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Literature DB >> 30346745

Sub-picomolar Inhibition of HIV-1 Protease with a Boronic Acid.

Ian W Windsor¹, Michael J Palte, John C Lukesh, Brian Gold¹, Katrina T Forest, Ronald T Raines¹.

Abstract

Boronic acids have been typecast as moieties for covalent complexation and are employed only rarely as agents for non-covalent recognition. By exploiting the profuse ability of a boronic acid group to form hydrogen bonds, we have developed an inhibitor of HIV-1 protease with extraordinary affinity. Specifically, we find that replacing an aniline moiety in darunavir with a phenylboronic acid leads to 20-fold greater affinity for the protease. X-ray crystallography demonstrates that the boronic acid group participates in three hydrogen bonds, more than the amino group of darunavir or any other analog. Importantly, the boronic acid maintains its hydrogen bonds and its affinity for the drug-resistant D30N variant of HIV-1 protease. The BOH···OC hydrogen bonds between the boronic acid hydroxy group and Asp30 (or Asn30) of the protease are short ( rO···O = 2.2 Å), and density functional theory analysis reveals a high degree of covalency. These data highlight the utility of boronic acids as versatile functional groups in the design of small-molecule ligands.

Entities: Chemical Disease Gene Species

Mesh：

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Year: 2018 PMID： 30346745 PMCID： PMC6249028 DOI： 10.1021/jacs.8b07366

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

34 in total

1. Identification of efficiently cleaved substrates for HIV-1 protease using a phage display library and use in inhibitor development.

Authors: Z Q Beck; L Hervio; P E Dawson; J H Elder; E L Madison
Journal: Virology Date: 2000-09-01 Impact factor: 3.616

2. Potent HIV protease inhibitors incorporating high-affinity P2-ligands and (R)-(hydroxyethylamino)sulfonamide isostere.

Authors: A K Ghosh; J F Kincaid; W Cho; D E Walters; K Krishnan; K A Hussain; Y Koo; H Cho; C Rudall; L Holland; J Buthod
Journal: Bioorg Med Chem Lett Date: 1998-03-17 Impact factor: 2.823

3. Substrate envelope-designed potent HIV-1 protease inhibitors to avoid drug resistance.

Authors: Madhavi N L Nalam; Akbar Ali; G S Kiran Kumar Reddy; Hong Cao; Saima G Anjum; Michael D Altman; Nese Kurt Yilmaz; Bruce Tidor; Tariq M Rana; Celia A Schiffer
Journal: Chem Biol Date: 2013-09-05

4. Structure-based design of novel HIV-1 protease inhibitors to combat drug resistance.

Authors: Arun K Ghosh; Perali Ramu Sridhar; Sofiya Leshchenko; Azhar K Hussain; Jianfeng Li; Andrey Yu Kovalevsky; D Eric Walters; Joseph E Wedekind; Valerie Grum-Tokars; Debananda Das; Yasuhiro Koh; Kenji Maeda; Hiroyuki Gatanaga; Irene T Weber; Hiroaki Mitsuya
Journal: J Med Chem Date: 2006-08-24 Impact factor: 7.446

5. Crystallographic analysis of human immunodeficiency virus 1 protease with an analog of the conserved CA-p2 substrate -- interactions with frequently occurring glutamic acid residue at P2' position of substrates.

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Journal: Eur J Biochem Date: 1997-10-15

6. Human metabolism of the proteasome inhibitor bortezomib: identification of circulating metabolites.

Authors: Teresa Pekol; J Scott Daniels; Jason Labutti; Ian Parsons; Darrell Nix; Elizabeth Baronas; Frank Hsieh; Liang-Shang Gan; Gerald Miwa
Journal: Drug Metab Dispos Date: 2005-03-11 Impact factor: 3.922

Review 7. Resilience to resistance of HIV-1 protease inhibitors: profile of darunavir.

Authors: Eric Lefebvre; Celia A Schiffer
Journal: AIDS Rev Date: 2008 Jul-Sep Impact factor: 2.500

8. Correlating conformational shift induction with altered inhibitor potency in a multidrug resistant HIV-1 protease variant.

Authors: Ian Mitchelle S de Vera; Mandy E Blackburn; Gail E Fanucci
Journal: Biochemistry Date: 2012-09-28 Impact factor: 3.162

9. Nature of Intramolecular Resonance Assisted Hydrogen Bonding in Malonaldehyde and Its Saturated Analogue.

Authors: Alice A Grosch; Stephanie C C van der Lubbe; Célia Fonseca Guerra
Journal: J Phys Chem A Date: 2018-02-02 Impact factor: 2.781

10. Fluorogenic Assay for Inhibitors of HIV-1 Protease with Sub-picomolar Affinity.

Authors: Ian W Windsor; Ronald T Raines
Journal: Sci Rep Date: 2015-08-11 Impact factor: 4.379

9 in total

1. Covalent Antiviral Agents.

Authors: Sako Mirzaie; Fatemeh Abdi; Amin GhavamiNejad; Brian Lu; Xiao Yu Wu
Journal: Adv Exp Med Biol Date: 2021 Impact factor: 2.622

Review 2. Reactive chemistry for covalent probe and therapeutic development.

Authors: R Justin Grams; Ku-Lung Hsu
Journal: Trends Pharmacol Sci Date: 2022-01-06 Impact factor: 14.819

3. Potent HIV-1 Protease Inhibitors Containing Carboxylic and Boronic Acids: Effect on Enzyme Inhibition and Antiviral Activity and Protein-Ligand X-ray Structural Studies.

Authors: Arun K Ghosh; Zilei Xia; Satish Kovela; William L Robinson; Megan E Johnson; Daniel W Kneller; Yuan-Fang Wang; Manabu Aoki; Yuki Takamatsu; Irene T Weber; Hiroaki Mitsuya
Journal: ChemMedChem Date: 2019-10-04 Impact factor: 3.466

4. Structural Analysis of Potent Hybrid HIV-1 Protease Inhibitors Containing Bis-tetrahydrofuran in a Pseudosymmetric Dipeptide Isostere.

Authors: Linah N Rusere; Gordon J Lockbaum; Mina Henes; Sook-Kyung Lee; Ean Spielvogel; Desaboini Nageswara Rao; Klajdi Kosovrasti; Ellen A Nalivaika; Ronald Swanstrom; Nese Kurt Yilmaz; Celia A Schiffer; Akbar Ali
Journal: J Med Chem Date: 2020-08-03 Impact factor: 7.446

5. HIV-1 Protease Inhibitors Incorporating Stereochemically Defined P2' Ligands To Optimize Hydrogen Bonding in the Substrate Envelope.

Authors: Linah N Rusere; Gordon J Lockbaum; Sook-Kyung Lee; Mina Henes; Klajdi Kosovrasti; Ean Spielvogel; Ellen A Nalivaika; Ronald Swanstrom; Nese Kurt Yilmaz; Celia A Schiffer; Akbar Ali
Journal: J Med Chem Date: 2019-08-21 Impact factor: 7.446