Masters Degrees (Medical Virology)
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Browsing Masters Degrees (Medical Virology) by browse.metadata.advisor "Engelbrecht, S."
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- ItemThe characterisation and expression of HIV-1 subtype C gag(Stellenbosch : Stellenbosch University, 2002) Sampson, Candice Corene; Van Rensburg, E.J.; Engelbrecht, S.; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Pathology. Division of Medical Virology.ENGLISH ABSTRACT: The gag gene of HIV-1 encodes for one of the major structural proteins, which contains several conserved cytotoxic T cell (CTL) epitopes. Gag specific CTL responses are important in controlling viral load during acute infection and asymptomatic stages of the infection. Currently, only one complete South African HIV-1 subtype C gag sequence has been published. The first aim of this study was to characterise the complete gag gene of 15 HIV-1 subtype C isolates, to be used as a set of reference sequences in the design of a South African HIV-1 subtype C vaccine. Fifteen HIV-1 subtype C isolates selected for this study, were isolated during 1998 and 1999 from the HIV-1 positive patients attending the Infectious Disease Clinic at Tygerberg Hospital. The gag gene of these isolates was amplified by PCR, cloned into mammalian expression vectors and sequenced. Restriction digest analyses as well as phylogenetic analyses were performed on the sequencing data. Previously published mutational analyses and CTL epitopes were compared to the predicted amino acid sequences of the gag clones. Sequences of 23 complete gag genes representing the 15 HIV-1 subtype C isolates as well as one complete sequence of an HIV-1 subtype B isolate were compiled. Subtyping by restriction fragment length polymorphism (RFLP) would have correctly identified 14 of the 15 subtype C isolates as subtype C and one as unidentifiable. The subtype B isolate would have also been correctly identified. Phylogenetic analyses showed that our subtype C isolates clustered with reference subtype C strains from various countries, including Botswana, India, Israel, Tanzania and Zambia. Strains from Ethiopia and Brazil formed a separate subtype C cluster. The diversity between our isolates was comparable to the diversity seen between all the HIV-1 subtype C strains. Comparisons of previously published mutational analyses and CTL epitopes to the predicted amino acid sequences of the gag clones, showed conservation in most of the clones throughout the sequence. A second aim was to establish transfection and Western Blot techniques in our laboratory for use in future studies. An in vitro transcription! translation assay was performed on the gag clones and the protein producing clones were used to transfect mammalian cells using electroporation. A Western blot was then used to screen for Gag protein expression in the transfected cell Iysates. The in vitro transcription! translation assay showed that seven of the 23 clones could produce a protein of -55 kDa in size. Four out of the seven of these clones gave a weak expression of a-55 kDa protein after transfection in a mammalian cell line. Since the completion of the experimental work of this study, other cloned HIV-1 genes have successfully been transfected into mammalian cells using the electroporation technique and the proteins produced were screened for by Western blot. To conclude with; the native form of the gag gene does not elicit strong expression of the protein, but studies have shown that expression can be improved by sequence-modification of the gag nucleotide sequence. Due to the conservation of gag, the sequence of any subtype C strain can be used for the development of a Southern African vaccine.
- ItemCharacterisation of the HIV-1 subtype C Env gene and the expression of the Env protein from selected isolates in mammalian cells(Stellenbosch : Stellenbosch University, 2003-03) De Villiers, Tania; Janse van Rensburg, E.; Engelbrecht, S.; Stellenbosch University. Faculty of Medicine & Health Sciences. Dept. of Pathology.ENGLISH ABSTRACT: At the end of 2002, human immunodeficiency virus (HIV) had infected 42 million people worldwide. The morbidity and mortality rate, as well as the epidemic proportions of the disease have led to concentrated scientific efforts to reveal the disease's pathogenesis and develop effective preventative and treatment measures. Advances have been made to inhibit viral replication by suppressing the virus' ability to replicate by developing antiretroviral treatments, although development of a save and effective vaccine is the only way to stem the pandemic. Advances in vaccine design, animal models and clinical research have led to the creation of promising candidate vaccines to counter this rampage, but most of these vaccines entering phase I-III clinical trials are based mainly only subtype B genomes. HIV-1 subtype C is the most commonly transmitted subtype worldwide, and is the predominant subtype in India, China, East and Southern Africa. A subtype C vaccine is critical for the developing nations such as South Africa, where antiretroviral therapies are largely unaffordable. The envelope gene (env) is an attractive target as immunogen to be included in a HIV vaccine. The envelope protein (Env) elicits neutralising antibodies and cytotoxic T-Iymphocyte (CTl) responses. This protein will therefore be useful in creating a humoral and cellular immune response in the host. A shortage in characterised subtype C env gene sequences from South Africa was recognised, and this study focussed on the characterisation of generated sequences, as well as the expression of selected env genes. These immunogens were created for possible use in a prime-boost vaccine modality. The env genes from recent circulating strains in South Africa were amplified by polymerase chain reaction (PCR). The genes were then cloned for sequencing and expression purposes. Phylogenetic relationships were determined by comparing the sequences to reference subtype strains and subtype C strains. Expression of the genes was assessed by Western Blot in 293 cells with HIV- 1 positive patient sera. Sequence analysis showed a more conserved third variable (V3) loop in South African subtype C sequences, with a more variable region downstream from the loop. The crown sequence (GPGQ) and positions of uncharged or negatively charged residues in the V3 loop indicated a non-syncytium-inducing (NSI) phenotype for the isolates. Phylogenetic analysis showed the sequences to all belong to the C subtype, and further that the sequences were not recombinant, which was confirmed by recombination analysis. The intersample diversity observed for strains from South Africa was significantly higher than distances observed to the subtype C consensus sequence. The South African sequences were distributed across several subclusters in a subtype C phylogenetic tree, highlighting the concept that these infections represent a more longstanding epidemic with multiple introductions from different geographic areas. Western Blot with HIV-1 positive patient sera showed the expression of uncleaved gp160 Env proteins, which were Rev dependent. This study has generated much needed subtype C South African env gene sequences that can be used as basis for modification for use as immunogens in a South African vaccine.