS, Kovari IA, Woster PM, Kovari LC, Gupta D. Biochem Biophys Res Commun 421 413-417 (2012)
  2. Design, synthesis and evaluation of a potent substrate analog inhibitor identified by scanning Ala/Phe mutagenesis, mimicking substrate co-evolution, against multidrug-resistant HIV-1 protease. Yedidi RS, Muhuhi JM, Liu Z, Bencze KZ, Koupparis K, O'Connor CE, Kovari IA, Spaller MR, Kovari LC. Biochem Biophys Res Commun 438 703-708 (2013)
  3. P1 and P1' para-fluoro phenyl groups show enhanced binding and favorable predicted pharmacological properties: structure-based virtual screening of extended lopinavir analogs against multi-drug resistant HIV-1 protease. Yedidi RS, Liu Z, Kovari IA, Woster PM, Kovari LC. J Mol Graph Model 47 18-24 (2014)
  4. A multi-drug resistant HIV-1 protease is resistant to the dimerization inhibitory activity of TLF-PafF. Yedidi RS, Proteasa G, Martin PD, Liu Z, Vickrey JF, Kovari IA, Kovari LC. J Mol Graph Model 53 105-111 (2014)


Articles citing this publication (4)

  1. Conserved hydrogen bonds and water molecules in MDR HIV-1 protease substrate complexes. Liu Z, Wang Y, Yedidi RS, Dewdney TG, Reiter SJ, Brunzelle JS, Kovari IA, Kovari LC. Biochem Biophys Res Commun 430 1022-1027 (2013)
  2. Structures of plasmepsin II from Plasmodium falciparum in complex with two hydroxyethylamine-based inhibitors. Recacha R, Leitans J, Akopjana I, Aprupe L, Trapencieris P, Jaudzems K, Jirgensons A, Tars K. Acta Crystallogr F Struct Biol Commun 71 1531-1539 (2015)
  3. Hot-spot identification on a broad class of proteins and RNA suggest unifying principles of molecular recognition. Kulp JL, Cloudsdale IS, Kulp JL, Guarnieri F. PLoS One 12 e0183327 (2017)
  4. Ligand modifications to reduce the relative resistance of multi-drug resistant HIV-1 protease. Dewdney TG, Wang Y, Liu Z, Sharma SK, Reiter SJ, Brunzelle JS, Kovari IA, Woster PM, Kovari LC. Bioorg Med Chem 21 7430-7434 (2013)


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