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181.
BACKGROUND: HIV-1 replication can be inhibited with RNA interference (RNAi) by expression of short hairpin RNA (shRNA) from a lentiviral vector. Because lentiviral vectors are based on HIV-1, viral sequences in the vector system are potential targets for the antiviral shRNAs. Here, we investigated all possible routes by which shRNAs can target the lentiviral vector system. METHODS: Expression cassettes for validated shRNAs with targets within HIV-1 Leader, Gag-Pol, Tat/Rev and Nef sequences were inserted in the lentiviral vector genome. Third-generation self-inactivating HIV-1-based lentiviral vectors were produced and lentiviral vector capsid production and transduction titer determined. RESULTS: RNAi against HIV-1 sequences within the vector backbone results in a reduced transduction titer while capsid production was unaffected. The notable exception is self-targeting of the shRNA encoding sequence, which does not affect transduction titer. This is due to folding of the stable shRNA hairpin structure, which masks the target for the RNAi machinery. Targeting of Gag-Pol mRNA reduces both capsid production and transduction titer, which was improved with a human codon-optimized Gag-Pol construct. When Rev mRNA was targeted, no reduction in capsid production and transduction titer was observed. CONCLUSIONS: Lentiviral vector titers can be negatively affected when shRNAs against the vector backbone and the Gag-Pol mRNA are expressed during lentiviral vector production. Titer reductions due to targeting of the Gag-Pol mRNA can be avoided with a human codon-optimized Gag-Pol packaging plasmid. The remaining targets in the vector backbone may be modified by point mutations to resist RNAi-mediated degradation during vector production. 相似文献
182.
RNA interference (RNAi) plays a pivotal role in the regulation of gene expression to control cell development and differentiation. In plants, insects and nematodes RNAi also functions as an innate defence response against viruses. Similarly, there is accumulating evidence that RNAi functions as an antiviral defence mechanism in mammalian cells. Viruses have evolved highly sophisticated mechanisms for interacting with the host cell machinery, and recent evidence indicates that this also involves RNAi pathways. The cellular RNAi machinery can inhibit virus replication, but viruses may also exploit the RNAi machinery for their own replication. In addition, viruses can encode proteins or RNA molecules that suppress existing RNAi pathways or trigger the silencing of specific host genes. Besides the natural interplay between RNAi and viruses, induced RNAi provides an attractive therapy approach for the fight against human pathogenic viruses. Here, we summarize the latest news on virus-RNAi interactions and RNAi based antiviral therapy. 相似文献
183.
Identification of specific molecular structures of human immunodeficiency virus type 1 Tat relevant for its biological effects on vascular endothelial cells 下载免费PDF全文
Mitola S Soldi R Zanon I Barra L Gutierrez MI Berkhout B Giacca M Bussolino F 《Journal of virology》2000,74(1):344-353
Human immunodeficiency virus type 1 (HIV-1) Tat transactivates viral genes and is released by infected cells, acting as a soluble mediator. In endothelial cells (EC), it activates a proangiogenic program by activating vascular endothelial growth factor receptor type 2 (VEGFR-2) and integrins. A structure-activity relationship study was performed by functional analysis of Tat substitution and deletion variants to define the Tat determinants necessary for EC activation. Variants were made (i) in the basic and (ii) in the cysteine-rich domains and (iii) in the C-terminal region containing the RGD sequence required for integrin recognition. Our results led to the following conclusions. (i) Besides a high-affinity binding site corresponding to VEGFR-2, EC express low-affinity binding sites. (ii) The basic and the cysteine-rich variants bind only to the low-affinity binding sites and do not promote tyrosine phosphorylation of VEGFR-2. Furthermore, they have a reduced ability to activate EC in vitro, and they lack angiogenic activity. (iii) Mutants with mutations in the C-terminal region are partially defective for in vitro biological activities and in vivo angiogenesis, but they activate VEGFR-2 as Tat wild type. In conclusion, regions encoded by the first exon of tat are necessary and sufficient for activation of VEGFR-2. However, the C-terminal region, most probably through RGD-mediated integrin engagement, is indispensable for full activation of an in vitro and in vivo angiogenic program. 相似文献
184.
Short hairpin RNAs (shRNAs) are widely used to induce RNA interference (RNAi). We tested a variety of shRNAs that differed in stem length and terminal loop size and revealed strikingly different RNAi activities and shRNA-processing patterns. Interestingly, we identified a specific shRNA design that uses an alternative Dicer-independent processing pathway. Detailed analyses indicated that a short shRNA stem length is critical for avoiding Dicer processing and activation of the alternative processing route, in which the shRNA is incorporated into RISC and processed by the AGO2-mediated slicer activity. Such alternatively processed shRNAs (AgoshRNAs) yield only a single RNA strand that effectively induces RNAi, whereas conventional shRNA processing results in an siRNA duplex of which both strands can trigger RNAi. Both the processing and subsequent RNAi activity of these AgoshRNAs are thus mediated by the RISC-component AGO2. These results have important implications for the future design of more specific RNAi therapeutics. 相似文献
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Cees A.M. Broers Ron J.M. Berkhout Lin Yu Hua Claudius K. Stumm Godfried D. Vogels 《FEMS microbiology letters》1992,101(3):165-172
Abstract The effects of O2 on growth of the anaerobic amoeboflagellate Psalteriomonas lanterna were studied. The organism tolerates low oxygen tensions (about 1% O2 atm. sat.) and under these conditions growth was stimulated in mixed populations. Catalase could not be found in the cells, whereas superoxide dismutase was present. Addition of O2 resulted in loss of the methanogenic endosymbionts and favoured the transformation to amoeba cells. Symbiont-free cells did not grow under anaerobic conditions probably due to the accumulation of H2 . 相似文献
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188.
We previously described a T20-dependent human immunodeficiency virus type 1 variant from a patient on T20 therapy. This virus carries two mutations in the gp41 domain of the envelope protein (Env) that was proposed to undergo a premature conformational switch to the 6-helix bundle structure. The T20 peptide can rescue this hyperfusogenic Env protein by preventing the premature switch and preserving an earlier prefusion conformation, thus restoring virus infectivity and replication. In this study, we set out to critically test this mechanistic explanation with alternative effectors that may control the Env switch, including other fusion inhibitors and antibodies that target gp41. 相似文献
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