HIV1 Vif Protein and Virus Infectivity
Trono, Didier   
Salk Institute for Biological Studies, La Jolla, CA, United States

The Vif protein is highly conserved among lentiviruses, and is crucial for HIV-1 replication in primary T lymphocytes and macrophages, the cells infected by the virus in vivo. Our work has demonstrated that Vif is necessary at the time of viral particle formation, to make HIV-1 competent for proviral DNA synthesis. Furthermore, our recent analyses indicate that Vif stabilizes the HIV-1 reverse transcription complex in vitro. Progress in the Vif field has been slowed down by the technical difficulty of obtaining high-titer stocks of functionally relevant virus. We will use two parallel approaches to solve this problem. This will facilitate the further exploration of VIF function and mechanisms of action, using a combination of functional and biochemical analyses. Finally, the search for viral and cellular proteins interacting with Vif will complement these studies.
our specific aims are thus as follows: 1) Creation of regulated vif expression systems, utilizing a tetracycline- repressible and an ecdysone-inducible system. 2) Generation of conditional vif mutants, by site-directed and saturation mutagenesis. 3) Continuing studies of Vif function and mechanism of action, by further analyzing the Vif-mediated enhancement of reverse transcription, studying the processing and post-translational modification of virion-associated proteins, and examining the early steps of infection through new protocols developed in our laboratory. 4) Search for viral and/or cellular proteins that associate with Vif, by co-immunoprecipitation and using the yeast two-hybrid system.