3. Electronic Theses and Dissertations (ETDs) - All submissions
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Item Optimisation of expressed RNA interference effecters for the inhibition of hepatitis B virus ereplication(2010-02-23T12:53:51Z) Ely, AbdullahChronic infection with the hepatitis B virus (HBV) is a major risk factor for cirrhosis and hepatocellular carcinoma, which is the sixth most common cancer worldwide. Available treatment for chronic HBV infection has limited efficacy in preventing associated complications. The compact and multifunctional nature of the viral genome limits its mutability making HBV an ideal candidate for therapy based on nucleic acid hybridisation. The potent and specific gene silencing that can be achieved with RNA interference (RNAi) has fueled interest in exploiting this pathway as a therapeutic modality. Synthetic and expressed RNA sequences have been used to activate RNAi. These engineered sequences mimic natural substrates of the RNAi pathway, which allows them to enter and reprogramme the pathway to effect silencing of intended targets. Tradionally expressed RNAi activators have been transcribed as short hairpin RNA (shRNA) sequences from RNA polymerase III (Pol III) promoters. These shRNA mimic precursor microRNA (pre-miRNA) and consequently enter the RNAi pathway at a relatively late stage. Overexpression of shRNA sequences from Pol III promoters, specifically the U6 promoter, has been associated with toxic side effects and has raised concerns about the use of expressed RNAi activators. Another concern of developing therapeutic RNAi expression cassettes is the emergence of HBV mutants that are resistant to silencing by a single expressed RNAi effecter. These points have highlighted the need for the development expressed RNAi activators that are effective at low concentrations and capable of combinatorial silencing. To address these issues the aim of this study was to assess the feasibility of anti HBV effecter sequences that mimic an early substrate (viz. primary miRNA or pri-miRNA) of the RNAi pathway. Pri-miRNA expression is typically under the transcriptional control of Pol II promoters. Consequently RNAi activators that Abstract - xi - mimic pri-miRNA, so-called pri-miR shuttles, may be expressed from Pol II promoters. Initially a panel of shRNA expression cassettes driven by a Pol III promoter was constructed and silencing of HBV replication assessed. Pri-miR shuttles were then designed by incorporating guide sequences of the most effective anti HBV U6 shRNA into naturally occurring pri-miR-122 and pri-miR-31. Potent inhibition of viral replication was observed with both Pol III and Pol II-driven pri-miR shuttle expression cassettes in vitro and in vivo. Subsequently liver-specific pri-miR-122 and multimeric pri-miR-31 shuttle expression cassettes were created. Pri-miR-122 shuttle sequences expressed from the alpha-1 antitrypsin promoter and HBV basic core promoter exhibited the best liver-specific silencing. Polycistronic pri-miR-31 shuttle sequences were shown to produce multiple RNAi activators capable of silencing multiple target sequences. Silencing by the pri-miR shuttle sequences was independent of toxic effects that arise from induction of the interferon response or saturation of the endogenous miRNA pathway. Pri-miR shuttles clearly represent an improved option for the use of expressed shRNA and brings therapeutic RNAi technology a step closer to clinical application.Item Analysis of the efficacy of short hairpin RNAs targeted to the gag open reading frame of HIV-1 subtype C(2008-08-11T13:33:19Z) Cave, Eleanor MargaretAbstract will not load on to DSpaceItem Engineering virus resistant transgenic cassava: the design of long hairpin RNA constructs against South African cassava mosaic virus(2008-03-19T06:20:56Z) Harmse, JohanABSTRACT Cassava is currently the second most important source of carbohydrates on the African continent. In the last two decades, cassava crops have been severely affected by outbreaks of cassava mosaic disease (CMD). South African cassava mosaic virus (SACMV) has been associated with CMD outbreaks in the Mpumalanga province. Advances in post-transcriptional gene silencing (PTGS) technology have provided promising new strategies for the engineering of virus resistance in plants. Inverted repeat (IR) constructs are currently the most potent inducers of PTGS, however, these constructs are inherently unstable. The purpose of this study was to develop IR constructs with an improved stability for the efficient induction of PTGS in plants. Two mismatched inverted repeat constructs, one targeting the SACMV BC1 open reading frame, the other targeting the Maize streak virus (MSV) AC1 open reading frame, were successfully created. Sodium bisulfite was used to deaminate cytosine residues on the sense arm of the constructs. The resulting number of GT mismatches was seemingly sufficient to stabilize the linear conformation of the IR constructs, as they were efficiently propagated by E.coli DH5!, and subsequently behaved like linear DNA molecules. Furthermore, it was found that the number of mismatches on the BC1 construct (17.5%) was ideal, as the subsequent stability of the predicted RNA hairpin was not affected. Due to the higher number of mismatches on the AC1 construct (23.5%), it was found that the loop region of the RNA hairpin was marginally destabilized. Despite this, long stretches of stable dsRNA were still produced from the AC1 IR construct, and is likely to induce PTGS. Interestingly, it was observed that the mismatched IR constructs, although still replicated in E.coli, were marginally destabilized in Agrobacterium. Therefore, it was deduced that the stability of a mismatched IR construct may be influenced by the particular intracellular environment of an organism. Due to the recalcitrance of cassava to transformation, a model plant system, Nicotiana benthamiana, was used to screen constructs for toxicity, stability, and efficiency of PTGS induction. Agrobacteriummediated transformation and regeneration of N. benthamiana was optimized, and 86% transformation efficiency was achieved when using leaf disk explants. It was found that the addition of an ethylene scrubber, potassium permanganate, substantially increased the rate of regeneration by reducing the frequency of hyperhydritic plants. Transgene iv integration was confirmed by PCR amplification of the hptII gene in the T-DNA region. Transgene expression was confirmed by screening for GUS and GFP reporter genes. No toxic responses to the transgene have been observed thus far. Studies are currently underway to confirm the stability of the mismatched IR constructs in N. benthamiana. PAGE Northern blotting is being done, as the detection of siRNAs derived from the transgene will confirm that constructs are functional. In addition, infectivity assays are underway to determine the efficacy of BC1 knockdown by a stably integrated construct. Due to the enhanced stability of mismatched IR constructs, they may be an appealing alternative to currently available intron-spliced, or exact matched hairpin systems.