Abstract
The worldwide spread of H1N1 avian influenza and the increasing reports about its resistance to the current drugs have made a high priority for developing new anti-influenza drugs. Owing to its unique function in assisting viruses to bind the cellular surface, a key step for them to subsequently penetrate into the infected cell, hemagglutinin (HA) has become one of the main targets for drug design against influenza virus. To develop potent HA inhibitors, the ZINC fragment database was searched for finding the optimal compound with the core hopping technique. As a result, the Neo6 compound was obtained. It has been shown through the subsequent molecular docking studies and molecular dynamic simulations that Neo6 not only assumes more favorable conformation at the binding pocket of HA but also has stronger binding interaction with its receptor. Accordingly, Neo6 may become a promising candidate for developing new and more powerful drugs for treating influenza. Or at the very least, the findings reported here may provide useful insights to stimulate new strategy in this area.
Highlights
In recent years, severe flu-like human cases were reported around the world and subsequently the causative virus was identified as the influenza A virus [1,2]
Influenza A virus that belongs to the Orthomyxoviridae family is a negative-strand segmented RNA virus, in which the surface membrane proteins are constituted by three important components: M2 proton channel, hemagglutinin (HA), and neuraminidase (NA)
Any of the three components can be the target for drug design against influenza virus
Summary
Severe flu-like human cases were reported around the world and subsequently the causative virus was identified as the influenza A virus [1,2]. Subtypes (H1-H16) so far identified [22], the HA1 subtype from the recent pandemic H1N1/09 virus was taken as the target for constituent screening and drug design [23].
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