Paper Info
Title
Virtual Fragment Screening: Discovery of Histamine H Receptor Ligands Using Ligand-Based and Protein-Based Molecular Fingerprints.
Abstract
Virtual fragment screening (VFS) is a promising new method that uses computer models to identify small, fragment-like biologically active molecules as useful starting points for fragment-based drug discovery (FBDD). Training sets of true active and inactive fragment-like molecules to construct and validate target customized VFS methods are however lacking. We have for the first time explored the possibilities and challenges of VFS using molecular fingerprints derived from a unique set of fragment affinity data for the histamine H-3 receptor (H3R), a pharmaceutically relevant G protein-coupled receptor (GPCR). Optimized FLAP (Fingerprints of Ligands and Proteins) models containing essential molecular interaction fields that discriminate known H3R binders from inactive molecules were successfully used for the identification of new H3R ligands. Prospective virtual screening of 156 090 molecules yielded a high hit rate of 62% (18 of the 29 tested) experimentally confirmed novel fragment-like H3R ligands that offer new potential starting points for the design of H3R targeting drugs. The first construction and application of customized FLAP models for the discovery of fragment-like biologically active molecules demonstrates that VFS is an efficient way to explore protein-fragment interaction space in silico.
Year
DOI
Venue
2012
10.1021/ci3004094
JOURNAL OF CHEMICAL INFORMATION AND MODELING
DocType
Volume
Issue
Journal
52
12
ISSN
Citations 
PageRank 
1549-9596
3
0.42
References 
Authors
31
11
Name
Order
Citations
PageRank
Francesco Sirci1122.09
Enade P Istyastono230.75
Henry F Vischer340.77
Albert J Kooistra4163.04
Saskia Nijmeijer540.77
Martien Kuijer630.42
Maikel Wijtmans730.42
Raimund Mannhold8101.81
Rob Leurs9122.39
Iwan J P de Esch10225.60
Chris de Graaf11183.49