Global ETD Search

261	Investigating Streptococcus pneumoniae and Adenovirus Co-infections of Lung Epithelial Cells Calabro, Mark Nicholas January 2021 (has links) No description available. Microbiology Virology Streptococcus pneumoniae adenovirus lung epithelial cells Calu-3 cells
262	Assessment and Control of Virological Risk in Reclaimed Water Treated by Soil Aquifer Treatment / 土壌浸透処理を介した再生水飲用に伴う病原ウイルスの感染リスク評価 Thuangsit, Denpetkul 23 September 2016 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19983号 / 工博第4227号 / 新制\|\|工\|\|1654(附属図書館) / 33079 / 京都大学大学院工学研究科都市環境工学専攻 / (主査)教授伊藤禎彦, 教授米田稔, 准教授西村文武 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM Water reclaimation Soil aquifer treatment Adenovirus Rotavirus Quantitative microbial risk assessment 500
263	Adenovirus co-opts neutrophilic inflammation in order to enhance entry into epithelial cells Readler, James Matthew 03 June 2019 (has links) No description available. Biomedical Research Cellular Biology Virology Adenovirus Neutrophil Neutrophil Elastase Autophagy CRISPR Epithelial
264	ANTI-TUMOR AND RADIO-SENSITIZING PROPERTIES OF AD-IU2, A PROSTATE-SPECIFIC REPLICATION-COMPETENT ADENOVIRUS ARMED WITH TRAIL Jimenez, Juan Antonio 18 March 2009 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / In this thesis, I investigated the preclinical utility and antitumor efficacy of TRAIL delivered by Ad-IU2, a prostate-specific replication-competent adenovirus (PSRCA), against androgen-independent prostate cancer. Through transcriptional control of adenoviral early genes E1a, E1b and E4, as well as TRAIL by two bidirectional prostate-specific enhancing sequences (PSES), expression of TRAIL as well as adenoviral replication was limited to prostate-specific antigen and prostate-specific membrane antigen (PSA/PSMA)-expressing cells. Ad-IU2 replicated efficiently in and was restricted to PSA/PSMA-positive prostate cancer cells and induced 5-fold greater apoptosis in androgen-independent CWR22rv and C4-2 prostate cancer cells than the PSRCA control not expressing TRAIL. Ad-IU2 exhibited superior killing efficiency in PSA/PSMA-positive prostate cancer cells at doses 5 to 8-fold lower than that required by a non-TRAIL expressing PSRCA to produce a similar effect. This enhanced cytotoxic effect was not observed in non-prostatic cells, however. As an enhancement of its therapeutic efficacy, Ad-IU2 exerted a bystander effect through either direct cell-to-cell contact or soluble factors present in conditioned media from Ad-IU2-infected cells. In vivo, Ad-IU2, as compared to a control PSRCA, markedly suppressed the growth of subcutaneous CWR22rv xenografts at six weeks post-treatment (3.1 vs. 17.1-fold growth of tumor). The treatment of androgen-independent prostate cancer with Ad-IU2 prior to external beam radiation therapy (EBRT) significantly reduced clonogenic survival with dose reduction factors of 4.91 and 2.43 for CWR22rv and C4-2 cells, respectively. Radio-sensitization by Ad-IU2 was restricted to PSA/PSMA-positive cells. Combinatorial radio-gene therapy resulted in accumulation of cells in G1 phase and a perturbation of the radiation-induced G2 phase arrest. This multi-modal approach combining viral lysis, apoptosis-inducing gene therapy, and radiation therapy could have great impact in achieving complete local tumor control while reducing radiation dose and associated treatment morbidities. This would result in improvement of the clinical outcome of patients with high risk prostate cancer. TRAIL Prostate Cancer PSES Gene Therapy Ad-IU2 Adenovirus Adenoviruses Prostate -- Cancer Cancer -- Gene therapy
265	Recombinant Adenovirus Vaccines, A Comprehensive Investigation of T Cell Immunity / T Cell Biology of Recombinant Adenovirus Vaccines Millar, James 07 1900 (has links) <p> Vaccination is arguably the most effective tool at our disposal to prevent the morbidity and mortality associated with infectious disease. However, there are currently several infectious diseases, notably HIV, malaria and tuberculosis, for which we do not posses effective vaccines. Further complicating matters, traditional methods to construct vaccines for these diseases have been unsuccessful. Advances in our understanding of adaptive immunity have demonstrated that vaccines for these diseases likely rely upon potent T cell immunity to be effective. Recombinant adenovirus (rAd) vectors have shown great promise as vaccination platforms since they are easily constructed, stable, well-tolerated and elicit robust T cell responses. The robust activity of rAd vectors based on the human serotype 5 virus (rHuAd5) in murine and simian models merits futher investigation as a prototypic T cell vaccine. To this end, we have undertaken a comprehensive evaluation of T cell immunity following rAd vaccination. Our previous observations determined that the CD8+ T cell response produced by rHuAd5 vaccines displayed a prolonged effector phase that was associated with long-lived antigen presentation. We have further investigated the mechanisms underlying the maintenance of this memory population. Our results have revealed that the memory phenotype is not due to continual recruitment of naive CD8+ T cells. Rather, the sustained effector phenotype appears to depend upon prolonged expression of the antigen-encoding transgene from the rHuAd5 vector. Interestingly, transgene expression was only required for 60 days after which point the memory population stabilized. Further investigation of the relationship between antigen structure and the CD8+ T cell response revealed that antigens which traffic through the ER produce a CD8+ T cell response that expands more rapidly and displays a more pronounced contraction phase than antigens which are produced within the cytosol. While the exact mechanism underlying this phenomenon is not known, we suspect that pathways related to ER stress may be involved. Despite the more dramatic contraction phase associated with antigens that traffic through the ER, the memory phenotype was unchanged. Interestingly, the CD4+ T cell response was not influenced by antigen structure and displays a sharp contraction phase regardless of whether the antigen traffics through the ER or is produced in the cytosol. We further investigated the relationship between CD4+ T cell help and CD8+ T cell immunity produced by rHuAd5. Based on the partially-exhausted phenotype of the CD8+ T cells produced by rHuAd5 (diminished TNF-a production and little IL-2 production), we suspected that inadequate CD4+ T cell help may have been responsible. However, removal of CD4+ T cells did not further impair the CD8+ T cell response produced by rHuAd5. Rather, a lack of CD4+ T cell help only impacted the magnitude of the primary CD8+ T cell response generated by rHuAd5; the functionality of the CD8+ T cell population, including the ability to proliferate following secondary stimulation, were not affected by the absence of CD4+ T cells. Thus, although CD8+ T cell expansion following immunization with rHuAd5 is dependent upon the availability of CD4+ T cell help, the memory functions of the CD8+ T cell population appears to be independent of CD4+ T cell help. Finally, we compared the magnitude of the CD8+ T cell response produced by rHuAd5 and recombinant vaccinia virus. Our results demonstrated that the functionality of the early T cell response produced by both vectors were identical. However, the primary transgene-specific CD8+ T cell responses produced by rHuAd5 were significantly larger than rVV because the vector specific responses were negligible in the case of rAd but very strong following rVV inoculation. This research has contributed to our understanding of T cell immunity following rAd immunization and will assist in the construction and implementation of future vaccines. </p> / Thesis / Doctor of Philosophy (PhD)
266	The Effects of Infection with Adenoviruses on the Chromosomes of Human Cells and Syrian Hamster Cells Cooper, John Ernest Keith 10 1900 (has links) No abstract provided. / Thesis / Doctor of Philosophy (PhD) / Scope and contents: Seven adenoviruses, including oncogenic and nononcogenic serotypes from human and simian hosts, were utilized to investigate their effects upon the chromosomes of human and Syrian hamster cells. Human cells support adenovirus multiplication while hamster cells do not support replication of infectious adenovirus. The chromosome damage induced by adenoviruses in abortive infection of hamster cells was compared with respect to the effect of virus dose upon the incidence and the types of chromosome aberrations. The effect of different adenoviruses upon the amount and types of chromosome damage was also examined. The effect of adenovirus infection upon DNA synthesis of human and hamster cells was examined, and the relevance of adenovirus-induced chromosome aberrations to the etiology of human cancers is discussed. adenovirus oncogenic non-oncogenic human cells Syrian hamster cells chromosome damage replication
267	Thermally Stable Human Type 5 Adenovirus through Spray Drying: Storage Efficacy and Process Optimization LeClair, Daniel January 2016 (has links) This thesis investigates enhancing the thermal stabilization of a human type 5 adenoviral vector (AdHu5) through spray drying. The spray drying process was used to dry and effectively immobilize the AdHu5 within a mixture of carbohydrate or amino acid excipients into a powder form, resulting in significantly increased thermal stabilization of the viral vector. Spray dried powders were characterized by scanning electron microscopy, differential scanning calorimetry, Karl Fischer titrations, X-ray diffraction (XRD), and X-ray photoelectron spectroscopy (XPS) to identify the effects of temperature and atmospheric moisture on the immobilizing matrix. The best performing spray dried powder in terms of thermal stability consisted of an excipient blend of mannitol and dextran. Response surface methodology was employed to optimize production of these mannitol/dextran powders; measured responses were those relevant to industrial processing of a therapeutic material, namely powder yield for maximizing quantity, particle size for maximizing production of inhalation-deliverable powders, and adenoviral vector response for minimizing the loss of therapeutic activity. The spray drying process parameters of inlet temperature, spray gas flow rate, liquid feed rate and solute concentration in the feed were optimized resulting in a powder yield of 90%, percentage of ideally-sized particles of 50% and a near-zero viral vector titre loss of 0.25 log loss median tissue culture infectious dose (TCID50). The spray dried mannitol/dextran powders proved to have exceptional thermal stability during long term storage as minimal viral vector activity loss was observed when stored at 20°C for 90 days at low relative humidity (0.7 ± 0.3 log TCID50) in comparison to the liquid control which exhibited complete activity loss under the same storage conditions. Furthermore, viral activity of mannitol/dextran powders was retained over short term exposure (72 hours) to temperatures as high as 55°C whereas the liquid control expectedly lost all AdHu5 activity after 30 minutes. Overall, this work provides a guideline for the production of thermally stable powders and active biopharmaceuticals, such as AdHu5 vectors for vaccine applications, using the spray drying process. / Thesis / Master of Applied Science (MASc) / Many vaccines and their base components inherently deteriorate in function at moderate temperatures. Storage by refrigeration at temperatures ranging between 4°C and -80°C is the norm. Such refrigeration is costly for long term storage and significantly limits where vaccines can be sent. This reduces the availability of vaccines in locations around the world where these storage conditions are infeasible but vaccines are needed most. Spray drying, a process which forms dry powders from solution, was used; the solution contained sugars or amino acids to surround and protect the sensitive vaccine component. The produced powders from this work exhibited enhanced thermal stability compared to the control, reducing the need for refrigeration during storage and transport. The spray drying process was further optimized for industrial use by maximizing the amount of powder recovered and ensuring the particle size was appropriate for inhalable use, but most importantly, minimizing losses in therapeutic effectiveness during processing. This production of a thermally stable vaccine is advantageous because is allows for better world-wide accessibility and reduces overall production and delivery costs. spray drying viral vector vaccine adenovirus thermal stabilization optimization glass transition vitrification
268	Altered Hypoxia-Inducible Factor-1 Alpha Levels Correlate with Coronary Artery Anomalies Wikenheiser, Jamie Christopher 16 July 2008 (has links) No description available. Anatomy and Physiology HIF-1 alpha coronary vessels coronary artery anomalies hypoxia adenovirus injections
269	Replication of Adeno-Associated Virus in Murine Fibroblasts with Mouse Adenovirus Provided Helper Functions Bhrigu, Vipul 14 July 2009 (has links) No description available. Molecular Biology Virology Adeno-Associated Virus Adenovirus Murine Fibroblasts Hela Mouse AAV genome copy
270	Cellular Response to Adenovirus and Adeno- Associated Virus Coinfection Bevington, Joyce M. 14 July 2009 (has links) No description available. Virology Adeno-Associated Virus Nucleophosmin Cell cycle Adenovirus DNA Damage Repair Response Host-Virus Interaction

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