AI Article Synopsis
- The RNA-dependent RNA polymerase of the hepatitis C virus (HCV) is crucial for viral replication and is a key target for antiviral drugs, but existing non-nucleoside inhibitors (NNIs) often fail to cover all six major HCV genotypes (GTs).
- To effectively discover new NNIs that are broadly active, it is important to understand the unique biochemical properties of polymerases across all HCV genotypes, an area where knowledge is currently limited mainly to GT 1.
- A study revealed that while the optimal conditions for polymerases from different GTs were similar, significant differences in magnesium ion concentration were found, leading to variations in enzymatic activities that were ranked from highest to lowest in specific genotypes
Article Abstract
The RNA-dependent RNA polymerase of the hepatitis C virus (HCV) is the key enzyme for viral replication, recognized as one of the promising targets for antiviral intervention. Several of the known non-nucleoside HCV polymerase inhibitors (NNIs) identified by screening approaches show limitations in the coverage of all six major HCV genotypes (GTs). Genotypic profiling therefore has to be implemented early in the screening cascade to discover new broadly active NNIs. This implies knowledge of the specific individual biochemical properties of polymerases from all GTs which is to date limited to GT 1 only. This work gives a comprehensive overview of the biochemical properties of HCV polymerases derived from all major GTs 1-6. Biochemical analysis of polymerases from 38 individual sequences revealed that the optima for monovalent cations, pH and temperature were similar between the GTs, whereas significant differences concerning concentration of the preferred cofactor Mg(2+) were identified. Implementing the optimal requirements for the polymerases from each individual GT led to significant improvements in their enzymatic activities. However, the specific activity was distributed unequally across the GTs and could be ranked in the following descending order: 1b, 6a>2a, 3a, 4a, 5a>1a. Furthermore, the optimized assay conditions for genotypic profiling were confirmed by testing the inhibitory activity of 4 known prototype NNIs addressing the NNI binding sites 1 to 4.
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| http://dx.doi.org/10.1016/j.bbapap.2011.05.006 | DOI Listing |
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