@phdthesis{Gnamlin2015, author = {Gnamlin, Prisca}, title = {Use of Tumor Vasculature for Successful Treatment of Carcinomas by Oncolytic Vaccinia Virus}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-119019}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2015}, abstract = {Tumor-induced angiogenesis is of major interest for oncology research. Vascular endothelial growth factor (VEGF) is the most potent angiogenic factor characterized so far. VEGF blockade was shown to be sufficient for angiogenesis inhibition and subsequent tumor regression in several preclinical tumor models. Bevacizumab was the first treatment targeting specifically tumor-induced angiogenesis through VEGF blockade to be approved by the Food and Drugs Administration (FDA) for cancer treatment. However, after very promising results in preclinical evaluations, VEGF blockade did not show the expected success in patients. Some tumors became resistant to VEGF blockade. Several factors have been accounted responsible, the over-expression of other angiogenic factors, the noxious influence of VEFG blockade on normal tissues, the selection of hypoxia resistant neoplastic cells, the recruitment of hematopoietic progenitor cells and finally the transient nature of angiogenesis inhibition by VEGF blockade. The development of blocking agents against other angiogenic factors like placental growth factor (PlGF) and Angiopoietin-2 (Ang-2) allows the development of an anti-angiogenesis strategy adapted to the profile of the tumor. Oncolytic virotherapy uses the natural propensity of viruses to colonize tumors to treat cancer. The recombinant vaccinia virus GLV-1h68 was shown to infect, colonize and lyse several tumor types. Its descendant GLV-1h108, expressing an anti-VEGF antibody, was proved in previous studies to inhibit efficiently tumor induced angiogenesis. Additional VACVs expressing single chain antibodies (scAb) antibodies against PlGF and Ang-2 alone or in combination with anti VEGF scAb were designed. In this study, VACV-mediated anti-angiogenesis treatments have been evaluated in several preclinical tumor models. The efficiency of PlGF blockade, alone or in combination with VEGF, mediated by VACV has been established and confirmed. PlGF inhibition alone or with VEGF reduced tumor burden 5- and 2-folds more efficiently than the control virus, respectively. Ang-2 blockade efficiency for cancer treatment gave controversial results when tested in different laboratories. Here we demonstrated that unlike VEGF, the success of Ang-2 blockade is not only correlated to the strength of the blockade. A particular balance between Ang-2, VEGF and Ang-1 needs to be induced by the treatment to see a regression of the tumor and an improved survival. We saw that Ang-2 inhibition delayed tumor growth up to 3-folds compared to the control virus. These same viruses induced statistically significant tumor growth delays. This study unveiled the need to establish an angiogenic profile of the tumor to be treated as well as the necessity to better understand the synergic effects of VEGF and Ang-2. In addition angiogenesis inhibition by VACV-mediated PlGF and Ang-2 blockade was able to reduce the number of metastases and migrating tumor cells (even more efficiently than VEGF blockade). VACV colonization of tumor cells, in vitro, was limited by VEGF, when the use of the anti-VEGF VACV GLV-1h108 drastically improved the colonization efficiency up to 2-fold, 72 hours post-infection. These in vitro data were confirmed by in vivo analysis of tumors. Fourteen days post-treatment, the anti-VEGF virus GLV-1h108 was colonizing 78.8\% of the tumors when GLV-1h68 colonization rate was 49.6\%. These data confirmed the synergistic effect of VEGF blockade and VACV replication for tumor regression. Three of the tumor cell lines used to assess VACV-mediated angiogenesis inhibition were found, in certain conditions, to mimic either endothelial cell or pericyte functions, and participate directly to the vascular structure. The expression by these tumor cells of e-selectin, p-selectin, ICAM-1 and VCAM-1, normally expressed on activated endothelial cells, corroborates our findings. These proteins play an important role in immune cell recruitment, and there amount vary in presence of VEGF, PlGF and Ang-2, confirming the involvement of angiogenic factors in the immuno-modulatory abilities of tumors. In this study VACV-mediated angiogenesis blockade proved its potential as a therapeutic agent able to treat different tumor types and prevent resistance observed during bevacizumab treatment by acting on different factors. First, the expression of several antibodies by VACV would prevent another angiogenic factor to take over VEGF and stimulate angiogenesis. Then, the ability of VACV to infect tumor cells would prevent them to form blood vessel-like structures to sustain tumor growth, and the localized delivery of the antibody would decrease the risk of adverse effects. Next, the blockade of angiogenic factors would improve VACV replication and decrease the immune-modulatory effect of tumors. Finally the fact that angiogenesis blockade lasts until total regression of the tumor would prevent the recovery of the tumor-associated vasculature and the relapse of patients.}, subject = {Vaccinia-Virus}, language = {en} } @phdthesis{Kirscher2014, author = {Kirscher, Lorenz}, title = {Melanogene rekombinante Vaccinia-Viren als diagnostisches und therapeutisches Agenz zur Tumorbehandlung}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-112074}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2014}, abstract = {Die g{\"a}ngigen therapeutischen Behandlungsmethoden f{\"u}r die verschiedensten Krebserkrankungen zeigen nach wie vor M{\"a}ngel bez{\"u}glich der Effizienz sowie zahlreiche Nebenwirkungen w{\"a}hrend und nach der Behandlung. Maßgeblich f{\"u}r diese Defizite ist die teilweise geringe Sensitivit{\"a}t der meisten konventionellen diagnostischen Systeme und damit einhergehend die oftmals zu sp{\"a}te Identifikation entarteter Gewebsbereiche. Zur L{\"o}sung dieser Problematik bieten onkolytische Vaccinia-Viren einen Ansatz, sowohl die Effizienz der Therapie wie auch die Diagnostik zu verbessern. In beiden F{\"a}llen sind die Tumorzell-spezifische Vermehrung der Viren und die M{\"o}glichkeit entscheidend, die Viren als Vektorsystem zur Expression therapeutischer oder diagnostischer Fremdgenkassetten zu nutzen. Um ein auf Vaccinia-Virus-basierendes Reportersystem zum diagnostischen Nachweis von Krebszellen mittels Tiefengewebs-Tomographie bereit zu stellen, wurden die f{\"u}r die murine Tyrosinase (mTyr) und das Tyrosinase-Helferprotein 1 (Tyrp1) kodierenden Gene in das Genom eines onkolytischen Vaccinia-Virus inseriert. Die Tyrosinase ist das Schl{\"u}sselenzym der Melaninsynthese. Bereits die solit{\"a}re Expression der Tyrosinase f{\"u}hrt in der transformierten Zelle zur Melaninproduktion. Das Tyrosinase-Helferprotein 1 ist an der Prozessierung und Stabilisierung der Tyrosinase beteiligt. Bereits in verschiedenen Studien konnte gezeigt werden, dass Melanin als Reportermolek{\"u}l f{\"u}r die Magnetresonanz sowie f{\"u}r die multispektrale optoakustische Tomographie einsetzbar ist. Es wurde deswegen angestrebt, die Kombination aus dem therapeutischen Potential des onkolytischen Vaccinia-Virus und der diagnostischen Anwendung des Melanins als Reporter auszunutzen. S{\"a}mtliche in dieser Arbeit aufgef{\"u}hrten rekombinanten Vaccinia-Viren (rVACV) wurden von der Firma Genelux Corporation zur Verf{\"u}gung gestellt und in dieser Arbeit hinsichtlich der therapeutischen Effizienz und des diagnostischen Potentials untersucht. In ersten Zellkultur-Versuchen wurde anhand verschiedener konstitutiv melanogener rVACV-Konstrukte festgestellt, dass die Kombination aus dem Vaccinia-Virus-spezifischen synthetic early/late Promotor und dem Enzym Tyrosinase (GLV-1h327) bzw. den Enzymen Tyrosinase und Tyrosinase-Helferprotein 1 (GLV-1h324) die h{\"o}chste Melaninsynthese-Rate zeigte. Anschließend wurde mittels der Bestimmung der spektralen Absorption und der Enzymaktivit{\"a}t der viral kodierten Melanin synthetisierenden Enzyme sowie mikroskopischer Analysen gezeigt, dass es mit diesen auf 8 Vaccinia-Virus-basierenden melanogenen Reportersystemen m{\"o}glich ist, die Melaninsynthese in nicht-melanogenen Zellen zu induzieren. Anhand elektronenmikroskopischer Untersuchungen in Zellkultur und ex vivo konnte gezeigt werden, dass die nach rVACV-Infektion stattfindende Melaninsynthese in den Lysosomen der Wirtszelle abl{\"a}uft. Eine Analyse der atomaren Zusammensetzung des viral vermittelten Melanins ergab, dass es sich um eine Mischform aus Eu- und Ph{\"a}omelanin handelt. Dieser Melanin-Mix {\"a}hnelte dem Melanin aus Haut und Augen, jedoch lagen an Melanin-gebundene Metallionen in erh{\"o}htem Maß vor...}, subject = {Melanin}, language = {de} } @phdthesis{Reinboth2012, author = {Reinboth, Jennifer}, title = {Cellular Factors Contributing to Host Cell Permissiveness in Support of Oncolytic Vaccinia Virus Replication}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85392}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2012}, abstract = {In initial experiments, the well characterized VACV strain GLV-1h68 and three wild-type LIVP isolates were utilized to analyze gene expression in a pair of autologous human melanoma cell lines (888-MEL and 1936 MEL) after infection. Microarray analyses, followed by sequential statistical approaches, characterized human genes whose transcription is affected specifically by VACV infection. In accordance with the literature, those genes were involved in broad cellular functions, such as cell death, protein synthesis and folding, as well as DNA replication, recombination, and repair. In parallel to host gene expression, viral gene expression was evaluated with help of customized VACV array platforms to get better insight over the interplay between VACV and its host. Our main focus was to compare host and viral early events, since virus genome replication occurs early after infection. We observed that viral transcripts segregated in a characteristic time-specific pattern, consistent with the three temporal expression classes of VACV genes, including a group of genes which could be classified as early-stage genes. In this work, comparison of VACV early replication and respective early gene transcription led to the identification of seven viral genes whose expression correlated strictly with replication. We considered the early expression of those seven genes to be representative for VACV replication and we therefore referred to them as viral replication indicators (VRIs). To explore the relationship between host cell transcription and viral replication, we correlated viral (VRI) and human early gene expression. Correlation analysis revealed a subset of 114 human transcripts whose early expression tightly correlated with early VRI expression and thus early viral replication. These 114 human molecules represented an involvement in broad cellular functions. We found at least six out of 114 correlates to be involved in protein ubiquitination or proteasomal function. Another molecule of interest was the serine-threonine protein kinase WNK lysine-deficient protein kinase 1 (WNK1). We discovered that WNK1 features differences on several molecular biological levels associated with permissiveness to VACV infection. In addition to that, a set of human genes was identified with possible predictive value for viral replication in an independent dataset. A further objective of this work was to explore baseline molecular biological variances associated with permissiveness which could help identifying cellular components that contribute to the formation of a permissive phenotype. Therefore, in a subsequent approach, we screened a set of 15 melanoma cell lines (15-MEL) regarding their permissiveness to GLV-1h68, evaluated by GFP expression levels, and classified the top four and lowest four cell lines into high and low permissive group, respectively. Baseline gene transcriptional data, comparing low and highly permissive group, suggest that differences between the two groups are at least in part due to variances in global cellular functions, such as cell cycle, cell growth and proliferation, as well as cell death and survival. We also observed differences in the ubiquitination pathway, which is consistent with our previous results and underlines the importance of this pathway in VACV replication and permissiveness. Moreover, baseline microRNA (miRNA) expression between low and highly permissive group was considered to provide valuable information regarding virus-host co-existence. In our data set, we identified six miRNAs that featured varying baseline expression between low and highly permissive group. Finally, copy number variations (CNVs) between low and highly permissive group were evaluated. In this study, when investigating differences in the chromosomal aberration patterns between low and highly permissive group, we observed frequent segmental amplifications within the low permissive group, whereas the same regions were mostly unchanged in the high group. Taken together, our results highlight a probable correlation between viral replication, early gene expression, and the respective host response and thus a possible involvement of human host factors in viral early replication. Furthermore, we revealed the importance of cellular baseline composition for permissiveness to VACV infection on different molecular biological levels, including mRNA expression, miRNA expression, as well as copy number variations. The characterization of human target genes that influence viral replication could help answering the question of host cell response to oncolytic virotherapy and provide important information for the development of novel recombinant vaccinia viruses with improved features to enhance replication rate and hence trigger therapeutic outcome.}, subject = {Vaccinia-Virus}, language = {en} } @phdthesis{Nguyen2012, author = {Nguyen, Hoang Duong}, title = {Vaccinia virus mediated expression of human erythropoietin in colonized human tumor xenografts results in faster tumor regression and increased red blood cell biogenesis in mice}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-85383}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2012}, abstract = {Cancer-related anemia is prevalent in cancer patients. Anemia negatively affects normal mental and physical function capacity with common symptoms s like fatigue, headache, or depression. Human erythropoietin (hEPO), a glycoprotein hormone regulating red blood cell formation, is approved for the treatment of cancer-related anemia. It has shown benefits in correcting anemia, and subsequently improving health-related quality of life and/or enhancing radio-, and chemotherapy. Several recent clinical trials have suggested that recombinant hEPO (rhEPO) may promote tumor growth that raises the questions concerning the safety of using rhEPO for cancer treatment. However in others, such effects were not indicated. As of today, the direct functional effect of rhEPO in tumor models remains controversial and needs to be further analyzed. Based on the GLV-1h68 backbone, the hEPO-expressing recombinant VACV strains (EPO-VACVs) GLV-1h210, GLV-1h211, GLV-1h212 and GLV-1h213 were generated by replacing the lacZ expression cassette at the J2R locus with hEPO under the control of different vaccinia promoters p7.5, pSE, pSEL, pSL, respectively. Also, GLV-1h209 was generated, which is similar to GLV-1h210 but expresses a mutated non-functinal EPO (R103A). The EPO-VACV strains were characterized for their oncolytic efficacy in lung (A549) cancer cells in culture and tumor xenografts. Concomitantly, the effects of locally expressed hEPO in tumors on virus replication, host immune infiltration, tumor vascularization and tumor growth were also evaluated. As expected, EPO-VACVs enhanced red blood cell (RBC) formation in xenograft model. The number of RBCs and hemoglobin (Hb) levels were significantly increased in EPO-VACVs-treated mice compared to GLV-1h68-treated or untreated control mice. However, the mean size of RBC or Hb content per RBC remained normal. Furthermore, over-expression of hEPO did not significantly affect numbers of lymphocytes, monocytes, leucocytes or platelets in the peripheral blood stream. The expression of hEPO in colonized tumors of mice treated with EPO-VACVs was demonstrated by immunohistological staining. Interestingly, there were 9 - 10 hEPO isoforms detected either in tumors, cells, or supernatant, while 3-4 basic isoforms were missing in blood serum, where only six hEPO isoforms were found. Tumor-bearing mice after treatment with EPO-VACVs showed enhanced tumor regression compared to GLV-1h68. The virus titers in tumors in EPO-VACVs-treated mice were 3-4 fold higher compared to GLV-1h68-treated mice. Nevertheless, no significant difference in virus titers among EPO-VACVs was found. The blood vessels in tumors were significantly enlarged while the blood vessel density remained unchanged compared to the GLV-1h68 treated mice, indicating that hEPO did not affect endothelial cell proliferation in this model. Meanwhile, rhEPO (Epoetin alfa) alone or in combination with GLV-1h68 did not show any signs of enhanced tumor growth when compared to untreated controls and GLV-1h68 groups, while doses used were clinical relevant (500 U/kg). These findings suggested that hEPO did not promote angiogenesis or tumor growth in the A549 tumor xenograft model. Human EPO has been reported to function as an immune modulator. In this study, however, we did not find any involvement of hEPO in immune cytokine and chemokine expression or innate immune cell infiltration (leucocytes, B cells, macrophages and dendritic cells) into infected tumors. The degree of immune infiltration and cytokine expression was directly correlated to the number of virus particles. Increased virus replication, led to more recruited immune cells and secreted cytokines/chemokines. It was proposed that tumor regression was at least partially mediated through activation of innate immune mechanisms. In conclusion, the novel EPO-VACVs were shown to significantly increase the number of RBCs, Hb levels, and virus replication in tumors as well as to enhance tumor regression in the A549 tumor xenograft model. Moreover, locally expressed hEPO did not promote tumor angiogenesis, tumor growth, and immune infiltration but was shown to causing enlarged tumoral microvessels which facilitated virus spreading. It is conceivable that in a possible clinical application, anemic cancer patients could benefit from the EPO-VACVs, where they could serve as "wellness pills" to decrease anemic symptoms, while simultaneously destroying tumors.}, subject = {Erythropoietin}, language = {en} }