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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Field study of the efficacy of an inactivated influenza virus vaccine against the natural disease

Menke, Wilber June Michael, January 1945 (has links)
Thesis (D.P.H.)--University of Michigan, 1940. / Type-written (carbon copy). "The study was conducted in a group of students of the Army specialized training program enrolled in the University of Michigan."--Leaf 2. Bibliography: leaves 81-91.
2

Vaccinia virus mimics receptor tyrosine kinase signalling to achieve actin based motility

Frischknecht, Friedrich. January 2000 (has links)
Berlin, Reie University, Diss., 2000. / Dateiformat: zip, Dateien im PDF-Format.
3

Investigating the Role of Vaccinia Virus-derived Small Extracellular Vesicle Cargo in Infection

McKay, Hayley Elizabeth 29 July 2019 (has links)
No description available.
4

Humanized mouse model: a system to study the interactions of human immune system with vaccinia virus-infected human tumors in mice / Humanisiertes Mausmodell: ein System, um die Wechselwirkungen des menschlichen Immunsystems mit Vaccinia-Virus-infizierten humanen Tumoren in Mäusen zu untersuchen

Tsoneva, Desislava January 2017 (has links) (PDF)
Ein vielversprechender neuer Ansatz zur Behandlung von Krebs beim Menschen ist die Verwendung von onkolytischen Viren, die einen Tumor-spezifischen Tropismus aufweisen. Einer der Top-Kandidaten in diesem Bereich ist das onkolytische Vaccinia Virus (VACV), das bereits vielversprechende Ergebnisse in Tierversuchen und in klinischen Studien gezeigt hat. Aber die von den in vivo in tierischen Modellen erhaltenen Resultate könnten ungenaue Informationen wegen der anatomischen und physiologischen Unterschiede zwischen den Spezies liefern. Andererseits sind Studien in Menschen aufgrund ethischer Erwägungen und potenzieller Toxizität nur limitiert möglich. Die zahlreichen Einschränkungen und Risiken, die mit den Humanstudien verbunden sind, könnten mit der Verwendung eines humanisierten Mausmodells vermieden werden. Die LIVP-1.1.1, GLV-2b372, GLV-1h68, GLV-1h375, GLV-1h376 and GLV-1h377 VACV Stämmen wurden von der Genelux Corporation zur Verfügung gestellt. GLV-2b372 wurde durch Einfügen der TurboFP635 Expressionskassette in den J2R Genlocus des parentalen LIVP-1.1.1-Stammes konstruiert. GLV-1h375, -1h376 and -1h377 kodiert das Gen für den menschlichen CTLA4-blockierenden Einzelketten-Antikörper (CTLA4 scAb). Befunde aus Replikations- and Zytotoxizitätsstudien zeigten, dass alle sechs Viren Tumorzellen infizieren, sich in ihnen replizieren und sie in Zellkultur schließlich ebenso dosis- und zeitabhängig effizient abtöten konnten. CTLA4 scAb und β-Glucuronidase (GusA) Expression sowie Virus Titer in GLV-1h376-infizierten A549-Zellen wurde anhand von ELISA-, β-Glucuronidase- and Standard Plaque-Assays bestimmt. Hierbei zeigte sich eine ausgezeichnete Korrelation mit Korrelationskoeffizienten R2>0.9806. Der durch das GLV-1h376 kodierte CTLA4 scAb wurde erfolgreich aus Überständen von infizierten CV-1-Zellen gereinigt. CTLA4 scAb hat eine hohe in-vitro-Affinität zu seinem menschlichen CTLA4-Zielmolekül sowie abwesende Kreuzreaktivität gegenüber murine CTLA4 gezeigt. CTLA4 scAb Funktionalität wurde in Jurkat-Zellen bestätigt. LIVP-1.1.1, GLV-2b372, GLV-1h68 und GLV-1h376 wurden auch in nicht-tumorösen und/oder tumortragenden humanisierten Mäusen getestet. Zunächst wurde gezeigt, dass die Injektion von menschlichen CD34+ Stammzellen in die Leber von vorkonditionierten neugeborenen NSG Mäusen zu einer erfolgreichen systemische Rekonstitution mit menschlichen Immunzellen geführt hat. CD19+-B-Zellen, CD4+- und CD8+-CD3+-T-Zellen, NKp46+CD56- und NKp46+CD56+-NK-Zellen sowie CD33+-myeloischen Zellen wurden detektiert. Die Mehrheit der nachgewisenen humanen hämatopoetischen Zellen im Mäuseblut in den ersten Wochen nach der Humanisierung waren CD19+-B-Zellen, und nur ein kleiner Teil waren CD3+-T-Zellen. Mit der Zeit wurde eine signifikante Veränderung in CD19+/CD3+-Verhältnis beobachtet, die parallel zur Abnahme der B-Zellen und einem Anstieg der T-Zellen kam. Die Implantation von A549-Zellen unter die Haut dieser Mäuse führte zu einem progressiven Tumorwachstum. Bildgebende Verfahren zur Detektion von Virus-vermittelter TurboFP635- und GFP-Expression, Standard Plaque Assays sowie immunohistochemische Analysen bestätigten die erfolgreiche Invasion der Viren in die subkutanen Tumoren. Die humane CD45+-Zellpopulation in Tumoren wurde hauptsächlich durch NKp46+CD56bright-NK-Zellen und einen hohen Anteil von aktivierten CD4+- und zytotoxische CD8+-T-Zellen dargestellt. Es wurden jedoch keine signifikanten Unterschiede zwischen den Kontroll- und LIVP-1.1.1-infizierten Tumoren beobachtet, was darauf hindeutete, dass die Rekrutierung von NK- und aktivierten T-Zellen, mehr Tumorgewebe-spezifisch als Virus-abhängig waren. Die GLV-1h376-vermittelten CTLA4 scAb-Expression in den infizierten Tumoren war ebenfalls nicht in der Lage, die Aktivierung von Tumor-infiltrierenden T-Zellen im Vergleich zur Kontrolle und GLV-1h68-behandelten Mäusen, signifikant zu erhöhen. ELISA-, β-Glucuronidase- and Standard Plaque-Assays zeigten eine eindeutige Korrelation mit den Korrelationskoeffizienten R2>0,9454 zwischen CTLA4 scAb- und GusA-Konzentrationen und Virus Titer in Tumorproben von GLV-1h376-behandelten Mäusen. T-Zellen, die aus der Milz dieser Tumor-tragenden Mäuse isoliert wurden, waren funktionell und konnten erfolgreich mit Beads aktiviert werden. Mehr CD25+ und IFN-ɣ+ T-Zellen wurden in der GLV-1h376-Gruppe gefunden, wahrscheinlich aufgrund der CTLA4-Blockade durch die Virus-vermittelte CTLA4 scAb-Expression in den Mäusen. Außerdem wurde eine höhere Konzentration von IL-2 in dem Kulturüberstand von diesen Splenozyten im Vergleich zu Kontrollproben nachgewiesen. Im Gegensatz zu der Aktivierung mit Beads konnten T-Zellen von allen drei Maus-Gruppen nicht durch A549 Tumorzellen ex vivo aktiviert werden. Unser Mausmodell hat den besonderen Vorteil, dass sich Tumoren unter der Haut der humanisierten Mäuse entwickeln, was eine genaue Überwachung des Tumorwachstums und Auswertung der onkolytischen Virotherapie ermöglicht. / A promising new approach for the treatment of human cancer is the use of oncolytic viruses, which exhibit tumor tropism. One of the top candidates in this area is the oncolytic vaccinia virus (VACV), which has already shown promising results in animal studies and in clinical trials. However, due to discrepancies in both innate and adaptive immunity between mice and men the evaluation of the vaccinia virus’ interactions with the host immune system in mice are not fully conclusive of what is actually happening in human cancer patients after systemic administration of vaccinia virus. Also, ethical and legal concerns as well as risk of potential toxicity limit research involving human patients. Therefore, a good in vivo model for testing interactions between vaccinia virus and human immune cells, avoiding the numerous limitations and risks associated with human studies, could be a humanized mouse model. LIVP-1.1.1, GLV-2b372, GLV-1h68, GLV-1h375, GLV-1h376 and GLV-1h377 VACVs were provided by Genelux Corporation. GLV-2b372 was constructed by inserting TurboFP635 expression cassette into the J2R locus of the parental LIVP-1.1.1. GLV-1h375, -1h376 and -1h377 VACVs encode the human CTLA4-blocking single-chain antibody (CTLA4 scAb). Performed replication and cytotoxicity assays demonstrated that all six viruses were able to infect, replicate in and kill human tumor cells in virus-dose- and time-dependent fashion. CTLA4 scAb and β-glucuronidase (GusA) expression as well as viral titers in GLV-1h376-infected cells were analyzed by ELISA, β-glucuronidase assay and standard plaque assay, respectively, and compared. An excellent correlation with correlation coefficients R2>0.9806 were observed. GLV-1h376-encoded CTLA4 scAb was successfully purified from supernatants of infected CV-1 cells and demonstrated in vitro affinity to its human CTLA4 target and lack of cross-reactivity to mouse CTLA4. CTLA4 scAb functionality was confirmed in Jurkat cells. LIVP-1.1.1, GLV-2b372, GLV-1h68 and GLV-1h376 were next studied in non-tumorous and/or tumor-bearing humanized mice. It was demonstrated that injection of human CD34+ stem cells into the liver of preconditioned newborn NSG mice let to a successful systemic reconstitution with human immune cells. CD19+ B cells, CD4 and CD8 single positive CD3+ T cell, NKp46+CD56- and NKp46+CD56+ NK cells as well as CD33+ myeloid cells developed. At early time points after engraftment, majority of the human hematopoietic cells detected in the mouse blood were CD19+ B cells and only a small portion were CD3+ T cells. With time a significant change in CD19+/CD3+ ratio was reported with a decrease of B cells and an increase of T cells. Implantation of A549 cells under the skin of those humanized NSG mice resulted in a progressive tumor growth, described for the first time in this thesis. Successful colonization of subcutaneous A549 tumors with VACVs was visualized and demonstrated by detection of virus-mediated TurboFP635 and GFP expression as well as by standard plaque assay and immunohistochemistry. The human CD45+ cell population in tumors was represented mainly by NKp46+CD56bright NK cells and a large portion of activated CD4+ and cytotoxic CD8+ T cells. However, no significant differences were observed between control and LIVP-1.1.1-infected tumors, suggesting that the recruitment of NK and activated T cells were more tumor tissue specific than virus-dependent. Unfortunately, virus-mediated CTLA4 scAb expression in the GLV-1h376-infected tumors was also not able to significantly increase activation of T cells compared to control and GLV-1h68-treated mice. Importantly, ELISA, β-glucuronidase and standard plaque assays showed an excellent correlation with correlation coefficients R2>0.9454 between CTLA4 scAb, GusA concentrations and viral titers in tumor samples from those GLV-1h376 treated mice. T cells isolated from the spleens of such control or GLV-1h68- or -1h376-treated A549 tumor-bearing mice were functional and could successfully be activated with human T cells activation beads. However, although no significant difference was observed between the three mouse groups, a slightly higher percentage of the GLV-1h376-treated mice-derived T cells were expressing CD25 and producing IFN-ɣ after ex vivo activation, probably due to the CTLA4 blockade by the virus-encoded CTLA4 scAb in the GLV-1h376-treated mice. Also, slightly higher levels of IL-2 were detected in the culture supernatant of those splenocytes compared to control samples. In contrast, T cells from all three mouse groups were not able be activated by A549 tumor cells ex vivo. Our model has the specific advantage that tumors develop under the skin of the humanized mice, which allows accurate monitoring of the tumor growth and evaluation of the oncolytic virotherapy. Therefore it is important to choose the right approaches for its further improvement.
5

Identification and analysis of vaccinia virus acylproteins

Hansen, Scott G. 05 September 2001 (has links)
Vaccinia virus (VV) encodes at least six proteins that are modified by the addition of a 14-carbon saturated fatty acid through an amide linkage and at least eight proteins that are modified post-translationally by the addition of a 16-carbon saturated fatty acid through linkage to cysteine residues. These post-translational modifications are referred to as myristylation and palmitylation, respectively. The purpose of this work was to further characterize the known myristylproteins and to define a consensus motif for the palmitylation of a protein so that we could identify and begin the characterization of new palmitylproteins. Through this work we have identified a loosely conserved consensus motif that directs the palmitylation of a protein. Using the VV palmitylprotein p37, we characterized this motif and then used it in the identification three new VV palmitylproteins. We have also determined the membrane orientation of the VV myristylproteins, L1R, within the intracellular mature virus (IMV) particle. Hydrophobicity plot analysis identified two possible membrane orientations based on two putative transmembrane domains. Through transient expression data, L1R was determined to span the IMV membrane twice, with both the amino and carboxy termini being on the lumen side. Three lac recombinant viruses which are inducible for the A16L, E7R, and G9R open reading frames were created and analyzed using a newly developed vector system that fuses the green fluorescent protein to the neomycin resistance gene. Propagation of these viruses in the absence of the inducer IPTG determined that these genes are essential to VV replication. We have identified and characterized the primary structural determinants specifying the modification of a protein by palmitate, and have identified three new VV palmitylproteins. In addition, the membrane orientation of the VV myristylprotein L1R was deduced, which can enable the construction of better recombinant vaccines through efficient antigen presentation. Lastly, we have developed a technique and vector system to easily create and isolate VV recombinants for characterization. This system enabled us to further characterize the A16L, E7R, and G9R myristylproteins. / Graduation date: 2002
6

Post-translational modifications of vaccinia virus proteins : molecular analysis of the myristylated L1R gene produc

Ravanello, Monica P. G. 25 March 1994 (has links)
Graduation date: 1994
7

Proteolytic maturation of vaccinia virus virion-associated proteins : analysis of substrate determinants

Lee, Peiyu 16 December 1993 (has links)
Graduation date: 1994
8

Proteolytic maturation of Vaccinia virus structural proteins : enzyme and substrate analysis

Whitehead, Stephen S. 24 March 1994 (has links)
Graduation date: 1994
9

Structure-function analysis of the vaccinia virus I7L proteinase /

Moerdyk, Megan J. January 1900 (has links)
Thesis (M.S.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 83-91). Also available on the World Wide Web.
10

Characterization of vaccinia virus A12L protein : its proteolysis and functional analyses in virus replication /

Yang, Su Jung. January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 110-120). Also available on the World Wide Web.

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