EC:2.3.1.28 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human immunodeficiency virus type 1 (HIV-1) and HIV-2 Vpr and Vpx proteins are packaged into virions through virus type-specific interactions with the Gag polyprotein precursor. To examine whether HIV-1 Vpr (Vpr1) and HIV-2 Vpx (Vpx2) could be used to target foreign proteins to the HIV particle, their open reading frames were fused in frame with genes encoding the bacterial staphylococcal nuclease (SN), an enzymatically inactive mutant of SN (SN*), and chloramphenicol acetyltransferase (CAT). Transient expression in a T7-based vaccinia virus system demonstrated the synthesis of appropriately sized Vpr1-SN/SN* and Vpx2-SN/SN* fusion proteins which, when coexpressed with their cognate p55Gag protein, were efficiently incorporated into virus-like particles. Packaging of the fusion proteins was dependent on virus type-specific determinants, as previously seen with wild-type Vpr and Vpx proteins. Particle-associated Vpr1-SN and Vpx2-SN fusion proteins were enzymatically active, as determined by in vitro digestion of lambda phage DNA. To determine whether functional Vpr1 and Vpx2 fusion proteins could be targeted to HIV particles, the gene fusions were cloned into an HIV-2 long terminal repeat/Rev response element-regulated expression vector and cotransfected with wild-type HIV-1 and HIV-2 proviruses. Western blot (immunoblot) analysis of sucrose gradient-purified virions revealed that both Vpr1 and Vpx2 fusion proteins were efficiently packaged regardless of whether SN, SN*, or CAT was used as the C-terminal fusion partner. Moreover, the fusion proteins remained enzymatically active and were packaged in the presence of wild-type Vpr and Vpx proteins. Interestingly, virions also contained smaller proteins that reacted with antibodies specific for the accessory proteins as well as SN and CAT fusion partners. Since similar proteins were absent from Gag-derived virus-like particles and from virions propagated in the presence of an HIV protease inhibitor, they must represent cleavage products produced by the viral protease. Taken together, these results demonstrate that Vpr and Vpx can be used to target functional proteins, including potentially deleterious enzymes, to the human or simian immunodeficiency virus particle. These properties may be exploitable for studies of HIV particle assembly and maturation and for the development of novel antiviral strategies.
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PMID:Targeting foreign proteins to human immunodeficiency virus particles via fusion with Vpr and Vpx. 774 85

In addition to Gag, Pol, and Env, primate lentiviruses encode other virion-associated proteins, including Vpr, Vpx, and Vif. Vpr- and Vpx-staphylococcal nuclease and chloramphenicol acetyltransferase fusion proteins incorporate into human immunodeficiency virus (HIV) virions and retain enzyme activity when expressed in trans with HIV proviruses (Wu et al., J. Virol. 69, 3389, 1995). To explore whether the viral protease (PR) could be expressed as a proteolytically active fusion protein, the HIV PR coding region was fused in-frame with the HIV-2 vpx and HIV-1 vpr genes. Using a vaccinia virus-T7 expression system, the Vpx-PR fusion protein was expressed and formed homodimers. Coexpression with Pr55Gag demonstrated that Vpx-PR possessed Gag-specific proteolytic activity and inhibited the production of Gag virus-like particles. Trans-expression of a PR-Vpr fusion protein with HIV-1 provirus caused a profound reduction in viral protein expression and virion production. Importantly, the PR-Vpr fusion protein caused a similar level of inhibition and intracellular cleavage of Pr55Gag precursor protein when coexpressed with protease defective HIV-1 provirus. The inhibitory effect of PR-Vpr expression on virion production was markedly greater than that of PR alone. These results indicate that Vpr arguments the intracellular proteolytic activity of PR when expressed as a fusion protein and thus may be relevant for the expression of PR in intracellular immunization strategies against HIV infection. Moreover, the ability to express and package enzymatically active PR-Vpr fusion protein, independent of Gag/Pol, may provide a novel means to study enzyme function.
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PMID:Proteolytic activity of human immunodeficiency virus Vpr- and Vpx-protease fusion proteins. 862 47

The human immunodeficiency virus type I (HIV-1) Vpr and HIV-2 Vpx proteins package into virions through interactions with their cognate Gag polyprotein precursor. The targeting properties of Vpr and Vpx have been exploited to incorporate foreign proteins into virions by expression as heterologous fusion molecules (X. Wu, H.-M. Liu, H. Xiao, J. Kim, P. Seshaiah, G. Natsoulis, J. D. Boeke, B. H. Hahn, and J. C. Kappes, J. Virol. 69:3389-3398, 1995). To explore the possibility of utilizing Vpx and Vpr to target dominant negative mutants of the HIV Pol proteins into virions, we fused HIV-2 Vpx with an enzymatically defective protease (PR) mutant. Using a vector system to facilitate transient coexpression with HIV provirus, Vpx-PR-mutant (VpxPR(M)) fusion protein was expressed and packaged efficiently into HIV-2 and simian immunodeficiency virus virions. Immunoblot analysis of purified virions demonstrated that the packaging of VpxPR(M) interfered with the processing of the Gag and Gag/Pol precursor proteins, similar to that of a well-characterized active-site PR inhibitor. The incomplete processing of Gag and Gag/Pol was consistent with a 25-fold reduction in virion infectivity. The coexpression of a packaging defective VpxPR(M) fusion protein with HIV-2 provirus produced virions with fully processed Gag protein, similar to wild-type virions. Importantly, virions trans complemented with a Vpx-chloramphenicol acetyltransferase fusion protein were normal with respect to the processing of Gag protein and the ability to infect and replicate in vitro. These results indicate that VpxPR(M) specifically inhibited the function of the viral protease and provide for the first time proof of principle that the incorporation of foreign proteins into virions via fusion with Vpx can inhibit HIV replication. The use of accessory proteins as vehicles to deliver deleterious proteins to virions, including dominant negative mutants of Pol proteins, may provide new opportunities for application of gene therapy-based antiretroviral strategies. The ability to package PR by expression in trans, independent of the Gag/Pol precursor, also represents a novel approach that may be exploited to study the function of the Pol proteins.
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PMID:Inhibition of human and simian immunodeficiency virus protease function by targeting Vpx-protease-mutant fusion protein into viral particles. 864 68

Human immunodeficiency virus type 1 (HIV-1) variants resistant to protease inhibitors have been shown to contain a mutation in the p1/p6 Gag precursor cleavage site. At the messenger RNA level, this mutation generates a U UUU UUU sequence that is reminiscent of the U UUU UUA sequence required for ribosomal frameshifting and Gag-Pol synthesis. To test whether the p1/p6 cleavage site mutation was generating a novel frameshift site, HIV sequences were inserted in translation vectors containing a chloramphenicol acetyltransferase (CAT) reporter gene requiring -1 frameshifting for expression. All sequences containing the original HIV frameshift site supported the synthesis of CAT but expression was increased 3- to 11-fold in the presence of the mutant p1/p6 sequence. When the original frameshift site was abolished by mutation, expression remained unchanged when using constructs containing the mutant p1/p6 sequence, whereas it was decreased 2- to 4.5-fold when using wild-type p1/p6 constructs. Similarly, when introduced into HIV molecular clones, the p1/p6 mutant sequence supported Gag-Pol synthesis and protease activity in the absence of the original frameshift site, indicating that this sequence could also promote ribosomal frameshifting in virus-expressing cells.
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PMID:Novel Gag-Pol frameshift site in human immunodeficiency virus type 1 variants resistant to protease inhibitors. 962 Oct 79