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11	Desenvolvimento e investigação da transferência gênica de p14ARF e interferon-beta em linhagens celulares de melanoma humano / Development and investigation of p14ARF and interferon-beta gene transfer in human melanoma cell lines Mendonça, Samir Andrade 22 November 2018 (has links) O melanoma é um dos tipos de câncer de pele cuja frequência tem crescido nos últimos anos e apresentado elevada taxa de mortalidade, apesar de ter reduzida prevalência. Mesmo havendo um considerável avanço nas propostas terapêuticas nos últimos anos, ainda se vê necessário o desenvolvimento de novas abordagens, sendo a terapia gênica uma promissora possibilidade para tal. Utilizando vetores adenovirais com promotor responsivo à p53 (PGTx beta) para a transferência gênica de p19Arf (proteína supressora de tumor) e interferon-beta (citocina imunomodulatória) em células de melanoma murino com o gene Trp53 selvagem, o nosso grupo demonstrou previamente que a combinação dos dois genes, mas não o tratamento individual, promove efeito citotóxico sinérgico com a liberação de marcadores de morte imunogênica, in vitro; e significativa redução da progressão tumoral acompanhada de uma forte resposta imunológica de linfócitos T CD4+ e CD8+, células NK e neutrófilos contra desafios tumorais, in vivo. Porém, como a translação para modelos de melanomas humanos ainda estava em estágio inicial, ainda não haviam sido confirmamos se esses benefícios também seriam recapitulados. Observações inicias sugeriam que apenas a transferência gênica de interferon-beta seja suficiente para induzir morte celular em linhagens humanas portadoras de TP53 selvagem, sem ainda terem sido identificado o efeito da transferência de p14ARF e nem a necessidade de p53 endógeno para a resposta. Dessa forma, o presente projeto buscou avaliar os efeitos antitumorais provocados pela terapia gênica combinada de p14ARF e interferon-beta em modelos de melanoma humano utilizando linhagens com e sem a via da p53 integra. Para isso, foram utilizadas diferentes linhagens celulares com TP53 selvagem ou com distintas mutações e também foram construídos vetores adenovirais com o promotor constitutivo CMV, tornando assim possível a expressão dos transgenes de maneira independente do status do TP53 endógeno. O presente trabalho revelou que a transferência combinada do interferon-beta e p14ARF revelou vantagem quanto ao estímulo citotóxico e regulação negativa na dinâmica da população em ambas as linhagens UACC-62 e SK-Mel-29, independentemente do estado da via da p53. Na avaliação dos mecanismos de morte foi observado que ambas a linhagens apresentaram marcação positiva para marcadores da via da apoptose, porém com possível participação de outras modalidades de morte-celular, como a necrose, para a linhagem com o TP53 mutado (SK-Mel-29). Além disso, mostramos que os tratamentos potencialmente induzem vias de morte com caráter imunogênico pela secreção de ATP e exposição da calreticulina, sendo este último marcador mais significantemente observado mediante o tratamento combinado. Assim, recapitulamos o benefício observado em modelo murino para a transferência gênica do interferon-beta e p14ARF em modelo de melanoma humano, e investigamos marcadores importantes à translação da proposta terapêutica para o melanoma / Melanoma is one of the types of skin cancer whose frequency has grown in the last years and presents a high mortality rate, despite its low prevalence. Although there has been considerable progress in therapeutic proposals in recent years, it is still necessary to develop new approaches, being gene therapy a promising possibility for this. With the use of adenoviral vectors with a p53 responsive promoter (PGTx beta) for the gene transfer of p19Arf (tumor suppressor protein) and interferon-beta (immunomodulatory cytokine) in murine melanoma cells bearing wild-type Trp53 gene, our group previously demonstrated that the combination of the two genes, but not individual treatment, promotes a synergistic cytotoxic effect with the release of immunogenic death markers in vitro; and significant reduction of tumor progression with a strong immune response mediated by CD4+ and CD8+ T lymphocytes, NK cells and neutrophils in tumor challenges in vivo. However, as the translation for human melanoma models was still at an early stage, it still was not possible to confirm whether these benefits would also be recapitulated in a human model. Initial observations suggested that interferon-beta gene transfer is sufficient to induce cell death in wild-type TP53-bearing human melanoma cell lines, with the effect of p14ARF gene transfer and the role for endogenous p53 in this response yet to be investigated. Thus, the present work aimed to evaluate the antitumor effects induced upon the combined gene transfer of p14ARF and interferon-beta in human melanoma cell lines with and without a functional p53 pathway. For this, different cell lines bearing wild-type TP53 or with different mutations were used and adenoviral vectors with the constitutive CMV promoter were also constructed, making possible the expression of the transgenes independently of the endogenous TP53 status. The present work showed that the combined transfer of interferon-beta and p14ARF was advantageous in cytotoxic stimulation and negative regulation in population dynamics for both cell lines UACC-62 and SK-Mel-29, regardless of p53 pathway status. In the evaluation of the triggered cell death mechanisms it was observed that both cell lines presented positive markers of the apoptosis pathway, but with possible participation of other cell death mechanism, such as necrosis, for the mutated TP53 cell line SK-Mel-29. In addition, we showed that the treatments potentially induced cell death pathways with immunogenic features including the secretion of ATP and calreticulin exposure, being the latter marker more significantly presented after the combined treatment. Thus, we recapitulated the benefit observed in murine model for the gene transfer of interferon-beta and p14ARF in the model of human melanoma, and investigated important markers for the translation of the melanoma therapeutic proposal Read more Cell death Genetic therapy Immunotherapy Imunoterapia Interferon beta Interferon-beta Melanoma Melanoma Morte celular Proteína supressora de tumor p14ARF Terapia genética Tumor supressor protein p14ARF
12	The therapeutic efficacy of improved α-fetoprotein promoter-mediated tBid delivered by folate-PEI600-cyclodextrin nanopolymer vector in hepatocellular carcinoma. / therapeutic efficacy of improved alpha-fetoprotein promoter-mediated tBid delivered by folate-PEI600-cyclodextrin nanopolymer vector in hepatocellular carcinoma / CUHK electronic theses & dissertations collection January 2013 (has links) Hu, Baoguang. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2013. / Includes bibliographical references (leaves 121-143). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Liver--Cancer--Gene therapy Alpha fetoproteins--Therapeutic use Adenoviruses--Therapeutic use Carcinoma, Hepatocellular--drug therapy alpha-Fetoproteins--therapeutic use Adenoviridae--therapeutic use Genetic Therapy
13	Transcriptional and proteomic study of brain and reproductive organ-expressed (BRE) gene in human umbilical cord perivascular stem cells. / 人類臍帶血管周皮幹細胞中腦和生殖器官表達基因BRE的轉錄及蛋白水平的研究 / CUHK electronic theses & dissertations collection / Ren lei qi dai xue guan zhou pi gan xi bao zhong nao he sheng zhi qi guan biao da ji yin BRE de zhuan lu ji dan bai shui ping de yan jiu January 2012 (has links) 幹細胞療法是近年的研究熱點之一，然而幹細胞在組織修復中的實際應用受到移植後幹細胞存活率低的制約，約80% 的幹細胞在移植至組織後不能存活。人類臍帶血管周皮 (HUCPV) 幹細胞為多功能間充質幹細胞移植提供豐富的細胞來源。在合適的誘導環境下，它們具有向多種間充質細胞系分化的能力。與從骨髓或臍帶血中提取的間充質幹細胞比較，人類臍帶血管周皮幹細胞的體外增殖更為容易。在本研究中，我們從人類臍帶血管周圍組織中分離人類臍帶血管周皮幹細胞，並採用流式細胞技術分選細胞表面標記物CD34、CD45呈陰性同時CD44 、CD90、 CD105、 CD146呈陽性的HUCPV細胞。HUCPV細胞在體外培養以及三維支架的環境下具有分化為骨和軟骨的能力。 / 在本研究中，我們主要研究腦和生殖器官表達基因（BRE）在HUCPV細胞中的功能。 BRE蛋白與其他已知蛋白的同源性均不高，目前尚未鑑定出任何功能性的結構域。至今為止，BRE基因的已知功能大多數是通過對腫瘤模型的研究發現的。據報導，BRE能夠提高DNA損傷的腫瘤細胞的存活率，但BRE在幹細胞中的作用仍不清楚。我們發現，當HUCPV細胞分化後，其BRE的表達水平降低。此外，利用BRE-siRNA降低HUCPV細胞中BRE基因的表達，能夠促進HUCPV細胞向骨和軟骨分化的進程。因此，我們假設BRE對維持HUCPV細胞的幹細胞功能具有重要的作用。由於經過BRE基因沉默處理的HUCPV細胞與對照組相比並無顯著的表型差別，我們採用微陣列（microarray）以及比較蛋白組學的方法研究兩者間的區別，從而找出BRE基因的功能以及可能涉及BRE的信號通路。 / 通過微陣列技術，我們深入地分析了BRE基因表達沉默後HUCPV細胞的轉錄組。在經過BRE基因沉默處理的HUCPV細胞中，我們發現與維持幹細胞多向分化潛能有關的OCT4、 FGF5和FOXO1A等基因的表達顯著下調。另外，BRE基因的沉默能夠影響表觀遺傳調控基因以及TGF-β 信號通路組成部件的表達，而TGF -β 信號通路是維持幹細胞自我更新的重要通路。這些結果提示，BRE作為一個重要的調控因子，在維持HUCPV細胞的多向分化潛能的同時能夠防止細胞分化。 / 在比較蛋白組學的研究中，我們發現BRE基因的沉默能夠降低細胞骨架結合蛋白的表達，例如actin, annexin II 及 tropomyosin。此外，我們利用免疫共沉澱的方法證明了BRE蛋白與actin及 annexin II蛋白直接結合。細胞骨架的改變可能為HUCPV細胞的分化提供了一個有利的環境，因而BRE基因的沉默能夠促進HUCPV細胞向骨和軟骨分化。支持這一推論的其中一個依據是Lim et al., 2000; Solursh, 1989; Zhang et al., 2006，文獻報導肌動蛋白多聚化抑製劑能夠促進軟骨形成的過程。綜上所述，本研究為進一步研究BRE基因在HUCPV細胞中的功能以及與BRE直接作用的蛋白打下了基礎。 / Stem cells therapy has gained considerable attention in recent years. However, the practical use of stem cells for tissue repair has been hindered due to their low survival rate after grafting into tissues, for approximately 80% of the stem cells died after implantation. Human umbilical cord perivascular (HUCPV) stem cells offer a new and rich resource of multipotent mesenchymal stem cells. These cells possess the ability to differentiate into various mesenchymal cell lineages when induced. HUCPV cells can be more easily amplified in culture than mesenchymal stem cells extracted from bone marrow or umbilical cord blood. In this study, HUCPV cells were isolated from the perivascular regions of human umbilical cords. The HUCPV cells were sorted using flow cytometer for CD34⁻, CD44⁺, CD45⁻, CD90⁺, CD105⁺ and CD146⁺ surface markers. These HUCPV cells were found to be capable of differentiating into osteogenic lineage in monolayer culture and chondrogenic lineage in pellet culture. These cells were also found to be capable of differentiating into osteogenic and chondrogenic lineage in silk fibroin which acted as three-dimensional scaffolds for the cells to grow on. / The function of the Brain and Reproductive Organ-Expressed (BRE) gene in the context of HUCPV cells was investigated. The BRE protein shares no homology with any other known gene products and contains no known functional domain. To date, most of what we know about the function of this gene has been conducted in the tumor model. It has been reported that BRE can enhance the cellular survival of cancer cells following DNA damage. The role of BRE in stem cells has never been examined. We have established that BRE expression was down-regulated when HUCPV cells started to differentiate. In addition, silencing BRE expression, using BRE-siRNA, in HUCPV cells could accelerate osteogenic and chondrogenic differentiation. Hence, we hypothesized that BRE played an important role in maintaining the stemness of HUCPV cells. Because there was a lack of phenotypic difference between the BRE-silenced HUCPV cells and cells transfected with the control-siRNA, we decided to profile these cells using microarray and proteomic analyses. The aim was to elucidate the function of the BRE gene and establish whether BRE was involved in any signaling pathways. / In the microarray analysis, we examined the transcriptome of HUCPV cells in response to BRE-silencing in depth. Amongst the genes that we identified were significantly down-regulated by BRE-silencing and involved in the maintenance of pluripotency in ES cells were OCT4, FGF5 and FOXO1A. BRE-silencing also altered the expression of epigenetic genes and also components of the TGF-β signaling pathway. This pathway is crucially involved in maintaining stem cell self-renewal. Therefore, we propose that BRE acts like a modulator that promotes stemness and at the same time inhibits the differentiation of HUCPV cells. / In the comparative proteomic study, BRE-silencing resulted in decreased expression patterns of cytoskeletal binding proteins such as actin, annexin II and tropomyosin. In addition, co-immunoprecipitation experiments revealed that the BRE protein can bind directly with actin and annexin II. It is possible that altering the cytoskeleton may provide a favorable environment for HUCPV cells to differentiate. This may explain why we were able to accelerate osteogenic and chondrogenic differentiation following BRE-silencing. In support of the view, it has been reported that chondrogenesis could be enhanced after cells have been treated with actin polymerization inhibitors (Lim et al., 2000; Solursh, 1989; Zhang et al., 2006). In sum, our studies provide an insight into the function of the BRE gene in HUCPV cells and the proteins that BRE can directly act on. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Chen, Elve. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2012. / Includes bibliographical references (leaves 135-159). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. / Thesis/Assessment Committee --- p.i / Abstract --- p.ii / 摘要 --- p.v / Acknowledgements --- p.viii / List of Figures --- p.ix / List of Tables --- p.xiii / Table of Abbreviations --- p.xiv / Contents --- p.xviii / Chapter 1 --- p.1 / Literature Review --- p.1 / Chapter 1.1 --- Stem cells --- p.1 / Chapter 1.2 --- Embryonic stem cells (ESCs) --- p.2 / Chapter 1.3 --- Epiblast-derived stem (EpiS) cells --- p.2 / Chapter 1.4 --- Somatic stem cells (SSCs) --- p.3 / Chapter 1.5 --- Induced pluripotent stem (iPS) cells --- p.5 / Chapter 1.6 --- Human umbilical cord perivascular (HUCPV) cells --- p.7 / Chapter 1.7 --- CD146 --- p.8 / Chapter 1.8 --- Stem cell senescence --- p.9 / Chapter 1.9 --- Brain and reproductive organ-expressed (BRE) protein --- p.12 / Chapter 1.10 --- Stem cell self-renewal --- p.14 / Chapter 1.11 --- Apoptosis --- p.16 / Chapter 1.12 --- Stem cell niche --- p.21 / Chapter 1.13 --- Stem cell homing --- p.22 / Chapter 1.14 --- Objective --- p.22 / Chapter 2 --- p.24 / Accelerated osteogenic and chondrogenic differentiation of HUCPV cells by modulating the expression of BRE --- p.24 / Chapter 2.1 --- Introduction --- p.24 / Chapter 2.2 --- Rationale --- p.27 / Chapter 2.3 --- Materials and Methods --- p.27 / Chapter 2.3.1 --- Extraction of HUCPV cells from umbilical cord --- p.27 / Chapter 2.3.2 --- Cell culture condition --- p.28 / Chapter 2.3.3 --- Flow cytometry analysis and cell sorting --- p.28 / Chapter 2.3.4 --- In vitro osteogenic differentiation --- p.29 / Chapter 2.3.5 --- In vitro chondrogenic differentiation --- p.29 / Chapter 2.3.6 --- Alcian blue staining --- p.29 / Chapter 2.3.7 --- Alizarin red S staining --- p.30 / Chapter 2.3.8 --- Immunofluorescence analysis --- p.30 / Chapter 2.3.9 --- Quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR) --- p.31 / Chapter 2.3.10 --- Transfection with siRNA --- p.35 / Chapter 2.3.11 --- Microarray --- p.35 / Chapter 2.3.12 --- Cell lysis and immunoprecipitation --- p.36 / Chapter 2.3.13 --- SDS-PAGE and Western blot --- p.36 / Chapter 2.3.14 --- Isoelectric focusing and 2-dimensional gel electrophoresis --- p.37 / Chapter 2.3.15 --- Migration (wound healing) assay --- p.38 / Chapter 2.4 --- Results --- p.38 / Chapter 2.4.1 --- HUCPV cells were capable to differentiate into osteoblasts and chondrocytes --- p.38 / Chapter 2.4.2 --- BRE expression is down-regulated when HUCPV cells begins to differentiate --- p.40 / Chapter 2.4.3 --- Silencing of BRE expression accelerates induction of osteogenesis and chondrogenesis --- p.40 / Chapter 2.4.4 --- Microarray analysis of BRE-silenced HUCPV cells --- p.42 / Chapter 2.4.4.1 --- Stemness factors --- p.43 / Chapter 2.4.4.2 --- Epigenetic regulation --- p.43 / Chapter 2.4.4.3 --- Signaling pathways crucial for stemness maintenance --- p.44 / Chapter 2.4.4.4 --- TGF-β signaling --- p.44 / Chapter 2.4.4.5 --- FGF signaling --- p.44 / Chapter 2.4.4.6 --- NOTCH signaling --- p.45 / Chapter 2.4.4.7 --- WNT signaling --- p.46 / Chapter 2.4.4.8 --- Homeobox transcription factors (HOX) --- p.46 / Chapter 2.4.4.9 --- Cell cycle regulation --- p.47 / Chapter 2.4.4.10 --- Chemokines and cytokines regulation --- p.48 / Chapter 2.4.4.11 --- Apoptosis --- p.49 / Chapter 2.4.5 --- BRE-silencing alters the cellular proteome of HUCPV cells --- p.50 / Chapter 2.4.5.1 --- BRE-silencing alters the cytoskeletal binding proteins of HUCPV cells --- p.51 / Chapter 2.4.5.2 --- BRE-silencing alters the expressions of stemness-related proteins in HUCPV cells --- p.52 / Chapter 2.4.5.3 --- BRE-silencing alters the expressions of apoptosis-related proteins in HUCPV cells --- p.53 / Chapter 2.5 --- Discussion --- p.86 / Chapter 2.5.1 --- Microarray study discussion --- p.87 / Chapter 2.5.2 --- Proteomic study discussion --- p.89 / Chapter 3 --- p.93 / Replicative senescence alters the transcriptome and proteome of HUCPV cells --- p.93 / Chapter 3.1 --- Introduction --- p.93 / Chapter 3.2 --- Materials and methods --- p.93 / Chapter 3.3 --- Results --- p.93 / Chapter 3.3.1 --- Microarray analysis of aged HUCPV cells --- p.94 / Chapter 3.3.1.1 --- Stemness factors --- p.95 / Chapter 3.3.1.2 --- Epigenetic regulation --- p.96 / Chapter 3.3.1.3 --- Senescence associated markers --- p.96 / Chapter 3.3.1.4 --- Chemokines and cytokines regulation --- p.97 / Chapter 3.3.1.5 --- Matrix metalloproteinases regulation --- p.97 / Chapter 3.3.1.6 --- WNT signaling --- p.98 / Chapter 3.3.1.7 --- Toll-like receptor signaling pathway --- p.98 / Chapter 3.3.2 --- Proteomic profiling of aged HUCPV cells --- p.98 / Chapter 3.4 --- Discussion --- p.117 / Chapter 3.4.1 --- Aging alters the transcriptome of HUCPV cells --- p.117 / Chapter 3.4.2 --- Aging alters the proteome of HUCPV cells --- p.118 / Chapter 4 --- p.121 / Osteogenic and chondrogenic differentiation capacities of HUCPV cells in silk fibroin scaffold --- p.121 / Chapter 4.1 --- Introduction --- p.121 / Chapter 4.2 --- Materials and methods --- p.121 / Chapter 4.2.1 --- Extraction of silk fibroin --- p.121 / Chapter 4.2.2 --- Fabrication of porous silk fibroin scaffold --- p.122 / Chapter 4.2.3 --- Scanning electron microscopy --- p.123 / Chapter 4.2.4 --- Cell culture --- p.123 / Chapter 4.3 --- Results --- p.124 / Chapter 4.4 --- Discussion --- p.132 / Chapter 5 --- p.133 / Conclusions --- p.133 / References --- p.135 Read more Fetal blood--Transplantation Gene therapy Cellular therapy Fetal Blood Cord Blood Stem Cell Transplantation Hematopoietic Stem Cell Transplantation Genetic Therapy
14	O efeito da modulação quimiogenética de neurônios motores do hipoglosso sobre a atividade do músculo genioglosso / The effect of chemogenetic modulation of hypoglossal motor neurons on genioglossal muscle activity Thomaz Antonio Fleury Curado 20 March 2017 (has links) Introdução: A apneia do sono é condição prevalente e apresenta forte correlação com as principais causas de morbidade e mortalidade na sociedade ocidental. A perda do controle neuromotor proveniente de estágios mais profundos do sono está associada ao colapso faríngeo e a patogênese da apneia obstrutiva do sono (SAOS). A língua é implicada como principal protagonista na patogênese da obstrução das vias aéreas superiores (VAS) durante o sono. Não há farmacoterapia para SAOS. Novas tecnologias moleculares para controle neuronal através da inserção de um receptor de membrana geneticamente modificado, denominado Designer Receptor Exclusively Activated by Designer Drugs [DREADDs], o qual pode ser ativado por uma droga inicialmente inerte, de alta especificdade, clozapina-n-oxide (CNO). Objetivos: 1) Modificar geneticamente os neurônios motores do núcleo do hipoglosso utilizando-se de DREADDs, o qual permite regular sua atividade; 2) Analisar a atividade do músculo genioglosso sob administração de CNO; 3) Desenvolver abordagens para rastreamento dos músculos protrusores e retratores da língua por marcadores retrógrados, injecção de subunidade B de toxina colérica (CTB-AF) e do vírus de pseudoraiva (PRV) 267 transportando um gene repórter, nos músculos efetores. Métodos: Receptores muscarínicos mutados em um vetor adenoviral associado (AAV) foram infundidos no núcleo do hipoglosso de camundongos via injeção esterotáxica bilateral. Após quatro semanas, período para expressão fenotípica, foram comparadas a atividade eletromiográfica do músculo genioglosso (EMGGG) em resposta a administração de ligante (CNO) versus solução salina. Em um segundo grupo foram realizadas infusões com vírus controle e comparação da EMGGG pré e pós infusão de CNO. Para rastreamento neural a CTB-AF foi injetado nos músculos protusores e retratores da língua e para expressão de Cre o vírus PRV-267 foi injetado no músculo genioglosso. A expressão dessas substâncias no núcleo do hipoglosso foi avaliada através de microscopia de fluorescência. Resultados: Dos dezoito camundongos injetados com DREADDs, dezesseis foram transfectados pelo vetor de AAV. Em camundongos onde o núcleo motor do hipoglosso foi corretamente atingido a EMGGG apresentou importante aumento após a administração de CNO. Em contraste, a atividade do genioglosso não apresentou alteração após a administração de soro fisiológico. Em três camundongos onde a transfecção ultrapassou os limites do núcleo foi observado arritmia respiratória após infusão do ligante. Todos animais infundidos com vírus controle foram adequadamente transfectados mas não apresentaram alteração eletromiográfica após a infusão de CNO. Foram diferenciados no núcleo do hipoglosso os neurônios motores da musculatura retratora e protusora da língua. A expressão intranuclear da enzima Cre-recombinase foi identificada no núcleo hipoglosso. Conclusão: A utilização de métodos quimiogenéticos para ativar grupos selecionados de neurônios motores em áreas cerebrais específicas representa técnica promissora para o estudo do controle neuromotor das VAS. Estes resultados sugerem que a terapia transgênica pode ser eficaz no tratamento da SAOS além de uma vasta gama de patologias que resultam de perturbações no controle neural das VAS. Através da manipulação das fibras musculares efetoras na língua foi possível a identificação do seu respectivo neurônio motor no núcleo do hipoglosso e induzi-lo a sintetizar uma enzima específica (Cre-recombinase) / Introduction: Sleep Apnea is a prevalent condition and strongly correlates with the major causes of morbidity and mortality in Western Society. The loss of motor input from deeper sleep stages is associated with pharyngeal collapsibility and the pathogenesis of obstructive sleep apnea (OSA). The tongue plays a major role in the pathogenesis of upper airway (UA) obstruction during sleep. There is no pharmacotherapy for OSA. New molecular techniques allow to control neuronal function by inserting a genetically modified membrane receptor termed the Designer Receptor Exclusively Activated by Designer Drugs [DREADDs] which can be activated by a highly specific and otherwise pharmacologically inert drug clozapine-N-oxide (CNO) Objectives: 1) To genetically modify the hypoglossal nucleus motor neurons using DREADDs, which allows to regulate their activity; 2) To analyze the genioglossal activity upon administration of CNO; 3) to develop novel approaches to targeting tongue protruders and retractors by retrograde tracers, cholera toxin subunit B (CTB-AF) and pseudorabies virus (PRV) 267 injection carrying a reporter gene into the effector muscles. Methods: Mutated muscarinic receptors in an adenoviral associated vector (AAV) were delivered to the hypoglossal nucleus via stereotactically bilateral injection. Four weeks after adenoviral delivery (expression period), responses in genioglossal electromyography (EMGGG) activity to intraperitoneal administration of CNO ligand vs. Saline (control) were compared in mice. In a second group, control-virus was infused and genioglossus muscle EMGGG was compared before and after CNO infusion. For neuronal tracing CTB-AF was injected into the protrusor and retractor muscles of the tongue and for Cre induction PRV-267 virus was injected in the genioglossus muscle. Expression of these substances in the hypoglossal nucleus were evaluated by fluorescence histology. Results: Of eighteen DREADDs injected mice, sixteen were transfected with AAV vector. After CNO administration EMGGG activity increased in mice where the hypoglossal motor nucleus was correctly targeted. In contrast, genioglossal activity was not augmented following saline administration. In three mice where transfection surpassed the nucleus limits, breathing arrhythmia was observed following ligand infusion. All animals infused with control virus were adequately transfected but did not present electromyographic change following CNO infusion. The motor neurons of the rectractor and protrusor musculature of the tongue were well differentiated in the hypoglossal nucleus. Intranuclear expression of Cre recombinase enzyme was identified in the hypoglossal nucleus. Conclusion: Utilizing chemogenetic methods to activate motor neuron groups in selected brain areas show promise to UA neuromotor control, and suggest that transgenic therapy may be effective in treating OSA and a wide range of pathologies that result in disturbances of UA neural control. By manipulating the effector muscle fibers of the tongue, it was possible to identify its respective motor neuron in the hypoglossal nucleus and to induce synthesis of a specific enzyme (Cre recombinase) Read more Apneia do sono tipo obstrutiva Eletromiografia Língua Neurônios motores Receptores acoplados a proteínas-G Terapia genética Electromyography Genetic therapy Motor neurons Receptors G-protein-coupled Sleep apnea obstructive Tongue
15	Desenvolvimento e investigação da transferência gênica de p14ARF e interferon-beta em linhagens celulares de melanoma humano / Development and investigation of p14ARF and interferon-beta gene transfer in human melanoma cell lines Samir Andrade Mendonça 22 November 2018 (has links) O melanoma é um dos tipos de câncer de pele cuja frequência tem crescido nos últimos anos e apresentado elevada taxa de mortalidade, apesar de ter reduzida prevalência. Mesmo havendo um considerável avanço nas propostas terapêuticas nos últimos anos, ainda se vê necessário o desenvolvimento de novas abordagens, sendo a terapia gênica uma promissora possibilidade para tal. Utilizando vetores adenovirais com promotor responsivo à p53 (PGTx beta) para a transferência gênica de p19Arf (proteína supressora de tumor) e interferon-beta (citocina imunomodulatória) em células de melanoma murino com o gene Trp53 selvagem, o nosso grupo demonstrou previamente que a combinação dos dois genes, mas não o tratamento individual, promove efeito citotóxico sinérgico com a liberação de marcadores de morte imunogênica, in vitro; e significativa redução da progressão tumoral acompanhada de uma forte resposta imunológica de linfócitos T CD4+ e CD8+, células NK e neutrófilos contra desafios tumorais, in vivo. Porém, como a translação para modelos de melanomas humanos ainda estava em estágio inicial, ainda não haviam sido confirmamos se esses benefícios também seriam recapitulados. Observações inicias sugeriam que apenas a transferência gênica de interferon-beta seja suficiente para induzir morte celular em linhagens humanas portadoras de TP53 selvagem, sem ainda terem sido identificado o efeito da transferência de p14ARF e nem a necessidade de p53 endógeno para a resposta. Dessa forma, o presente projeto buscou avaliar os efeitos antitumorais provocados pela terapia gênica combinada de p14ARF e interferon-beta em modelos de melanoma humano utilizando linhagens com e sem a via da p53 integra. Para isso, foram utilizadas diferentes linhagens celulares com TP53 selvagem ou com distintas mutações e também foram construídos vetores adenovirais com o promotor constitutivo CMV, tornando assim possível a expressão dos transgenes de maneira independente do status do TP53 endógeno. O presente trabalho revelou que a transferência combinada do interferon-beta e p14ARF revelou vantagem quanto ao estímulo citotóxico e regulação negativa na dinâmica da população em ambas as linhagens UACC-62 e SK-Mel-29, independentemente do estado da via da p53. Na avaliação dos mecanismos de morte foi observado que ambas a linhagens apresentaram marcação positiva para marcadores da via da apoptose, porém com possível participação de outras modalidades de morte-celular, como a necrose, para a linhagem com o TP53 mutado (SK-Mel-29). Além disso, mostramos que os tratamentos potencialmente induzem vias de morte com caráter imunogênico pela secreção de ATP e exposição da calreticulina, sendo este último marcador mais significantemente observado mediante o tratamento combinado. Assim, recapitulamos o benefício observado em modelo murino para a transferência gênica do interferon-beta e p14ARF em modelo de melanoma humano, e investigamos marcadores importantes à translação da proposta terapêutica para o melanoma / Melanoma is one of the types of skin cancer whose frequency has grown in the last years and presents a high mortality rate, despite its low prevalence. Although there has been considerable progress in therapeutic proposals in recent years, it is still necessary to develop new approaches, being gene therapy a promising possibility for this. With the use of adenoviral vectors with a p53 responsive promoter (PGTx beta) for the gene transfer of p19Arf (tumor suppressor protein) and interferon-beta (immunomodulatory cytokine) in murine melanoma cells bearing wild-type Trp53 gene, our group previously demonstrated that the combination of the two genes, but not individual treatment, promotes a synergistic cytotoxic effect with the release of immunogenic death markers in vitro; and significant reduction of tumor progression with a strong immune response mediated by CD4+ and CD8+ T lymphocytes, NK cells and neutrophils in tumor challenges in vivo. However, as the translation for human melanoma models was still at an early stage, it still was not possible to confirm whether these benefits would also be recapitulated in a human model. Initial observations suggested that interferon-beta gene transfer is sufficient to induce cell death in wild-type TP53-bearing human melanoma cell lines, with the effect of p14ARF gene transfer and the role for endogenous p53 in this response yet to be investigated. Thus, the present work aimed to evaluate the antitumor effects induced upon the combined gene transfer of p14ARF and interferon-beta in human melanoma cell lines with and without a functional p53 pathway. For this, different cell lines bearing wild-type TP53 or with different mutations were used and adenoviral vectors with the constitutive CMV promoter were also constructed, making possible the expression of the transgenes independently of the endogenous TP53 status. The present work showed that the combined transfer of interferon-beta and p14ARF was advantageous in cytotoxic stimulation and negative regulation in population dynamics for both cell lines UACC-62 and SK-Mel-29, regardless of p53 pathway status. In the evaluation of the triggered cell death mechanisms it was observed that both cell lines presented positive markers of the apoptosis pathway, but with possible participation of other cell death mechanism, such as necrosis, for the mutated TP53 cell line SK-Mel-29. In addition, we showed that the treatments potentially induced cell death pathways with immunogenic features including the secretion of ATP and calreticulin exposure, being the latter marker more significantly presented after the combined treatment. Thus, we recapitulated the benefit observed in murine model for the gene transfer of interferon-beta and p14ARF in the model of human melanoma, and investigated important markers for the translation of the melanoma therapeutic proposal Read more Imunoterapia Interferon beta Melanoma Morte celular Proteína supressora de tumor p14ARF Terapia genética Cell death Genetic therapy Immunotherapy Interferon-beta Melanoma Tumor supressor protein p14ARF
16	O efeito da modulação quimiogenética de neurônios motores do hipoglosso sobre a atividade do músculo genioglosso / The effect of chemogenetic modulation of hypoglossal motor neurons on genioglossal muscle activity Curado, Thomaz Antonio Fleury 20 March 2017 (has links) Introdução: A apneia do sono é condição prevalente e apresenta forte correlação com as principais causas de morbidade e mortalidade na sociedade ocidental. A perda do controle neuromotor proveniente de estágios mais profundos do sono está associada ao colapso faríngeo e a patogênese da apneia obstrutiva do sono (SAOS). A língua é implicada como principal protagonista na patogênese da obstrução das vias aéreas superiores (VAS) durante o sono. Não há farmacoterapia para SAOS. Novas tecnologias moleculares para controle neuronal através da inserção de um receptor de membrana geneticamente modificado, denominado Designer Receptor Exclusively Activated by Designer Drugs [DREADDs], o qual pode ser ativado por uma droga inicialmente inerte, de alta especificdade, clozapina-n-oxide (CNO). Objetivos: 1) Modificar geneticamente os neurônios motores do núcleo do hipoglosso utilizando-se de DREADDs, o qual permite regular sua atividade; 2) Analisar a atividade do músculo genioglosso sob administração de CNO; 3) Desenvolver abordagens para rastreamento dos músculos protrusores e retratores da língua por marcadores retrógrados, injecção de subunidade B de toxina colérica (CTB-AF) e do vírus de pseudoraiva (PRV) 267 transportando um gene repórter, nos músculos efetores. Métodos: Receptores muscarínicos mutados em um vetor adenoviral associado (AAV) foram infundidos no núcleo do hipoglosso de camundongos via injeção esterotáxica bilateral. Após quatro semanas, período para expressão fenotípica, foram comparadas a atividade eletromiográfica do músculo genioglosso (EMGGG) em resposta a administração de ligante (CNO) versus solução salina. Em um segundo grupo foram realizadas infusões com vírus controle e comparação da EMGGG pré e pós infusão de CNO. Para rastreamento neural a CTB-AF foi injetado nos músculos protusores e retratores da língua e para expressão de Cre o vírus PRV-267 foi injetado no músculo genioglosso. A expressão dessas substâncias no núcleo do hipoglosso foi avaliada através de microscopia de fluorescência. Resultados: Dos dezoito camundongos injetados com DREADDs, dezesseis foram transfectados pelo vetor de AAV. Em camundongos onde o núcleo motor do hipoglosso foi corretamente atingido a EMGGG apresentou importante aumento após a administração de CNO. Em contraste, a atividade do genioglosso não apresentou alteração após a administração de soro fisiológico. Em três camundongos onde a transfecção ultrapassou os limites do núcleo foi observado arritmia respiratória após infusão do ligante. Todos animais infundidos com vírus controle foram adequadamente transfectados mas não apresentaram alteração eletromiográfica após a infusão de CNO. Foram diferenciados no núcleo do hipoglosso os neurônios motores da musculatura retratora e protusora da língua. A expressão intranuclear da enzima Cre-recombinase foi identificada no núcleo hipoglosso. Conclusão: A utilização de métodos quimiogenéticos para ativar grupos selecionados de neurônios motores em áreas cerebrais específicas representa técnica promissora para o estudo do controle neuromotor das VAS. Estes resultados sugerem que a terapia transgênica pode ser eficaz no tratamento da SAOS além de uma vasta gama de patologias que resultam de perturbações no controle neural das VAS. Através da manipulação das fibras musculares efetoras na língua foi possível a identificação do seu respectivo neurônio motor no núcleo do hipoglosso e induzi-lo a sintetizar uma enzima específica (Cre-recombinase) / Introduction: Sleep Apnea is a prevalent condition and strongly correlates with the major causes of morbidity and mortality in Western Society. The loss of motor input from deeper sleep stages is associated with pharyngeal collapsibility and the pathogenesis of obstructive sleep apnea (OSA). The tongue plays a major role in the pathogenesis of upper airway (UA) obstruction during sleep. There is no pharmacotherapy for OSA. New molecular techniques allow to control neuronal function by inserting a genetically modified membrane receptor termed the Designer Receptor Exclusively Activated by Designer Drugs [DREADDs] which can be activated by a highly specific and otherwise pharmacologically inert drug clozapine-N-oxide (CNO) Objectives: 1) To genetically modify the hypoglossal nucleus motor neurons using DREADDs, which allows to regulate their activity; 2) To analyze the genioglossal activity upon administration of CNO; 3) to develop novel approaches to targeting tongue protruders and retractors by retrograde tracers, cholera toxin subunit B (CTB-AF) and pseudorabies virus (PRV) 267 injection carrying a reporter gene into the effector muscles. Methods: Mutated muscarinic receptors in an adenoviral associated vector (AAV) were delivered to the hypoglossal nucleus via stereotactically bilateral injection. Four weeks after adenoviral delivery (expression period), responses in genioglossal electromyography (EMGGG) activity to intraperitoneal administration of CNO ligand vs. Saline (control) were compared in mice. In a second group, control-virus was infused and genioglossus muscle EMGGG was compared before and after CNO infusion. For neuronal tracing CTB-AF was injected into the protrusor and retractor muscles of the tongue and for Cre induction PRV-267 virus was injected in the genioglossus muscle. Expression of these substances in the hypoglossal nucleus were evaluated by fluorescence histology. Results: Of eighteen DREADDs injected mice, sixteen were transfected with AAV vector. After CNO administration EMGGG activity increased in mice where the hypoglossal motor nucleus was correctly targeted. In contrast, genioglossal activity was not augmented following saline administration. In three mice where transfection surpassed the nucleus limits, breathing arrhythmia was observed following ligand infusion. All animals infused with control virus were adequately transfected but did not present electromyographic change following CNO infusion. The motor neurons of the rectractor and protrusor musculature of the tongue were well differentiated in the hypoglossal nucleus. Intranuclear expression of Cre recombinase enzyme was identified in the hypoglossal nucleus. Conclusion: Utilizing chemogenetic methods to activate motor neuron groups in selected brain areas show promise to UA neuromotor control, and suggest that transgenic therapy may be effective in treating OSA and a wide range of pathologies that result in disturbances of UA neural control. By manipulating the effector muscle fibers of the tongue, it was possible to identify its respective motor neuron in the hypoglossal nucleus and to induce synthesis of a specific enzyme (Cre recombinase) Read more Apneia do sono tipo obstrutiva Electromyography Eletromiografia Genetic therapy Língua Motor neurons Neurônios motores Receptores acoplados a proteínas-G Receptors G-protein-coupled Sleep apnea obstructive Terapia genética Tongue
17	Fator de crescimento do endotélio vascular na viabilidade do retalho musculofasciocutâneo transverso do reto do abdome, em ratos submetidos à nicotina / Vascular endothelial growth factor in the viability of transverse rectus abdominis musculofasciocutaneous, in rats submitted to nicotine Silveira, Tiago Santos [UNIFESP] 30 July 2009 (has links) (PDF) Made available in DSpace on 2015-07-22T20:50:13Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-07-30 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Introdução: Diversos fatores podem diminuir a viabilidade do retalho TRAM, dentre eles a nicotina que tem sido responsabilizada pela perda parcial ou total destes retalhos. Objetivo: Avaliar a ação do Fator de Crescimento do Endotélio Vascular na viabilidade do Retalho Musculofasciocutâneo Transverso do Reto do Abdome, em ratos submetidos à nicotina. Métodos: Foram utilizados 60 Ratos Wistar EPM-1, machos adultos, pesando de 230 a 300g, aleatorizados em 4 grupos de 15 animais cada: Grupo Controle composto por animais que foram submetidos ao retalho TRAM; Grupo Nicotina composto por animais que foram submetidos á nicotina e ao retalho TRAM; Grupo VEGF composto por animais submetidos à administração de VEGF plasmidial antes do retalho TRAM; e Grupo Nicotina+VEGF composto por animais que foram submetidos à nicotina, tratados com administração de VEGF e submetidos ao retalho TRAM. Para análise dos resultados foi realizado método de análise da área de necrose e de densidade vascular. Resultados: Houve diferença estatisticamente significativa na comparação entre todos os grupos, com relação às variáveis área de necrose e densidade vascular (p<0,05). Os animais do Grupo VEGF apresentaram a menor área de necrose (4.10%) e a maior densidade vascular (39%) em relação aos outros grupos do estudo. Conclusão: O Fator de Crescimento do Endotélio Vascular aumentou a viabilidade do retalho musculofasciocutâneo transverso do reto do abdome, em ratos submetidos à nicotina. / Introduction: Several factors can reduce the viability of the TRAM flap, among them the nicotine has been made responsible by the loss partial or total of these flaps. Objective: To evaluate the action of the Vascular endothelial Growth Factor in the viability of the Transverse Rectus Abdominis Musculocutaneous, in rats submitted to the nicotine. Methods: Sixty Wistar EPM-1 rats were used, adult males, weighing from 230 to 300g, randomized in 4 groups of 15 animals each: Group Control composed by animals that were submitted to the TRAM flap; Group Nicotine composed by animals that were nicotine exposed and submitted of TRAM flap; Group VEGF composed by animals submitted to the administration of VEGF plasmidial before the TRAM flap; and Group Nicotina+VEGF composed by animals that were exposed to the nicotine, trated with administration of VEGF and submitted to the TRAM flap. For analysis of the results they were done necrosis area and vascular density. Results: There was estatistic significant differentiates in the comparison among all of the groups, regarding the variables necrosis area and vascular density (p <0,05). Conclusion: The Vascular Endothelial Growth Factor increased the viability of the Transverse Rectus Abdominis Musculocutaneous, in rats submitted to the nicotine. / TEDE / BV UNIFESP: Teses e dissertações Read more Eletroporação Necrose Nicotina Ratos Retalhos cirúrgicos Terapia de genes Terapia genética Electroporation Necrosis Nicotine Rats Surgical Flaps Genetic Therapy Vascular Endothelial Growth Factors
18	Developing an Adeno-Associated Viral Vector (AAV) Toolbox for CNS Gene Therapy: A Dissertation Choudhury, Sourav Roy 07 January 2016 (has links) Neurological disorders – disorders of the brain, spine and associated nerves – are a leading contributor to global disease burden with a sizable economic cost. Adeno-associated viral (AAV) vectors have emerged as an effective platform for CNS gene therapy and have shown early promise in clinical trials. These trials involve direct infusion into brain parenchyma, an approach that may be suboptimal for treatment of neurodegenerative disorders, which often involve more than a single structure in the CNS. However, overall neuronal transduction efficiency of vectors derived from naturally occurring AAV capsids after systemic administration is relatively low. We have developed novel capsids AAV-AS and AAV-B1 that lead to widespread gene delivery throughout the brain and spinal cord, particularly to neuronal populations. Both transduce the adult mouse brain >10-fold more efficiently than the clinical gold standard AAV9 upon intravascular infusion, with gene transfer to multiple neuronal sub-populations. These vectors are also capable of neuronal transduction in a normal cat. We have demonstrated the efficacy of AAV-AS in the context of Huntington's disease by knocking down huntingtin mRNA 33-50% after a single intravenous injection, which is better than what can be achieved by AAV9 at the particular dose. AAVB1 additionally transduces muscle, beta cells, pulmonary alveoli and retinal vasculature at high efficiency, and has reduced sensitivity to neutralizing antibodies in human sera. Generation of this vector toolbox represents a major step towards gaining genetic access to the entire CNS, and provides a platform to develop new gene therapies for neurodegenerative disorders. Read more Genetic Therapy Genetic Vectors Huntington Disease Central Nervous System Diseases Dependovirus Dissertations, UMMS Genetics Molecular Genetics Nervous System Diseases Neurology Therapeutics
19	Células-tronco mensequimais como carreadoras de adenovírus no microambiente tumoral / Mesenchymal stem cell as carrier of adenovirus in the tumor microenvironment Costa, Ruana Calado da 02 May 2017 (has links) As muitas formas diferentes de câncer representam uma grande dimensão no âmbito da saúde pública mundial. Embora os esforços da medicina diagnóstica, vários tumores permanecem sem resposta à terapia tradicional. Uma alternativa é o uso de terapia gênica, a qual consiste a transferência de um gene terapêutico para a célula tumoral com a expectativa de inibição da progressão tumoral. Nosso laboratório desenvolveu uma série de vetores adenovirais onde a expressão do transgene é controlada pela p53 e usamos esses vetores para mostrar que a presença de p19Arf (um parceiro funcional de p53) sensibiliza células de melanoma murino, B16-F10 (p53-tipo selvagem), associado à ação do interferão-beta (IFNbeta, uma citocina pleiotrópica) quando testado in vitro. Mesmo que os vetores adenovirais representem o sistema de transferência gênica mais utilizado para a terapia de genes de câncer, seu uso por via sistêmica é limitado principalmente por inativação pelo sistema imune. Diferentes técnicas visam proteger as partículas de vírus do sistema imunológico e direcioná-las para o leito tumoral. Uma dessas técnicas envolve a utilização de células estaminais mesenquimais (MSCs). As propriedades dos MSC incluem a auto renovação, o potencial de diferenciação, bem como a sua capacidade de migrar e infiltrar tumores. Para este fim, nosso objetivo era utilizar MSCs murinos como portadores de adenovírus que expressam IFNbeta e para verificar se a presença de p19Arf nas células tumorais aumentaria a sua sensibilidade para IFNbeta. Para itso, os CTMs foram isolados da medula óssea ou do tecido adiposo de ratinhos C57BL/ 6 machos. Foi verificada a presença de marcadores de CTM (Sca1, CD29) e a ausência de marcadores para linhagens hematopoiéticas (CD31, CD11b, CD45). Sendo as CTM do tecido adiposo foram mais fáceis de cultivar, estes foram utilizados nos seguintes ensaios. In vitro, a aplicação do vector adenoviral que codifica um gene repórter (eGFP) resultou em mais de 70% de eficiênciamde transdução de CTM, sem indução de alterações morfológicas até 72 horas após o tratamento. A aplicação de vector portador de IFNbeta também foi bem tolerada, no entanto transdução com p19Arf sozinho ou em combinação com IFNbeta induziu alterações morfológicas nas CTMs. Em seguida, as células B16-F10 foram transduzidas ou não com o vetor codificando p19Arf e co-cultivadas com MSCs que foram transduzidas ou não com IFNbeta, demonstrando que a presença de p19Arf confere sensibilidade aumentada de células B16-F10 ao tratamento com IFNbeta . Em ensaios preliminares, os tumores B16-F10 foram estabelecidos subcutaneamente em camundongos C57BL / 6 e, posteriormente, as MSC marcadas com eGFP foram aplicadas na circulação após a injeção da veia da cauda. Após 48 horas, estes tumores foram recuperados e a presença de células positivas para eGFP foi confirmada, indicando que os MSCs se infiltraram no microambiente do tumor / The many different forms of cancer represent a tremendous investment for public health all over the world. Although the efforts of both diagnostic and therapeutic medicine have reduced the number of deaths due to cancer, many tumor types remain impervious to traditional therapy. An alternative is the use of gene therapy which entails the transfer of a therapeutic gene to the tumor cells with the expectation of inhibiting tumor progression. Our laboratory has developed a series of adenoviral vectors where transgene expression is controlled by p53 and we have used these vectors to show that the presence of p19Arf (a functional partner of p53) sensitizes murine melanoma cells, B16-F10 (p53-wild type), to the action of interferon-beta (IFNbeta, a pleiotropic cytokine) when tested in vitro. Even though adenoviral vectors are the most utilized gene transfer system for cancer gene therapy, their systemic application is limited principally by immune inactivation. Different techniques aim to protect the virus particles from the immune system and to direct them to the tumor bed. One of these techniques involves the utilization of mesenchymal stem cells (MSCs). The properties of MSCs include self-renewal, the potential for differentiation as well as their ability to migrate to and infiltrate tumors. To this end, our objective was to utilize murine MSCs as carriers of adenovirus that express IFNbeta and to verify if the presence of p19Arf in the tumor cells would enhance their sensitivity to IFNbeta. For this, MSCs were isolated from bone marrow or adipose tissue from male C57BL/6 mice. The presence of MSC markers (Sca1, CD29) was verified as was the absence of markers for hematopoietic lineages (CD31, CD11b, CD45). Since the MSCs from adipose tissue were easier to cultivate, these were utilized in the following assays. In vitro, application of the adenoviral vector encoding a reporter gene (eGFP) at a multiplicity of infection of 1000 resulted in the transduction of more than 70% of the MSCs and without the induction of morphological alterations even by 72 hours post treatment. The application of a vector encoding IFN? was also well tolerated, however transduction with p19Arf alone or in combination with IFNbeta induced morphologic alterations in the MSCs. Next, B16-F10 cells were transduced or not with the vector encoding p19Arf and co-cultivated with MSCs that had been transduced or not with IFNbeta, demonstrating that the presence of p19Arf confers enhanced sensitivity of B16-F10 cells to the treatment with IFN?. In preliminary assays, B16-F10 tumors were established subcutaneously in C57BL/6 mice and later MSCs labeled with eGFP were applied in the circulation upon tail vein injection. After 48 hours, these tumors were recovered and the presence of eGFP-positive cells was confirmed, indicating that the MSCs infiltrated the tumor microenvironment Read more Adenovirus Adenovírus Células-tronco Combined modality therapy Genetic therapy Interferon tipo I Interferon type I Melanoma Melanoma Proteína supressora de tumor p53 Stem cells Terapia combinada Terapia gênica Tumor suppressor protein p53.
20	Células-tronco mensequimais como carreadoras de adenovírus no microambiente tumoral / Mesenchymal stem cell as carrier of adenovirus in the tumor microenvironment Ruana Calado da Costa 02 May 2017 (has links) As muitas formas diferentes de câncer representam uma grande dimensão no âmbito da saúde pública mundial. Embora os esforços da medicina diagnóstica, vários tumores permanecem sem resposta à terapia tradicional. Uma alternativa é o uso de terapia gênica, a qual consiste a transferência de um gene terapêutico para a célula tumoral com a expectativa de inibição da progressão tumoral. Nosso laboratório desenvolveu uma série de vetores adenovirais onde a expressão do transgene é controlada pela p53 e usamos esses vetores para mostrar que a presença de p19Arf (um parceiro funcional de p53) sensibiliza células de melanoma murino, B16-F10 (p53-tipo selvagem), associado à ação do interferão-beta (IFNbeta, uma citocina pleiotrópica) quando testado in vitro. Mesmo que os vetores adenovirais representem o sistema de transferência gênica mais utilizado para a terapia de genes de câncer, seu uso por via sistêmica é limitado principalmente por inativação pelo sistema imune. Diferentes técnicas visam proteger as partículas de vírus do sistema imunológico e direcioná-las para o leito tumoral. Uma dessas técnicas envolve a utilização de células estaminais mesenquimais (MSCs). As propriedades dos MSC incluem a auto renovação, o potencial de diferenciação, bem como a sua capacidade de migrar e infiltrar tumores. Para este fim, nosso objetivo era utilizar MSCs murinos como portadores de adenovírus que expressam IFNbeta e para verificar se a presença de p19Arf nas células tumorais aumentaria a sua sensibilidade para IFNbeta. Para itso, os CTMs foram isolados da medula óssea ou do tecido adiposo de ratinhos C57BL/ 6 machos. Foi verificada a presença de marcadores de CTM (Sca1, CD29) e a ausência de marcadores para linhagens hematopoiéticas (CD31, CD11b, CD45). Sendo as CTM do tecido adiposo foram mais fáceis de cultivar, estes foram utilizados nos seguintes ensaios. In vitro, a aplicação do vector adenoviral que codifica um gene repórter (eGFP) resultou em mais de 70% de eficiênciamde transdução de CTM, sem indução de alterações morfológicas até 72 horas após o tratamento. A aplicação de vector portador de IFNbeta também foi bem tolerada, no entanto transdução com p19Arf sozinho ou em combinação com IFNbeta induziu alterações morfológicas nas CTMs. Em seguida, as células B16-F10 foram transduzidas ou não com o vetor codificando p19Arf e co-cultivadas com MSCs que foram transduzidas ou não com IFNbeta, demonstrando que a presença de p19Arf confere sensibilidade aumentada de células B16-F10 ao tratamento com IFNbeta . Em ensaios preliminares, os tumores B16-F10 foram estabelecidos subcutaneamente em camundongos C57BL / 6 e, posteriormente, as MSC marcadas com eGFP foram aplicadas na circulação após a injeção da veia da cauda. Após 48 horas, estes tumores foram recuperados e a presença de células positivas para eGFP foi confirmada, indicando que os MSCs se infiltraram no microambiente do tumor / The many different forms of cancer represent a tremendous investment for public health all over the world. Although the efforts of both diagnostic and therapeutic medicine have reduced the number of deaths due to cancer, many tumor types remain impervious to traditional therapy. An alternative is the use of gene therapy which entails the transfer of a therapeutic gene to the tumor cells with the expectation of inhibiting tumor progression. Our laboratory has developed a series of adenoviral vectors where transgene expression is controlled by p53 and we have used these vectors to show that the presence of p19Arf (a functional partner of p53) sensitizes murine melanoma cells, B16-F10 (p53-wild type), to the action of interferon-beta (IFNbeta, a pleiotropic cytokine) when tested in vitro. Even though adenoviral vectors are the most utilized gene transfer system for cancer gene therapy, their systemic application is limited principally by immune inactivation. Different techniques aim to protect the virus particles from the immune system and to direct them to the tumor bed. One of these techniques involves the utilization of mesenchymal stem cells (MSCs). The properties of MSCs include self-renewal, the potential for differentiation as well as their ability to migrate to and infiltrate tumors. To this end, our objective was to utilize murine MSCs as carriers of adenovirus that express IFNbeta and to verify if the presence of p19Arf in the tumor cells would enhance their sensitivity to IFNbeta. For this, MSCs were isolated from bone marrow or adipose tissue from male C57BL/6 mice. The presence of MSC markers (Sca1, CD29) was verified as was the absence of markers for hematopoietic lineages (CD31, CD11b, CD45). Since the MSCs from adipose tissue were easier to cultivate, these were utilized in the following assays. In vitro, application of the adenoviral vector encoding a reporter gene (eGFP) at a multiplicity of infection of 1000 resulted in the transduction of more than 70% of the MSCs and without the induction of morphological alterations even by 72 hours post treatment. The application of a vector encoding IFN? was also well tolerated, however transduction with p19Arf alone or in combination with IFNbeta induced morphologic alterations in the MSCs. Next, B16-F10 cells were transduced or not with the vector encoding p19Arf and co-cultivated with MSCs that had been transduced or not with IFNbeta, demonstrating that the presence of p19Arf confers enhanced sensitivity of B16-F10 cells to the treatment with IFN?. In preliminary assays, B16-F10 tumors were established subcutaneously in C57BL/6 mice and later MSCs labeled with eGFP were applied in the circulation upon tail vein injection. After 48 hours, these tumors were recovered and the presence of eGFP-positive cells was confirmed, indicating that the MSCs infiltrated the tumor microenvironment Read more Adenovírus Células-tronco Interferon tipo I Melanoma Proteína supressora de tumor p53 Terapia combinada Terapia gênica Adenovirus Combined modality therapy Genetic therapy Interferon type I Melanoma Stem cells Tumor suppressor protein p53.

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