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Investigation of a Trimeric Hemagglutinin Stem Domain from Influenza B for a Universal VaccineDuran, Amparo 28 September 2018 (has links)
Influenza infection occurs in as much as 5–15% of the world population, resulting in 3–5 million cases of severe illness and up to 500,000 deaths annually. According to the CDC, on average 24% of all influenza positive respiratory samples during 2001 to 2011 tested positive for Influenza B. Influenza has two main surface glycoproteins, neuraminidase (NA) and hemagglutinin (HA), HA being responsible for the binding of the virus to the host cell. Currently, seasonal influenza vaccines are produced using two strains of Influenza A and one or two strains of Influenza B viruses recommended by the World Health Organization (WHO). These vaccines are mainly targeting the head domain of the HA protein, which mutates constantly, hence the need for annual vaccine updates. The goal of this research is to develop an experimental universal vaccine against influenza B and increase our knowledge to help pave the way for finding a one-time vaccination alternative, reducing the need for a yearly flu shot. To achieve the above, protection and toxicity studies were conducted in DBA/2 mice immunized with a designed HA2 adenoviral-vectored vaccine targeting the HA stem region of influenza B. Results showed that this designed vaccine was able to confer 100% survival protection, this was supported by lower viral titer in trachea and lung tissues. Additionally, we studied the influence of CD40L as a targeting adjuvant, by analyzing its effect on the humoral and cellular immune response, where results showed that it has a significant effect by inducing a higher TH1-bias response. This research is the first report that leads us to a better understanding of the potential use of a conserved consensus HA2 sequence to induce protection against influenza B virus.
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Cancer Immunotherapy : A Preclinical Study of Urinary Bladder CancerNinalga, Christina January 2006 (has links)
<p>Bacillus Calmette Guérin (BCG), or attenuated Mycobacterium bovis, is the gold standard of immunotherapy in the clinic to treat superficial bladder cancer. However, setbacks remain due to a high recurrence rate, side effects, and BCG-refractory disease. In this thesis, we explored the use of novel immunotherapeutic agents such as CpG oligodeoxynucleotides (CpG ODNs) or synthetic ODNs containing unmethylated CpG dinucleotides. Since unmethylated CpG motifs are predominant in bacterial but not vertebrate DNA, they function as a “danger signal” leading to a potent immune response.</p><p>To be able to test various immunotherapeutic agents, we optimized subcutaneous (s.c.), metastatic, and orthotopic models using the murine bladder-49 (MB49) cancer cell line. In the orthotopic model, we show that poly-L-lysine promotes MB49 attachment to the bladder leading to 100% tumor take. In addition, Clorpactin (sodium oxychlorosene) potently enhances adenoviral transduction in the bladder.</p><p>Utilizing the MB49 model, we compare CpG ODNs with BCG and demonstrate the increased efficacy of CpG ODNs which could cure both s.c. and aggressive orthotopic bladder cancer. In our model, type B ODNs were most optimal and the antitumor response required T cells in order to induce regression and tumor-specific immunity. We also combined CpG ODNs with adenoviral vectors (Ad) expressing the immunostimulatory molecules CD40L, TRANCE, lymphotactin, IL2 or IL15. However, we show that CpG ODNs are effective as a monotherapy and adenoviral vectors did not enhance the effect.</p><p>AdCD40L was also used to genetically modify human dendritic cells (DCs). AdCD40L-transduced DCs not only had a higher and prolonged expression of the Th1 cytokine IL12 compared to TNFα-matured DCs, but CD40L-activated DCs could also resist the suppressive effects of IL10 and TGFβ. Since TNFα is commonly used in clinical DC vaccination protocols and because tumors often secrete immunosuppressive cytokines, these data have important implications for optimizing cancer immunotherapy.</p>
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Cancer Immunotherapy : A Preclinical Study of Urinary Bladder CancerNinalga, Christina January 2006 (has links)
Bacillus Calmette Guérin (BCG), or attenuated Mycobacterium bovis, is the gold standard of immunotherapy in the clinic to treat superficial bladder cancer. However, setbacks remain due to a high recurrence rate, side effects, and BCG-refractory disease. In this thesis, we explored the use of novel immunotherapeutic agents such as CpG oligodeoxynucleotides (CpG ODNs) or synthetic ODNs containing unmethylated CpG dinucleotides. Since unmethylated CpG motifs are predominant in bacterial but not vertebrate DNA, they function as a “danger signal” leading to a potent immune response. To be able to test various immunotherapeutic agents, we optimized subcutaneous (s.c.), metastatic, and orthotopic models using the murine bladder-49 (MB49) cancer cell line. In the orthotopic model, we show that poly-L-lysine promotes MB49 attachment to the bladder leading to 100% tumor take. In addition, Clorpactin (sodium oxychlorosene) potently enhances adenoviral transduction in the bladder. Utilizing the MB49 model, we compare CpG ODNs with BCG and demonstrate the increased efficacy of CpG ODNs which could cure both s.c. and aggressive orthotopic bladder cancer. In our model, type B ODNs were most optimal and the antitumor response required T cells in order to induce regression and tumor-specific immunity. We also combined CpG ODNs with adenoviral vectors (Ad) expressing the immunostimulatory molecules CD40L, TRANCE, lymphotactin, IL2 or IL15. However, we show that CpG ODNs are effective as a monotherapy and adenoviral vectors did not enhance the effect. AdCD40L was also used to genetically modify human dendritic cells (DCs). AdCD40L-transduced DCs not only had a higher and prolonged expression of the Th1 cytokine IL12 compared to TNFα-matured DCs, but CD40L-activated DCs could also resist the suppressive effects of IL10 and TGFβ. Since TNFα is commonly used in clinical DC vaccination protocols and because tumors often secrete immunosuppressive cytokines, these data have important implications for optimizing cancer immunotherapy.
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Determining the role of interleukin-1β in the Hartley guinea pig model of primary osteoarthritisSantangelo, Kelly Susan 21 March 2011 (has links)
No description available.
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Estudo do efeito da remediação simultânea dos genes p16INK4a e p53 mediada pelo adenovírus bicistrônico Adp16IRESp53 em um modelo de carcinoma de pulmão humano. / Effect of the simultaneous replacement of p16INK4a and p53 genes mediated by a bicistronic adenovirus Adp16IRESp53 in a human lung carcinoma model.Gregorio, Juliana Colozzo 29 August 2008 (has links)
Considerando que várias mutações gênicas estão envolvidas no estabelecimento dos tumores, surge a idéia de que o alcance da melhor eficiência no tratamento do câncer é dado pela entrega de múltiplos genes. Este trabalho apresenta a construção, produção e caracterização funcional in vitro e in vivo do vetor adenoviral bicistrônico Adp16IRESp53 e dos monocistrônicos Adp16 e Adp53 em modelo de câncer de pulmão. Nossos resultados indicam uma forte indução de morte celular nas células H358 transduzidas com Adp16IRESp53 em comparação com vetores monocistrônicos Adp16, Adp53 ou o reporter AdeGFP e/ou AdLacZ. Nos ensaios in vivo, utilizando modelo xenografico onde as células H358 foram implantadas no subcutâneo de camundongos atímicos Balb/C nude, pudemos confirmar também in vivo a significativa inibição do crescimentos dos tumores tratados com Adp16IRESp53. Em conclusão, a remediação simultânea de p16INK4a e p53, mediada pelo arranjo bicistrônico, pode ser considerada como uma estratégia promissora para terapia gênica do câncer de pulmão. / This work presents the construction, production and functional evaluation in vitro and in vivo of the bicistronic adenoviral vector Ap16IRESp53 as well as the monocistronic vectors Adp16 and Adp53 in a lung cancer model. Considering that several mutation events are involved in tumorigenesis, comes the idea that a greater efficiency in cancer treatment would be reached with delivery of multiples genes. Our data demonstrate a strong cell death effect in H358 cells transduced with Adp16IRESp53 when compared with Adp16, Adp53 or the reporter AdeGFP and/or AdLacZ. For the in vivo studies, we have used H358 cells implanted subcutaneously in athymic Balb/c nude mice. Our data show significant suppression of tumors treated with the therapeutic adenoviral vector, Adp16IRESp53. In conclusion, the simultaneous replacement of p16INK4a and p53, mediated by the bicistronic vector, may prove to be a promising strategy for gene therapy of lung cancer.
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Exosomes: A Novel Biomarker and Approach to Gene Therapy for Spinal Muscular AtrophyNash, Leslie 19 March 2019 (has links)
Spinal muscular atrophy (SMA) is a neuromuscular disease caused by reduced levels of the survival motor neuron (SMN) protein. SMA results in degeneration of motor neurons, progressive muscle atrophy, and death in severe forms of the disease. Currently, there is a lack of inexpensive, readily accessible, accurate biomarkers to study the disease. Furthermore, the current FDA approved therapeutic is neither 100 % effective nor accessible for all patients, thus more research is required. Tiny cell derived vesicles known as exosomes have been evaluated in an attempt to identify novel biomarkers for many disease states and have also shown therapeutic promise through their ability to deliver protein and nucleic acid to recipient cells. The research presented herein investigates whether (1) the level of SMN protein in exosomes isolated from the medium of cells, and serum from animal models and patients of SMA is indicative of disease, to serve as a biomarker for monitoring disease progression and therapeutic efficacy; (2) SMN-protein loaded exosomes can be utilized to deliver SMN protein to SMN-deficient cells; (3) adenoviral vectors are effective at creating SMN protein-loaded exosomes in situ for body wide distribution of SMN protein. This research has shown SMN protein is naturally released in extracellular vesicles, and the level of exosomal SMN protein is reflective of the disease state. Exosomes can also be modified to hold enhanced levels of SMN protein and deliver them to both the cytoplasm and nucleus of SMN-deficient cells. Furthermore, adenoviral vectors expressing luciferase-tagged SMN1 cDNA, targeted to the liver, results in SMN protein-loaded exosomes and detectable luciferase activity, body-wide. Thus, exosomes present as an effective biomarker and potentially a novel approach to treat SMA.
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Estudo do efeito da remediação simultânea dos genes p16INK4a e p53 mediada pelo adenovírus bicistrônico Adp16IRESp53 em um modelo de carcinoma de pulmão humano. / Effect of the simultaneous replacement of p16INK4a and p53 genes mediated by a bicistronic adenovirus Adp16IRESp53 in a human lung carcinoma model.Juliana Colozzo Gregorio 29 August 2008 (has links)
Considerando que várias mutações gênicas estão envolvidas no estabelecimento dos tumores, surge a idéia de que o alcance da melhor eficiência no tratamento do câncer é dado pela entrega de múltiplos genes. Este trabalho apresenta a construção, produção e caracterização funcional in vitro e in vivo do vetor adenoviral bicistrônico Adp16IRESp53 e dos monocistrônicos Adp16 e Adp53 em modelo de câncer de pulmão. Nossos resultados indicam uma forte indução de morte celular nas células H358 transduzidas com Adp16IRESp53 em comparação com vetores monocistrônicos Adp16, Adp53 ou o reporter AdeGFP e/ou AdLacZ. Nos ensaios in vivo, utilizando modelo xenografico onde as células H358 foram implantadas no subcutâneo de camundongos atímicos Balb/C nude, pudemos confirmar também in vivo a significativa inibição do crescimentos dos tumores tratados com Adp16IRESp53. Em conclusão, a remediação simultânea de p16INK4a e p53, mediada pelo arranjo bicistrônico, pode ser considerada como uma estratégia promissora para terapia gênica do câncer de pulmão. / This work presents the construction, production and functional evaluation in vitro and in vivo of the bicistronic adenoviral vector Ap16IRESp53 as well as the monocistronic vectors Adp16 and Adp53 in a lung cancer model. Considering that several mutation events are involved in tumorigenesis, comes the idea that a greater efficiency in cancer treatment would be reached with delivery of multiples genes. Our data demonstrate a strong cell death effect in H358 cells transduced with Adp16IRESp53 when compared with Adp16, Adp53 or the reporter AdeGFP and/or AdLacZ. For the in vivo studies, we have used H358 cells implanted subcutaneously in athymic Balb/c nude mice. Our data show significant suppression of tumors treated with the therapeutic adenoviral vector, Adp16IRESp53. In conclusion, the simultaneous replacement of p16INK4a and p53, mediated by the bicistronic vector, may prove to be a promising strategy for gene therapy of lung cancer.
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<i>In vitro</i> Studies of β-cell Death and Survival. Modulation by Adenoviral Vectors and Bcl-2 OverexpressionBarbu, Andreea Roxana January 2004 (has links)
<p>Type 1 diabetes is a multifactorial disease resulting from the selective destruction of insulin-producing β-cells within the pancreatic islets of Langerhans. The mechanisms of β-cell death are not fully understood but cytokines are important mediators of this process. In the present study we found that the combination of IL-1β, TNF-α and IFN-γ induced a nitric oxide-dependent disruption of the mitochondrial membrane potential in rat insulin-producing RINm5F-cells, which seems to be a necessary event for both RINm5F-cell apoptosis and necrosis. The antiapoptotic protein Bcl-2 was able to prevent cellular death in RINm5F cells, most probably by counteracting the mitochondrial permeability transition. These results pointed out the potential of such antiapoptotic genes as gene therapy tools, to allow enhanced resistance against autoimmune destruction of β-cells in type 1 diabetes. For this purpose we used a progesterone-antagonist (RU 486)-inducible gene transfer system to achieve an efficient and controlled Bcl-2 overexpression in primary rat β-cells. However, in our experience, prolonged <i>in vitro</i> culture revealed adenoviral-induced islet cell necrosis, a process that was not prevented by Bcl-2 overexpression. Moreover, we observed that specific adenoviral genotypes correlate with differential induction of necrosis in both human and rat pancreatic islet cells. Although human islet cells showed an increased resistance in terms of viral concentrations required for the induction of cell-toxicity, our results showed that they were unable to build up an efficient antiviral response following infection and that their survival was dependent on the exogenous addition of α-interferon.</p><p>In conclusion, adenoviral techniques for overexpression of antiapoptotic proteins in insulin-producing cells may provide useful tools against β-cell directed autoimmune destruction. However, understanding the specific interactions of the viral gene products with cellular proteins and how they are involved in β-cell death regulation is fundamental for an efficient and safe application of gene therapy approaches to type 1 diabetes.</p>
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Adenovirus-mediated CD40 Ligand Immunotherapy of Prostate and Bladder CancerDzojic, Helena January 2007 (has links)
<p>Cancer immunotherapy aims at reversing the immunosuppressive tumor environment and enhancing anti-tumor immunity. This thesis comprises studies on murine models for prostate (TRAMP-C2) and bladder (MB49) cancer with the aim to explore if the introduction of an adenoviral vector expressing CD40 ligand (AdCD40L) can induce anti-tumor immune responses.</p><p>We show in subcutaneous mouse models that AdCD40L treatment suppresses tumor growth. Bladder cancer is known to secrete immunosuppressive IL-10 which may inhibit T cell function. We show that introducing AdCD40L into mouse bladder tumors inhibits IL-10 production and reverses immunosuppression. AdCD40L-transduced mouse prostate cancer cells showed caspase activation and reduced cell viability. Vaccination with CD40L-modified prostate cancer cells induces anti-tumor responses and protects mice against rechallenge with native TRAMP-C2 cells. In order to enhance AdCD40L therapy, we explored the possibility of combining it with the histone deacetylase inhibitor FK228, also known as depsipeptide. We show that FK228 upregulates coxsackie and adenovirus receptor expression and thereby enhances adenoviral-mediated CD40L expression in both murine and human prostate cancer cells. Increasing amounts of FK228 or AdCD40L reduces prostate cancer cell viability, while the combined treatment gives at least an additive therapeutic effect. Moreover, we show that AdCD40L transduction of prostate cancer cells induces endogenous CD40 expression and sensitize them for CD40L-mediated therapy.</p><p>In order to conduct prostate-specific gene therapy, prostate-specific promoters can be used to drive transgene expression. However, there are no reports on prostate-specific promoters that are transcriptionally active in mouse cells. Here we show that by using the two-step transcription activation system (TSTA), we can enhance the activity of a recombinant human promoter sequence and obtain activity in mouse prostate cancer cells as well. This finding paves the way for future studies of prostate-specific gene therapy in immunocompetent mouse models.</p>
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In vitro Studies of β-cell Death and Survival. Modulation by Adenoviral Vectors and Bcl-2 OverexpressionBarbu, Andreea Roxana January 2004 (has links)
Type 1 diabetes is a multifactorial disease resulting from the selective destruction of insulin-producing β-cells within the pancreatic islets of Langerhans. The mechanisms of β-cell death are not fully understood but cytokines are important mediators of this process. In the present study we found that the combination of IL-1β, TNF-α and IFN-γ induced a nitric oxide-dependent disruption of the mitochondrial membrane potential in rat insulin-producing RINm5F-cells, which seems to be a necessary event for both RINm5F-cell apoptosis and necrosis. The antiapoptotic protein Bcl-2 was able to prevent cellular death in RINm5F cells, most probably by counteracting the mitochondrial permeability transition. These results pointed out the potential of such antiapoptotic genes as gene therapy tools, to allow enhanced resistance against autoimmune destruction of β-cells in type 1 diabetes. For this purpose we used a progesterone-antagonist (RU 486)-inducible gene transfer system to achieve an efficient and controlled Bcl-2 overexpression in primary rat β-cells. However, in our experience, prolonged in vitro culture revealed adenoviral-induced islet cell necrosis, a process that was not prevented by Bcl-2 overexpression. Moreover, we observed that specific adenoviral genotypes correlate with differential induction of necrosis in both human and rat pancreatic islet cells. Although human islet cells showed an increased resistance in terms of viral concentrations required for the induction of cell-toxicity, our results showed that they were unable to build up an efficient antiviral response following infection and that their survival was dependent on the exogenous addition of α-interferon. In conclusion, adenoviral techniques for overexpression of antiapoptotic proteins in insulin-producing cells may provide useful tools against β-cell directed autoimmune destruction. However, understanding the specific interactions of the viral gene products with cellular proteins and how they are involved in β-cell death regulation is fundamental for an efficient and safe application of gene therapy approaches to type 1 diabetes.
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