AIM: To investigate a unique and critical step in retroviral gene expression not yet targeted for anti-viral therapy and to validate its potential as a site for anti-HIV intervention with a new group of therapeutic drugs. METHODS: A reporter system was designed using recombinant DNA methods to include sequence elements mediating translational frameshifting from HIV-1 and human antizyme RNAs. A mammalian in vitro protein synthesis system was used to assess the ratio of two separate reporter products in the presence of several drugs that are known to affect ribosomal function. RESULTS: The strategy aimed at modulating the ratio of viral proteins by disrupting frameshifting. Of the drugs tested, cycloheximide at 1 microM was the most promising candidate, resulting in a 35% reduction in frameshifting efficiency at the HIV site in the reporter system. At this concentration cycloheximide did not significantly affect frameshifting at the human antizyme site (the only known human protein to use translational frameshifting in its synthesis), nor inhibit translational efficiency of cellular proteins in general. CONCLUSIONS: A new group of drugs like cycloheximide that modify viral protein ratios have the potential to add significantly to the control of HIV. Viruses may be less likely to escape control from such a drug since it is targeted to cellular components required by the virus for frameshifting rather than the viral frameshift sequence itself. The reporter system used in this study is amenable for the first stage testing of a wide range of drugs.
AIM: To investigate a unique and critical step in retroviral gene expression not yet targeted for anti-viral therapy and to validate its potential as a site for anti-HIV intervention with a new group of therapeutic drugs. METHODS: A reporter system was designed using recombinant DNA methods to include sequence elements mediating translational frameshifting from HIV-1 and human antizyme RNAs. A mammalian in vitro protein synthesis system was used to assess the ratio of two separate reporter products in the presence of several drugs that are known to affect ribosomal function. RESULTS: The strategy aimed at modulating the ratio of viral proteins by disrupting frameshifting. Of the drugs tested, cycloheximide at 1 microM was the most promising candidate, resulting in a 35% reduction in frameshifting efficiency at the HIV site in the reporter system. At this concentration cycloheximide did not significantly affect frameshifting at the human antizyme site (the only known human protein to use translational frameshifting in its synthesis), nor inhibit translational efficiency of cellular proteins in general. CONCLUSIONS: A new group of drugs like cycloheximide that modify viral protein ratios have the potential to add significantly to the control of HIV. Viruses may be less likely to escape control from such a drug since it is targeted to cellular components required by the virus for frameshifting rather than the viral frameshift sequence itself. The reporter system used in this study is amenable for the first stage testing of a wide range of drugs.
Authors: John F Atkins; Gary Loughran; Pramod R Bhatt; Andrew E Firth; Pavel V Baranov Journal: Nucleic Acids Res Date: 2016-07-19 Impact factor: 16.971
Authors: Leslie O Ofori; Thomas A Hilimire; Ryan P Bennett; Nathaniel W Brown; Harold C Smith; Benjamin L Miller Journal: J Med Chem Date: 2014-01-15 Impact factor: 7.446
Authors: Tony S Cardno; Yosuke Shimaki; Brad E Sleebs; Kurt Lackovic; John P Parisot; Rebecca M Moss; Caillan Crowe-McAuliffe; Suneeth F Mathew; Christina D Edgar; Torsten Kleffmann; Warren P Tate Journal: PLoS One Date: 2015-10-08 Impact factor: 3.240