Varicella-Zoster Virus evasion of the Interferon immune response

Many viruses have evolved mechanisms to antagonize the interferon (IFN) system, targeting all the major components involved in receptor binding and signalling. Although a number of these viral proteins are homologous to cellular proteins involved in IFN downregulation (e.g., viral IFN regulatory factors [vIRFs]), many share little resemblance to known proteins. To determine the IFN-blocking properties of these proteins, functional assays are required. Here, we present a new and rapid functional screening method, based on the 2FTGH cell line, which is able to determine viral gene products that inhibit the IFN-alpha/Jak-Stat signalling pathway. Expression cloning of viral IFN-blocking genes into 2FTGH and consequent selection with IFN-alpha and 6-thioguanine result in the outgrowth of cells that are no longer responsive to IFN-alpha. We also demonstrate that selection occurs if members of the Jak-Stat signalling pathway are lost. To show the utility of our system, we have used a known suppressor of IFN signalling, the human papillomavirus (HPV) E7 gene. Expression of E7 causes the loss of ability of 2FTGH cells to respond to IFN-alpha treatment because of a functional disruption of the signalling pathway. This approach offers a new strategy for identifying novel viral genes or new functions of already described viral genes that have a role in IFN-alpha signalling inhibition.