Global ETD Search

41	Embryonic stem cell culture in fibrous bed bioreactor Ouyang, Anli 08 August 2006 (has links) No description available. Engineering, Chemical embryonic stem cell fibrous bed bioreactor 3-D culture PET scaffold
42	Elucidating the Role of Tcf7 Isoforms in Mouse Embryonic Stem Cell Self-Renewal and Differentiation Mahendram, Sujeivan 31 August 2014 (has links) <p>Recent advances in gene targeting technology have significantly shaped modern-day mouse genetics, as they allow for the accurate analysis of gene function <em>in vivo</em>. By capitalizing on conventional methodologies that are based on homologous recombination, the advent of artificially engineered nucleases, like transcription activator-like effector nucleases (TALENs), enables precise genome editing without the need for conventional targeting vectors, which typically possess long “arms” of homology that are difficult to work with, even with recombineering strategies employing bacterial artificial chromosomes. Unlike traditional techniques, these novel nucleases can be engineered in less than a week and together with compact targeting vectors, can be used to easily manipulate almost any locus in the mouse genome.</p> <p>The current selection of commercially available antibodies makes it difficult to assess the specific roles of protein isoforms during early development. The Tcf/Lef family of transcription factors comprise of key downstream effector proteins of the canonical Wnt/β-catenin signal transduction cascade. This pathway is implicated in the regulation of self-renewal and is dysregulated in a number of human diseases including cancers. Among the Tcf/Lef factors, Tcf3 has been heavily studied in mouse embryonic stem cells, due at least in part to the observation that its transcript levels are expressed at the highest levels compared to the others. Recently, it was proposed that a switch takes place between a repressive state mediated by Tcf3 to an activating β-catenin-Tcf1 complex in response to Wnt signals. Here, we use TALEN technology to introduce an epitope tag at the endogenous locus of <em>mTcf7</em>, the gene encoding the Tcf1 protein. By tagging the N-terminus of full-length and N-terminally truncated dominant-negative variants of Tcf1, we establish a tool to better study a previously unappreciated role for Tcf1 in regulating embryonic stem cell self-renewal and differentiation. Furthermore, we also show that the tagged variants generated exhibit similar protein expression levels to those of wild-type controls, and display nuclear localization as expected.</p> / Master of Science (MSc) Wnt signaling Tcf/Lef Embryonic stem cell TALEN technology Gene targeting Biochemistry Biochemistry
43	Mechanisms of microenvironmental conditioning in non-Hodgkin's lymphoma Zhuang, Lihui January 2012 (has links) Tumours are not autonomous transformed cell populations, but rather a society composed of both malignant and normal, including immune, cells that together foster tumour growth and development. Tumour-associated macrophages have been reported to enhance tumour growth, progression and metastasis. In high-grade non-Hodgkin’s lymphomas, prototypically the B-cell neoplasm, Burkitt’s lymphoma (BL), infiltrating macrophages engulf large numbers of apoptotic tumour cells. Evidence suggests that apoptotic BL cells can condition the tumour microenvironment to promote lymphoma development by selectively attracting macrophages while inhibiting neutrophil infiltration and by stimulating macrophages to produce the B-cell growth and survival factor. Tumour cells grow in a hypoxic and nutrient-deficient environment and the resultant cellular stress can induce apoptosis. It is therefore possible that hostile environmental conditions in the tumour also contribute to the generation of a pro-tumour microenvironment. This thesis describes investigations which examined this hypothesis. BL cells were cultured at high density to mimic conditions of metabolic stress existing in the tumour environment. Cell-free supernatants from such stressed BL cells demonstrated potent chemoattractive activity for mononuclear phagocytes. Supernatants from BL cells that were protected from apoptosis by over-expression of bcl-2 had similar ability, confirming that chemoattractant release was apoptosis-independent. The observation that apyrase and suramin could inhibit the chemotactic activity of these supernatants suggested that nucleotides might be the apoptosis-independent chemoattractant. Detection of ATP in stress supernatants by bioluminescence assay was consistent with this proposal. Significantly, supernatants from BL cells and those transfected with bcl-2 were both found to inhibit neutrophil migration, suggesting the occurrence of a neutrophil migration inhibitory factor whose release was apoptosis-independent. Furthermore, stress supernatants could promote BL cell proliferation in vitro, which was apoptosis and cell line-independent. In order to study the role of TAM in the tumour microenvironment, a novel macrophage model was devised using mouse embryonic stem cells (ES cells). Cells derived from ES cells generated in vitro expressed macrophage-specific markers and were free of dendritic cells and undifferentiated ES cells. ES cell-derived macrophages (ESDM) could migrate towards apoptotic BL cells and engulf them. However, ESDM migrated to stress supernatants with decreasing efficiency as they matured. Preliminary data indicated that the phagocytic ability of ESDM to engulf apoptotic cells increased as they matured, consistent with distinct roles for circulating monocytes and tissue macrophages with regard to this function. Considering the high yields and purities of ESDM described here, together with their non-malignant nature and genetic versatility these cells should provide a superior source of undifferentiated mononuclear phagocytes with which to elucidate the molecular mechanisms underlying tumour infiltration and microenvironmental conditioning by TAM. In conclusion, this work suggests that under conditions of pre-apoptotic stress, BL cells have the capacity to regulate their micro-environment upstream of their apoptosis programme to promote net tumour growth through paracrine signals that attract supportive macrophages and inhibit destructive neutrophils and through release of autocrine/juxtacrine tumour growth factors. 616.994
44	Caracterização das Células-Tronco/Progenitoras Hematopoéticas obtidas de Células-Tronco Embrionárias Humanas In Vitro em Sistema de Co-Cultivo com Fibroblastos de Embriões Murinos. / Characterization of Hematopoietic Stem/Progenitor Cells Obtained In Vitro from Human Embryonic Stem Cells in Co-Culture System with Mouse Embryonic Fibroblasts. Costa, Everton de Brito Oliveira 04 June 2012 (has links) A hematopoese tem sido bem descrita em modelos murinos nas últimas décadas, contudo, trabalhos demonstrando os mecanismos da hematopoese em humanos ainda são escassos. A derivação da primeira linhagem de células-tronco embrionárias humanas (CTEhs) em 1998, gerou novas perspectivas tanto para o estudo da hematopoese na tentativa de mimetizar o que ocorre naturalmente durante o desenvolvimento embrionário, quanto para a aplicação clínica das células hematopoéticas obtidas a partir da diferenciação dessas células. Contudo, apesar de inúmeros trabalhos terem demonstradoa obtenção de células hematopoéticas a partir de CTEhs, os protocolos têm gerado quantidades variáveis de células, com baixa eficiência e com propriedades funcionais de células primitivas. Desse modo, este trabalho procurou estabelecer um modelo próprio de diferenciação de CTEhs-H1 em células progenitoras hematopoéticas para que estas pudessem ser melhor caracterizadas e obtidas de forma mais eficiente. Para isto, foi desenvolvido um sistema de diferenciação baseado no co-cultivo da linhagem de CTEh-H1 com fibroblastos de embrião de camundongo (MEFs), em meio de diferenciação suplementado soro fetal bovino (SFB) e citocinas e fatores de crescimento hematopoéticos em baixas concentrações. Como resultado, o desenvolvimento do presente trabalho permitiu o estabelecimento de um método para geração de populações mistas de células enriquecidas em CPHs positivas para o marcador CD45, o qual mostrou ser coexpresso com outros marcadores hematopoéticos (CD31, CD43, CD71 e CD38), e células hematopoéticas maduras positivas para marcadores mielóide-específicos (235a, CD14, CD15, CD16) e com características morfológicas típicas. Foi demonstrado que as células obtidas expressavam genes relativos ao sistema hematopoético (CD45, CD31, runx1, tal1, lmo2, prom1, CD34 e notch1), e possuíam potencial clonogênico in vitro da ordem de 1/574 células plaqueadas. Em adição, corroboramos os achados de que as células hematopoéticas apresentam duas origens distintas: a partir do endotelio hemogênico e a partir de células com propriedades hemangioblásticas independentes do endotélio hemogênico. / Hematopoiesis has been well described in murine models in recent decades, however, studies demonstrating the mechanisms of hematopoiesis in humans are still scarce. The first human embryonic stem cells line (hESCs) derived in 1998, has generated new perspectives about the study of hematopoiesis as in attempting to mimic what naturally occurs during embryonic development, as for clinical application of hematopoietic cells obtained from the differentiation of these cells. However, although numerous studies have shown the production of hematopoietic cells derived from hESCs, the protocols have generated varying quantities of cells with low efficiency and functional properties of primitive stem cells. Thus, this study sought to establish our own model for hESC-H1 differentiation in hematopoietic progenitor cells so that they could be better characterized and obtained more efficiently. For this way, we developed a differentiation system based on co-culture of hESC-H1 line with inactivated mouse embryonic fibroblasts (MEFs) in differentiation medium supplemented with fetal calf serum (FCS) and cytokines and hematopoietic growth factors in low concentrations. As a result, the development of this study allowed the establishment of a method for generation of mixed population of cells enriched in hematopoietic progenitor cells positive for the marker CD45, which proved to be co-expressed with other hematopoietic markers (CD31, CD43, CD71 and CD38), and mature hematopoietic cells positive for myeloid-specific markers (235a, CD14, CD15, CD16) and morphological characteristics typical. It was shown that these cells expressed genes related to the hematopoietic system (CD45, CD31, runx1, TAL1, LMO2, prom1, CD34 and NOTCH1), and had clonogenic potential in vitro of 1/574 plated cells. In addition, we corroborate the findings that hematopoietic cells have two distinct origins: they can arise as from an hemogenic endothelium as from cells with hemangioblastic properties by an hemogenic endothelium-independent way. Célula progenitora hematopoética Célula-tronco embrionária humana Endotélio hemogênico Hemangioblast Hemangioblasto Hematopoietic progenitor cells Hemogenic endothelium Human embryonic stem cell
45	Mechanotransduction at the nuclear envelope : the role of forces in facilitating embryonic stem cell fate decisions Wylde, George William January 2017 (has links) While a large body of work has focused on the transcriptional regulation of cellular identity, the role of the mechanical properties of cells and the importance of their physical interactions with the local environment remains less well understood. In this project, we explored the impact of cytoskeleton-generated forces exerted on the nucleus in the context of early embryonic stem (ES) cell fate decisions. We chose to perturb force generating components in the cytoskeleton – notably the molecular motor non-muscle myosin II - and key structural and chromatin binding proteins in the nuclear envelope, notably, the lamins (LMNA), Lamin B receptor (LBR) and components of the LINC complex (nesprins/KASH). The structural proteins in the nuclear envelope regulate both the mechanical response of the nucleus to force and the stabilization of peripheral heterochromatin (repressed genes). Our hypothesis is that reducing forces transmitted directly to chromatin or increasing tethering of peripheral heterochromatin to the nuclear envelope would restrict access to lineage specific genes sequestered at the nuclear lamina and thereby either impair, or delay, differentiation. We found phenotypes in the capacity of mouse ES cells to specify to the neural lineage following our perturbations: overexpression of LMNA, LBR and KASH proteins resulted in a significant fraction of cells that did not express the neuroectoderm marker Sox1 after four days of differentiation, while inhibiting non-muscle myosin II delayed Sox1 expression in the entire population. Overexpression of LMNA and LBR did not affect the ability of the cells to exit the naive pluripotent state, which raises the possibility that the perturbations are halting the cells in a formative phase prior to lineage specification. Future work will focus on looking at genome-wide transcriptional changes accompanying differentiation combined with an analysis of spatial information of differentially regulated genes. 571.4
46	Fibroblast Growth Factor Receptor-1 Function in Vasculo- and Angiogenesis Magnusson, Peetra January 2005 (has links) <p>During development of the mammalian embryo, spatial and temporal expression of fibroblast growth factors (FGFs) and their cognate receptors are vital in the regulation of a number of patterning processes. Inappropriate or decreased expression leads to severe malformations and even embryonic death. The objectives of this thesis have been to evaluate the usefulness of differentiating embryonic stem (ES) cells as a model to study FGF and FGF receptors in endothelial and hematopoietic cell function in vitro and in vivo, and the effect of an activating mutation in the platelet-derived growth factor receptor-β (PDGFR-β) on endothelial cells and vessel formation.</p><p>Aggregates of differentiating ES cells, denoted embryoid bodies, faithfully recapitulate many developmental processes. Embryoid bodies cultured in fetal calf serum spontaneously develop cardiomyocytes and endothelial cells. The endothelial cells organize into lumen-containing vessels carrying erythroblasts. Administration of FGF or vascular endothelial growth factor (VEGF)-A promotes development of specific vascular phenotypes. About 20% of endothelial cells in embryoid bodies and teratomas express FGFR-1, and these FGFR-1-expressing endothelial cells are mitogenically active in the absence of exogenous stimuli and respond to VEGF-A to the same extent as endothelial cells lacking FGFR-1 expression. FGFR-1 deficiency leads to arrest in hematopoietic differentiation, whereas endothelial cell development is enhanced. As a consequence, teratomas derived from ES cells lacking FGFR-1 expression display vessels composed of a double layer of endothelial cells. The hyperactivity of endothelial cells derived from FGFR-1-deficient ES cells is suggested to be due to hyperactivity of VEGF receptor-2, as well as to loss of negative regulators of angiogenesis, such as interleukin-4.</p><p>Mutation of platelet-derived factor receptor-β (PDGFR-β) to replace D849 in the activating loop in the kinase domain with V leads to ligand-independent kinase activity, increased basal signal transduction, and enhanced expression of VEGF-A as well as VEGFR-2. As a result, endothelial cell sprouts covered with pericyte-like cells are formed in a VEGF-A/VEGFR-2 dependent manner in ES cells expressing the mutated PDGFR-β.</p><p>In conclusion, embryoid bodies represent a high-quality model for the study of growth factor-regulated vascular development and sprouting angiogenesis.</p> Pathology FGF FGFR-1 VEGFR-2 PDGFR-β endothelial cells embryonic stem cell angiogenesis hematopoiesis Patologi Pathology Patologi
47	Fibroblast Growth Factor Receptor-1 Function in Vasculo- and Angiogenesis Magnusson, Peetra January 2005 (has links) During development of the mammalian embryo, spatial and temporal expression of fibroblast growth factors (FGFs) and their cognate receptors are vital in the regulation of a number of patterning processes. Inappropriate or decreased expression leads to severe malformations and even embryonic death. The objectives of this thesis have been to evaluate the usefulness of differentiating embryonic stem (ES) cells as a model to study FGF and FGF receptors in endothelial and hematopoietic cell function in vitro and in vivo, and the effect of an activating mutation in the platelet-derived growth factor receptor-β (PDGFR-β) on endothelial cells and vessel formation. Aggregates of differentiating ES cells, denoted embryoid bodies, faithfully recapitulate many developmental processes. Embryoid bodies cultured in fetal calf serum spontaneously develop cardiomyocytes and endothelial cells. The endothelial cells organize into lumen-containing vessels carrying erythroblasts. Administration of FGF or vascular endothelial growth factor (VEGF)-A promotes development of specific vascular phenotypes. About 20% of endothelial cells in embryoid bodies and teratomas express FGFR-1, and these FGFR-1-expressing endothelial cells are mitogenically active in the absence of exogenous stimuli and respond to VEGF-A to the same extent as endothelial cells lacking FGFR-1 expression. FGFR-1 deficiency leads to arrest in hematopoietic differentiation, whereas endothelial cell development is enhanced. As a consequence, teratomas derived from ES cells lacking FGFR-1 expression display vessels composed of a double layer of endothelial cells. The hyperactivity of endothelial cells derived from FGFR-1-deficient ES cells is suggested to be due to hyperactivity of VEGF receptor-2, as well as to loss of negative regulators of angiogenesis, such as interleukin-4. Mutation of platelet-derived factor receptor-β (PDGFR-β) to replace D849 in the activating loop in the kinase domain with V leads to ligand-independent kinase activity, increased basal signal transduction, and enhanced expression of VEGF-A as well as VEGFR-2. As a result, endothelial cell sprouts covered with pericyte-like cells are formed in a VEGF-A/VEGFR-2 dependent manner in ES cells expressing the mutated PDGFR-β. In conclusion, embryoid bodies represent a high-quality model for the study of growth factor-regulated vascular development and sprouting angiogenesis. Pathology FGF FGFR-1 VEGFR-2 PDGFR-β endothelial cells embryonic stem cell angiogenesis hematopoiesis Patologi Pathology Patologi
48	Paracrine factors of vascular endothelial cells facilitate cardiomyocyte differentiation of mouse embryonic stem cells 日高, 京子, Hidaka, Kyoko, 三輪, 佳子, Miwa, Keiko, 室原, 豊明, Murohara, Toyoaki, 笠井, 謙次, Kasai, Kenji, 佐賀, 信介, Saga, Shinsuke, 森崎, 隆幸, Morisaki, Takayuki, 上田, 裕一, Ueda, Yuichi, 児玉, 逸雄, Kodama, Itsuo January 2008 (has links) No description available. Embryonic stem cell Cardiac cell Vascular endothelial cell Paracrine factor Cardiomyogenesis Nkx2.5 Bone morphogenic protein Wnt Cyclooxygenase Nitric oxide synthase
49	Pluripotent Stem Cells of Embryonic Origin : Applications in Developmental Toxicology Jergil, Måns January 2009 (has links) General toxicity evaluation and risk assessment for human exposure is essential when developing new pharmaceuticals and chemicals. Developmental toxicology is an important part of this risk assessment which consumes large resources and many laboratory animals. The prediction of developmental toxicity could potentially be assessed in vitro using embryo-derived pluripotent stem cells for lead characterization and optimization. This thesis explored the potential of short-time assays with pluripotent stem cells of embryonic origin using toxicogenomics. Three established pluripotent stem cell lines; P19 mouse embryonal carcinoma (EC) cells, R1 mouse embryonic stem (mES) cells, and SA002 human embryonic stem (hES) cells were used in the studies. Valproic acid (VPA), an antiepileptic drug which can cause the neural tube defects spina bifida in human and exencephaly in mouse, was used together with microarrays to investigate the global transcriptional response in pluripotent stem cells using short-time exposures (1.5 - 24 h). In addition to VPA, three closely related VPA analogs were tested, one of which was not teratogenic in mice. These analogs also differed in their ability to inhibit histone deacetylase (HDAC) allowing this potential mechanism of VPA teratogenicity to be investigated. The results in EC cells indicated a large number of genes to be putative VPA targets, many of which are known to be involved in neural tube morphogenesis. When compared with data generated in mouse embryos, a number of genes emerged as candidate in vitro markers of VPA-induced teratogenicity. VPA and its teratogenic HDAC inhibiting analog induced major and often overlapping deregulation of genes in mES cells and hES cells. On the other hand, the two non-HDAC inhibiting analogs (one teratogenic and one not) had only minor effects on gene expression. This indicated that HDAC inhibition is likely to be the major mechanism of gene deregulation induced by VPA. In addition, a comparison between human and mouse ES cells revealed an overlap of deregulated genes as well as species specific deregulated genes. Embryonic stem cell Microarray Toxicogenomics Valproic acid Developmental toxicology Teratogenicity Neural tube defects Histone deacetylase inhibitor In vitro toxicology Toxicology Toxikologi
50	Avaliação do promotor OCT-4 de equinos em uma abordagem transgênica em células-tronco embrionárias de murinos / Gonçalves, Fernanda da Silva. January 2010 (has links) Resumo: O fator de transcrição Oct-4 é bem conservado entre as espécies e é conhecido por ser expresso em embriões e células-tronco embrionárias (CTE), sendo um importante marcador da pluripotência. Recentemente, foi relatado que a combinação de Oct-4 com três outros fatores de transcrição Klf-4, c-Myc e Sox2 foram capazes de reprogramar células somáticas a um estado indiferenciado pluripotente, chamadas células-tronco pluripotentes induzidas ("células iPS"), as quais apresentam várias das mesmas propriedades das CTE incluindo a pluripotência, auto-renovação e proliferação. O objetivo desse estudo foi avaliar a funcionalidade do promotor Oct-4 de eqüino em CTE de murinos. Três vetores plasmidiais expressando GFP ("green fluorescent protein") sob o controle do promotor Oct-4 de equinos, camundongo e quatro vetores lentivirais, também contendo o gene reporter GFP e os promotores Oct-4 de equinos, camundongo e humanos, pLZ2-ecOCT-EGFP (meq) (sequência equivalente de camundongos), pLZ2-ecOCT-EGFP (heq) (sequência equivalente de humanos), pLZ2-mOCT-EGFP e pLZ2-hOCT-EGFP, respectivamente, foram construídos. Todos os vetores também contêm um sítio de resistência à blasticidina que permite a seleção das células estáveis e das células transduzidas. Essas construções plasmidiais foram verificadas se funcionavam eficientemente, bem como o efeito do promotor Oct-4 em transfectar transientes e estáveis CTE. As construções com promotor Oct-4 de camundongo, humano e eqüino (sequência análoga à de camundongo) produziram somente 6% de células GFP positivas com intensidade de fluorescência (IF) >1000 pela análise em citômetro de fluxo, enquanto que o plasmídeo contendo o promotor Oct-4 de eqüino (sequência equivalente à de humanos) produziu menos células GFP positivas (>3%) com IF >1000, quando... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The pluripotency transcription factor Oct-4 is well conserved among species and is known to be expressed in embryos and embryonic stem (ES) cells; it is being an important pluripotency marker. It was recently demonstrated that the combination of Oct-4 with three other factors Klf-4, c-myc and Sox2 were able to reprogram somatic cells to a pluripotent and undifferentiated state. These cells known as induced pluripotent stem (iPS) cells share several properties with ES cells including self-renewal, proliferation and pluripotency. The aim of this study was to assess the functionality of the horse Oct-4 promoter in mouse ES cells. Three plasmids vectors expressing GFP (green fluorescent protein) under the control of the horse, mouse and four lentivirus vectors also containing reporter gene GFP and horse, mouse and human promoters, pLZ2-ecOCT-EGFP (mouse sequence equivalent), pLZ2-ecOCT-EGFP (human sequence equivalent), pLZ2-mOCT-EGFP and pLZ2-hOCT-EGFP, respectively, were built. All these vectors also contain a blasticidin resistance cassette to allow selection of transfected stable cells and transduced cells. Afterwards, to assess the functionality of the Oct-4 promoter all plasmids were tranfected the into transient and stable mouse ES cells. Constructs with mouse, human and horse (mouse analog sequence) Oct-4 promoter produced only 6% GFP positive cells with fluorescence intensity (FI)>1000 by 20 FACs assay, while plasmid horse (human analog sequence) Oct-4 promoter produced less GFP positive cells (>3%) with FI>1000, when compared with the positive control and among groups. However, GFP expression was not present in stable cells, whereas there were Blasticidin-resistant colonies-forming from 6 days post-transfection. To optimize the system in mouse ES cells, pLZ2-mOCT-EGFP and pLZ2-hOCT-EGFP lentivectors, were tested as controls. It was used HIV-1-derived... (Complete abstract click electronic access below) / Orientadora: Gisele Zoccal Mingoti / Coorientador: Joaquim Mansano Garcia / Banca: César Roberto Esper / Banca: Flávio Vieira Meirelles / Banca: Áureo Evangelista Santana / Banca: Simone Cristina Méo Niciura / Doutor Reprodução animal. Oct-4 promoter. eng Lentivirus vector. eng Plasmids vector. eng Embryonic stem cell. eng Transfection. eng Transduction. eng

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