Literature DB >> 33314454

A synergy of activity, stability, and inhibitor-interaction of HIV-1 protease mutants evolved under drug-pressure.

Shahid N Khan1,2, John D Persons1, Michel Guerrero1, Tatiana V Ilina1, Masayuki Oda2, Rieko Ishima1.   

Abstract

A clinically-relevant, drug-resistant mutant of HIV-1 protease (PR), termed Flap+(I54V) and containing L10I, G48V, I54V and V82A mutations, is known to produce significant changes in the entropy and enthalpy balance of drug-PR interactions, compared to wild-type PR. A similar mutant, Flap+(I54A) , which evolves from Flap+(I54V) and contains the single change at residue 54 relative to Flap+(I54V) , does not. Yet, how Flap+(I54A) behaves in solution is not known. To understand the molecular basis of V54A evolution, we compared nuclear magnetic resonance (NMR) spectroscopy, fluorescence spectroscopy, isothermal titration calorimetry, and enzymatic assay data from four PR proteins: PR (pWT), Flap+(I54V) , Flap+(I54A) , and Flap+(I54) , a control mutant that contains only L10I, G48V and V82A mutations. Our data consistently show that selection to the smaller side chain at residue 54, not only decreases inhibitor affinity, but also restores the catalytic activity.
© 2020 The Protein Society.

Entities:  

Keywords:  HIV-1; NMR; calorimetry; inhibitor; protease; thermodynamics

Mesh:

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Year:  2020        PMID: 33314454      PMCID: PMC7888579          DOI: 10.1002/pro.4013

Source DB:  PubMed          Journal:  Protein Sci        ISSN: 0961-8368            Impact factor:   6.725


  53 in total

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4.  Partial inhibition of the human immunodeficiency virus type 1 protease results in aberrant virus assembly and the formation of noninfectious particles.

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5.  The active site of aspartic proteinases.

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6.  New approaches to HIV protease inhibitor drug design II: testing the substrate envelope hypothesis to avoid drug resistance and discover robust inhibitors.

Authors:  Madhavi N L Nalam; Celia A Schiffer
Journal:  Curr Opin HIV AIDS       Date:  2008-11       Impact factor: 4.283

7.  HIV-1 Protease and Substrate Coevolution Validates the Substrate Envelope As the Substrate Recognition Pattern.

Authors:  Ayşegül Ozen; Türkan Haliloğlu; Celia A Schiffer
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8.  The CCPN data model for NMR spectroscopy: development of a software pipeline.

Authors:  Wim F Vranken; Wayne Boucher; Tim J Stevens; Rasmus H Fogh; Anne Pajon; Miguel Llinas; Eldon L Ulrich; John L Markley; John Ionides; Ernest D Laue
Journal:  Proteins       Date:  2005-06-01

9.  A synergy of activity, stability, and inhibitor-interaction of HIV-1 protease mutants evolved under drug-pressure.

Authors:  Shahid N Khan; John D Persons; Michel Guerrero; Tatiana V Ilina; Masayuki Oda; Rieko Ishima
Journal:  Protein Sci       Date:  2020-12-22       Impact factor: 6.725

10.  Drug Resistance Mutations Alter Dynamics of Inhibitor-Bound HIV-1 Protease.

Authors:  Yufeng Cai; Wazo Myint; Janet L Paulsen; Celia A Schiffer; Rieko Ishima; Nese Kurt Yilmaz
Journal:  J Chem Theory Comput       Date:  2014-06-12       Impact factor: 6.006
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  1 in total

1.  A synergy of activity, stability, and inhibitor-interaction of HIV-1 protease mutants evolved under drug-pressure.

Authors:  Shahid N Khan; John D Persons; Michel Guerrero; Tatiana V Ilina; Masayuki Oda; Rieko Ishima
Journal:  Protein Sci       Date:  2020-12-22       Impact factor: 6.725
  1 in total

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