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Development of a novel lentiviral vaccine vector and characterisation of in vitro immune responses

Vaccines are a highly effective means of preventing infectious disease. However, for many diseases of livestock the available vaccines are ineffective or sub-optimal. This is partly due to challenges surrounding the specific targeting of antigen presenting cells (APCs). In order to improve the delivery of protective antigens to host APCs, a novel lentiviral vector derived from visna / maedi virus (VMV) has been developed. Initial characterisation using an enhanced green fluorescent protein (eGFP) reporter transgene found that the novel VMV vector efficiently transduced a wide range of cell lines including cells of ovine, human, murine, bovine and caprine origin. In addition, the VMV vector was found to elicit sustained transgene expression for at least 4 weeks in rapidly dividing cell lines. One of the most important factors for acceptable vaccines is their safety. Therefore, in order to increase the bio-safety of the VMV vector, integration-defective and self-inactivating forms were produced. Integration-defective VMV lentiviral vectors (IDLVs) were found to produce 1-LTR circular episomes favourably over integrated provirus following the transduction of target feline and ovine cell lines. This led to a decrease in transgene expression over time in dividing cells. In contrast, in non-dividing cells transgene expression was maintained at a similar level to integration-competent VMV vectors. Self-inactivating (SIN) VMV vectors were constructed and found to have a significant decrease in LTR activity. Transgene expression was maintained by the insertion of an internal promoter derived from human cytomegalovirus (CMV) acting directly on the transgene. When self-inactivating and integration-defective modifications were incorporated into the same vector particle, a 4-fold decrease in transduction relative to the parent vector was observed. Ovine monocyte-derived dendritic cells (MDDCs) and macrophages (MDMs) were found to be efficiently transduced by the VMV vector, whereas lentiviral vectors derived from HIV-1 poorly transduced both of these primary cell populations. Following this work, the ability to deliver pathogen genes into APCs was studied using the Chlamydia abortus (C. abortus) major outer membrane protein (MOMP) as the transgene. C. abortus is the most common infectious cause of ovine abortion worldwide and MOMP has previously been shown to stimulate strong antibody responses after vaccination. Unexpectedly, the VMV vector encoding either eGFP or MOMP was found to induce apoptosis in MDDCs and MDMs using Annexin V staining. Apoptotic cells were detectable as early as 6 hours post-transduction of cells. Furthermore, release of the pro-inflammatory cytokine IL-1β was associated with the formation of late apoptotic cells. Apoptotic bodies produced post-transduction were able to be phagocytosed by immature MDDCs and the transgene efficiently cross-presented to T-cells. The ability of the novel VMV vector to induce a suitable recall immune responses was investigated using an in vitro model. Here, an autologous population of MDDCs were cultured with the apoptotic bodies produced post-transduction before the addition of autologous PBMC. Proteins from the apoptotic bodies were presented by the MDDCs to PBMC leading to a strong, antigen specific recall immune response against C. abortus MOMP. This was proven by the detection of cytokines IFNγ and IL-10 in the co-culture supernatant from PBMC activated by the MOMP transgene cross-presented by MDDCs. No release of IL-4 or IL-17A could be detected. These data presented in this thesis show the potential for improving delivery of antigens in livestock vaccines by the use of lentiviral vectors. In addition, this vector system provides a strong base for the study of other potential protective antigens in vitro.

Identiferoai:union.ndltd.org:bl.uk/oai:ethos.bl.uk:743830
Date January 2018
CreatorsMcLean, Rebecca Kathryn
ContributorsHope, Jayne ; Griffiths, David ; Entrican, Gary
PublisherUniversity of Edinburgh
Source SetsEthos UK
Detected LanguageEnglish
TypeElectronic Thesis or Dissertation
Sourcehttp://hdl.handle.net/1842/31135

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