Abstract
Feline calicivirus (FCV) protease functions to cleave viral precursor proteins during productive infection. Previous studies have mapped a protease-coding region and six cleavage sites in viral precursor proteins. However, how the FCV protease interacts with its substrates remains unknown. To gain insights into the interactions, we constructed a molecular model of the FCV protease bound with the octapeptide containing a cleavage site of the capsid precursor protein by homology modeling and docking simulation. The complex model was used to screen for the substrate mimic from a chemical library by pharmacophore-based in silico screening. With this structure-based approach, we identified a compound that has physicochemical features and arrangement of the P3 and P4 sites of the substrate in the protease, is predicted to bind to FCV proteases in a mode similar to that of the authentic substrate, and has the ability to inhibit viral protease activity in vitro and in the cells, and to suppress viral replication in FCV-infected cells. The complex model was further subjected to molecular dynamics simulation to refine the enzyme-substrate interactions in solution. The simulation along with a variation study predicted that the authentic substrate and anti-FCV compound share a highly conserved binding site. These results suggest the validity of our in silico model for elucidating protease-substrate interactions during FCV replication and for developing antivirals.
Highlights
Feline calicivirus (FCV) is a positive-strand, non-enveloped RNA virus belonging to the genus Vesivirus in the family Caliciviridae (Green et al, 2000)
The study of interactions between FCV protease and its substrates is critical for understanding the molecular steps of viral replication and for developing antivirals
The three-dimensional (3-D) structure of the FCV protease-substrate complex is an important tool for investigating protease-substrate interactions for viral replication and for developing antivirals
Summary
Feline calicivirus (FCV) is a positive-strand, non-enveloped RNA virus belonging to the genus Vesivirus in the family Caliciviridae (Green et al, 2000). In addition to its importance in veterinary health, FCV is invaluable to studies of the molecular biology of calicivirus, because it is cultivatable in feline cells (Pesavento et al, 2008), and the reverse genetics systems are Substrate Binding Mode to FCV Protease available (Sosnovtsev and Green, 1995; Oka et al, 2014; SandovalJaime et al, 2015). The FCV genome is an approximately 7.7 kb positive-sense, single-stranded RNA with three open reading frames (ORFs). ORF1 encodes non-structural proteins, while ORF2 and ORF3 encode structural proteins, including the precursor capsid and minor structural proteins, respectively (Pesavento et al, 2008). The study of interactions between FCV protease and its substrates is critical for understanding the molecular steps of viral replication and for developing antivirals
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