Christy Jurgens scite author profile

Poliovirus 2A(pro) is required for the inhibition of host cell protein synthesis and efficient viral replication. We investigated the role of 2A(pro) in regulating viral RNA stability, translation and replication in HeLa S10 reactions. The protease activity of 2A(pro) or its polyprotein precursors, 2AB or P2, was required to increase the stability of viral RNA and prolong translation. Since other viral proteins were not required for the observed effects of 2A(pro), it is likely that a cellular protein(s) modified by 2A(pro) mediated these effects on stability and translation. In addition, the protease activity of 2A(pro) stimulated negative-strand initiation by approximately five-fold but had no effect on positive-strand initiation. The 2A(pro) stimulation of negative-strand synthesis was independent of its effect on stability and translation. These findings further extend the previously known functions of protein 2A(pro) to include its role in increasing RNA stability, prolonging translation and stimulating negative-strand synthesis.

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Initiation of Poliovirus Negative-Strand RNA Synthesis Requires Precursor Forms of P2 Proteins

Jurgens

Flanegan

2003

J Virol

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The replication proteins encoded in the P2 region of the poliovirus genome induce extensive rearrangement of cellular membranes into vesicles and are a required component of viral RNA replication complexes. To identify distinct viral protein(s) from the P2 region of the genome that were required to form functional RNA replication complexes, the P2 proteins were expressed in addition to P3 in HeLa S10 translation-RNA replication reactions. Membrane-associated preinitiation replication complexes were isolated from these reactions and used to measure negative-strand synthesis. The formation of replication complexes capable of initiating negative-strand synthesis was observed when either P23 or when P2 and P3 were expressed in the HeLa S10 translation-replication reactions. The amount of negative-strand RNA synthesized with P2 and P3 was approximately 50% of that observed with P23. Negative-strand synthesis was not observed when the processed forms of the P2 proteins (e.g., 2A, 2B, 2C, 2AB, and 2BC) were used in various combinations in place of P2. In contrast, the expression of 2A and 2BCP3 supported negative-strand synthesis at the same level observed with P23. Therefore, functional replication complexes were formed in reaction mixtures that contained either 2A and 2BCP3 or P2 and P3. Genetic complementation analysis of P23 RNA that contained a lethal mutation in 2C confirmed these results. The expression of 2BCP3 in trans restored the replication of P23-2C(P131N) RNA to wild-type levels. The expression of P2 and P3 also complemented the replication of this mutant RNA, although very inefficiently. Complementation was not observed in reactions that contained P2 alone, 2BC, or 2C. Based on these results, we propose that RNA replication complexes are initially formed with the primary cleavage products of P23 (i.e., P2 and P3 or 2A and 2BCP3), and that 2A and 2BCP3 are preferentially used in this process.After poliovirion RNA is released into the cytoplasm of infected cells, it is translated by polyribosomes on the rough endoplasmic reticulum (rER) into a polyprotein that is subsequently processed by the viral proteases 2A pro and 3C pro /3CD pro (31, 59). Primary cleavage of the viral polyprotein occurs at the P1-2A junction. This cleavage is mediated by 2A pro and results in the separation of the structural (P1) and nonstructural (P23) proteins (59). Functionally distinct precursors, intermediates, and individual proteins are formed after additional processing of P23 by 3C pro /3CD pro . Two different proteolytic processing cascades have been proposed which are based on the initial site of cleavage in P23 (35). Proteolytic cleavage of P23 at the 2C-3A junction site generates P2 and P3 as the initial products. Alternatively, cleavage of P23 at the 2A-2B site results in the formation of 2A and 2BCP3. Further processing of P2, P3, and 2BCP3 into the individual replication proteins then follows. Viral RNA synthesis occurs in replication complexes that are assembled on membrane vesicles that proliferate in poliovirusinfe...

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The Stem of Vesicular Stomatitis Virus G Can Be Replaced With the HIV-1 Env Membrane-Proximal External Region Without Loss of G Function or Membrane-Proximal External Region Antigenic Properties

Lorenz

Nguyen²,

Kemelman³

et al. 2014

AIDS Research and Human Retroviruses

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The structure of the HIV-1 envelope membrane-proximal external region (MPER) is influenced by its association with the lipid bilayer on the surface of virus particles and infected cells. To develop a replicating vaccine vector displaying MPER sequences in association with membrane, Env epitopes recognized by the broadly neutralizing antibodies 2F5, 4E10, or both were grafted into the membrane-proximal stem region of the vesicular stomatitis virus (VSV) glycoprotein (G). VSV encoding functional G-MPER chimeras based on G from the Indiana or New Jersey serotype propagated efficiently, although grafting of both epitopes (G-2F5-4E10) modestly reduced replication and resulted in the acquisition of one to two adaptive mutations in the grafted MPER sequence. Monoclonal antibodies 2F5 and 4E10 efficiently neutralized VSV G-MPER vectors and bound to virus particles in solution, indicating that the epitopes were accessible in the preattachment form of the G-MPER chimeras. Overall, our results showed that the HIV Env MPER could functionally substitute for the VSV G-stem region implying that both perform similar functions even though they are from unrelated viruses. Furthermore, we found that the MPER sequence grafts induced low but detectable MPER-specific antibody responses in rabbits vaccinated with live VSV, although additional vector and immunogen modifications or use of a heterologous prime-boost vaccination regimen will be required to increase the magnitude of the immune response.

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Christy Jurgens

2Apro is a multifunctional protein that regulates the stability, translation and replication of poliovirus RNA

Initiation of Poliovirus Negative-Strand RNA Synthesis Requires Precursor Forms of P2 Proteins

The Stem of Vesicular Stomatitis Virus G Can Be Replaced With the HIV-1 Env Membrane-Proximal External Region Without Loss of G Function or Membrane-Proximal External Region Antigenic Properties

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