The search for new drug leads against viruses remains an area of active investigations.
In the last decades the influenza neuraminidase (iNA) has been extensively exploited
by computational approaches in the search for small molecule inhibitors of this key
enzyme responsible for viral replication and spread. These efforts fueled the development
of currently worldwide licensed iNA inhibitors. However, the increase of drug-resistant
influenza virus strains demonstrates the urgent need for innovative and effective
antiviral agents. It is anticipated that the recent findings of the enzyme's flexibility
and thereby extended binding pocket will help to overcome these hindrances.1
In our lab several virtual screening campaigns on 3D natural product databases have
proven to be highly efficient for the target-oriented identification of bioactive
candidates. Integration of these heuristic approaches with empirical ones, such as
from traditional medicine and in vitro extract screening, are helpful strategies for
molecular understanding and prioritizing compounds to be isolated from natural sources.
Application examples will be presented for the discovery of ligands of the hydrophobic
pocket in the rhinoviral capsid2 and the extended binding pocket of iNA.1,3
1 Kirchmair, J. et al. (2011) Future Med. Chem. 3: 437; 2 Rollinger, J. M. et al. (2008)J. Med. Chem. 51: 842; 3 Grienke, U. et al. (2010)J. Med. Chem. 53: 778 – 786.
Acknowledgements: Supported by the Austrian Science Fund (FWF P24587)
