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Regulation of hepatitis C virus RNA synthesis by viral nonstructural proteins and an essential host factor

Subject Area Virology
Term from 2008 to 2015
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 75978335
 
Final Report Year 2016

Final Report Abstract

Hepatitis C virus (HCV) is a positive strand RNA virus belonging to the family of Flaviviridae. Despite the availability of cell culture models allowing the analysis of HCV replication, still little is known about the regulation of RNA synthesis by viral and cellular factors. During the first funding period we have identified critical determinants in the polymerase NS5B of HCV strain JFH1 governing highly efficient replication. We furthermore laid the ground for an in vitro model of viral RNA synthesis based on purified components. Finally we gained insight into the essential role of a lipid kinase (PI4KIIIα) in viral replication and discovered that this cellular enzyme is activated by nonstructural protein NS5A. In the continuation grant we focused on the mechanistic role of viral and host proteins in HCV RNA replication and on an in depth characterization of the mechanisms governing PI4KIIIα interactions with HCV proteins. We aimed to use purified nonstructural protein complexes to dissect the function of nonstructural proteins and cis acting replication elements in the initiation of viral negative strand synthesis. While we found stimulating effects of the viral helicase NS3 and NS5A on the polymerase activity of NS5B, several subaims could not be achieved due to technical challenges and lack of robustness of the model. Therefore, we put more efforts into the characterization of PI4KIIIα. PI4KIIIα converts phosphatidylinositol to phosphatidylinositol 4-phosphate (PI4P) at the endoplasmic reticulum (ER) and at the plasma membrane. The enzymatic activity of PI4KIIIα is critically involved in the formation of viral induced membrane alterations harboring the sites of viral genome replication. We have shown that the viral nonstructural proteins NS5A and NS5B recruit PI4KIIIα to the HCV replication sites and activate the lipid kinase, resulting in strongly elevated intracellular PI4P levels. We have identified the PI4KIIIα functional interaction site in NS5A and mapped critical domains in PI4KIIIα required for HCV replication. We furthermore found an unexpected impact of PI4KIIIα on phosphorylation of NS5A and identified several novel phosphorylation sites in this important regulatory viral protein. Our work thereby provided insights into the complex interplay of viral and cellular proteins governing HCV RNA synthesis. It furthermore helped to define the membranous HCV replication compartment as a viral achilles’ heel for therapeutic interventions that can be targeted by diverse classes of direct acting antivirals as well as host targeting antivirals with clinical proof of concept.

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