Novel Druggable Hot Spots in Avian Influenza Neuraminidase H5N1 Revealed by Computational Solvent Mapping of a Reduced and Representative Receptor Ensemble

doi:10.1111/j.1747-0285.2007.00614.x

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Wiley InterScience

Chemical Biology & Drug Design

Volume 71 Issue 2, Pages 106 - 116

Published Online: 17 Jan 2008

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Research Article

Novel Druggable Hot Spots in Avian Influenza Neuraminidase H5N1 Revealed by Computational Solvent Mapping of a Reduced and Representative Receptor Ensemble

Melissa R. Landon ^1,*^,†, Rommie E. Amaro ^2,*,† , Riccardo Baron ² , Chi Ho Ngan ³ , David Ozonoff ⁴ , J. Andrew McCammon ^2,5 and Sandor Vajda ³

¹ Bioinformatics Graduate Program, Boston University, Boston, MA 02215, USA
² Department of Chemistry & Biochemistry and Department of Pharmacology and NSF Center for Theoretical Biological Physics (CTBP), University of California San Diego, La Jolla, CA 92093-0365, USA
³ Department of Biomedical Engineering, Boston University, Boston, MA 02215, USA
⁴ School of Public Health, Boston University, Boston, MA 02218, USA
⁵ Howard Hughes Medical Institute, University of California San Diego, La Jolla, CA 92093-0365, USA

Correspondence to * Melissa R. Landon, mlandon@bu.edu and Rommie E. Amaro, ramaro@mccammon.ucsd.edu

^† These authors contributed equally to this paper

Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

KEYWORDS

computational solvent mapping • ensemble-based drug design • H5N1 • hot spot • molecular dynamics • neuraminidase • receptor flexibility • RMSD clustering

ABSTRACT

The influenza virus subtype H5N1 has raised concerns of a possible human pandemic threat because of its high virulence and mutation rate. Although several approved anti-influenza drugs effectively target the neuraminidase, some strains have already acquired resistance to the currently available anti-influenza drugs. In this study, we present the synergistic application of extended explicit solvent molecular dynamics (MD) and computational solvent mapping (CS-Map) to identify putative 'hot spots' within flexible binding regions of N1 neuraminidase. Using representative conformations of the N1 binding region extracted from a clustering analysis of four concatenated 40-ns MD simulations, CS-Map was utilized to assess the ability of small, solvent-sized molecules to bind within close proximity to the sialic acid binding region. Mapping analyses of the dominant MD conformations reveal the presence of additional hot spot regions in the 150- and 430-loop regions. Our hot spot analysis provides further support for the feasibility of developing high-affinity inhibitors capable of binding these regions, which appear to be unique to the N1 strain.

Received 17 November 2007, revised and accepted for publication 29 November 2007

DIGITAL OBJECT IDENTIFIER (DOI)

10.1111/j.1747-0285.2007.00614.x About DOI