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HIV neutralising antibody delivered by gene therapy with a hybrid Vaccinia/retrovirus or BacMam/retrovirus expression systemsFaqih, Layla January 2018 (has links)
Production of an effective vaccine and long-term treatment against human immunodeficiency virus (HIV) is elusive. In this thesis two different techniques were used in an attempt to insert HIV-neutralising monoclonal antibody (IgG1b12) sequences into a simian retroviral gene therapy agent pseudo-typed with vesicular stomatitis virus glycoprotein. Genes were encoded in either a poxvirus split-vector system or a baculovirus expression system. Both systems aim to produce replication incompetent pseudotyped virus like particles with simian origin. It is believed that the resulting non-infectious artificial lentivirus particles enter neighbouring cells, penetrate the nucleus and insert genetic material (the antibody gene) into the mammalian genome. The poxvirus split-vector system used in this project was a Vaccinia Retroviral Hybrid Vector, where recombinant modified vaccinia Ankara (MVA) is used to deliver the simian immunodeficiency virus (SIV) like particles into mammalian cells. However, the MVA system failed to express proteins of interest due to the instability of genetic insertion into the recombinant MVA genome. As an alternative strategy, two different BacMam systems were used to allow the production of VLPs, where mammalian cells are co-transduced with different recombinant baculoviruses (rBVs). VLPs were expressed either under the control of T7 RNA polymerase system or under the cytomegalovirus immediate early gene promoter. The results from the first BacMam system indicated that the T7 RNA polymerase system was not suitable to express detectable levels of proteins. The results indicated that translation of the produced mRNA by T7 promoter is inefficient, most likely because of the absence of RNA 5â cap structure. To overcome this hybrid BVâT7 system limitation, a different system was developed. Proteins of interest from the second BacMam system were successfully expressed and detected using western blot analysis. VLPs were generated and visualised under electronic microscope. IgG1b12 was secreted in the supernatant of the transduced mammalian cells. Mammalian cells were successfully transduced with multiple different recombinant BVs simultaneously. The study establishes the feasibility of antibody gene transfer, and demonstrates the use of SIV like particles production to transduce mammalian cells using BacMam technology. The technique may have application for use as an immunotherapy of HIV infection as well providing long-acting prevention of HIV infection for those not yet infected with HIV.
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Gene expression pattern and functional analysis of CD8+ T cells from individuals with or without anti HIV/SIV noncytolytic activity. / Gene expression pattern and functional analysis of CD8+ T cells from individuals with or without anti HIV/SIV noncytolytic activityAneela, Javed 22 June 2012 (has links)
No description available.
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Receptor use of primate lentiviruses /Vödrös, Dalma, January 2003 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 4 uppsatser.
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Early events following oral transmission of simian immunodeficiency virus : from viral entry to host immune responseMilush, Jeffrey Martin. January 2005 (has links) (PDF)
Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / On campus access only. Vita. Bibliography: 120-147.
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Epidémiologie du virus de l'immunodéficience simienne chez les gorilles : prévalence et transmission du SIVgor chez les gorilles en milieu naturel au Cameroun / Epidemiology of Simian Immunodeficiency Virus in gorillas : prevalence and transmission of SIVgor in wild living gorillas in CameroonNéel, Cécile 06 December 2010 (has links)
Les SIV infectant les chimpanzés et les gorilles sont les précurseurs des virus de l'immunodéficience humaine de type 1. Les quatre groupes du VIH-1 sont le résultat de quatre transmissions virales des grands singes à l'Homme. Des méthodes non invasives ont permis d'identifier le réservoir des VIH-1 M et N dans deux communautés de chimpanzés (Ptt) au Cameroun et de montrer que les gorilles (Ggg) sont infectés par un SIV proche des VIH-1 O et P. Si le SIVgor n'a jamais été détecté chez les chimpanzés, la phylogénie montre que les Ptt ont transmis ce virus aux gorilles. Par une méthode pluridisciplinaire, nous avons étudié les caractéristiques de l'infection SIVgor en milieu naturel. Nous avons prospecté 13 sites au Cameroun et 2 en RCA. Au total, 2120 fèces de gorilles et 442 de chimpanzés ont été collectées. L'infection SIVgor a été détectée dans 3 sites Camerounais et les prévalences varient entre 3,2% et 4,6%, résultats plus faibles que ceux retrouvés chez les chimpanzés. Nous avons ensuite montré que plusieurs groupes sociaux de Ggg dont les domaines vitaux se chevauchent sont infectés et que les prévalences SIV dans les groupes peuvent dépasser 25%. Les virus touchant les gorilles du même groupe sont génétiquement proches montrant des liens épidémiologiques. Enfin, un suivi de l'infection réalisé de 2004 à 2009 sur un site a permis de découvrir un foyer d'infection, 2 cas de séroconversions et de retrouver une femelle gorille infectée à 5 ans d'intervalle. Dans ce site, la prévalence SIV est stable et le nombre de femelles infectées est plus important que le nombre de mâles. La structure sociale des gorilles et leur comportement peuvent alors expliquer en partie la répartition et la prévalence du SIVgor, ainsi que les différences avec l'infection chez les chimpanzés.Cette étude multidisciplinaire montre la faisabilité du suivi de l'infection SIV chez les gorilles en milieu naturel. Si le SIVgor est pathogène, le suivi pourra s'avérer essentiel chez cette espèce menacée d'extinction. / SIV infecting chimpanzees and gorillas are the precursors of the Human Immunodeficiency Virus type 1. The four groups of HIV-1 are the results of four different viral transmissions from apes to humans. Using non invasive methods we discovered the reservoir of HIV-1 M and N in two communities of chimpanzees (Ptt) in Cameroon and found that Gorillas (Ggg) are infected by a SIV close to HIV-1 O and P. While SIVgor has not yet been detected in chimpanzees, phylogeny shows that Ptt transmitted this virus to Ggg. Using a multidisciplinary approach, we studied the characteristics of the infection in wild living gorillas. We prospected 13 sites in Cameroon and 3 in CAR. 2120 fecal samples of gorillas and 442 of chimpanzees were collected. SIVgor infection was detected in 3 sites in Cameroon and the prevalence ranges from 3.2% to 4.6%, lower than in chimpanzees. Several social groups of gorillas with overlapping home-ranges were infected and the prevalence within group could exceed 25%. Viruses of the same group are genetically close, showing epidemiologic links. In a follow up study between 2004 and 2009 on one site, we discovered a focus of infection with 2 cases of seroconvertion and we re-sampled one infected female 5 years after. In this site, the prevalence of SIVgor is stable and the number of infected females is higher than the males. The social structure of gorillas and their behavior can partly explain for the repartition and prevalence of SIVgor, as well as the differences with the infection in chimpanzees. This multidisciplinary study proves the feasibility of a follow up study in wild living gorillas. If SIVgor turns out to be pathogenic, a follow up will be essential for this endangered species.
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