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The Developmental Effect of Human Embryoid Bodies (hEB) Under Dynamic Culturing Conditions Using a Perfusion Based Slow Turning Lateral Vessel (STLV) BioreactorCollier, Claiborne 12 January 2009 (has links)
Human embryonic stem cells (hESCs) can provide a unique approach for novel tissue engineering applications. Previous groups have shown that hESCs can differentiate into specialized cell types through the generation of human embryoid bodies (hEBs). These multi-cellular constructs are then subjected to suspension culture for several weeks. Traditional hESC differentiation techniques have yielded non-homogeneous EBs derived in standard static cultures providing an inefficient platform for cellular viability and embryonic modeling. Here, our study aimed at systematically comparing the formation, growth, and differentiation capabilities of hESC-derived hEBs in dynamic and static suspension cultures. We used a continuous flow perfusion slow turning lateral vessel, STLV, system (Synthecon) to model after an in vivo environment. This study is in part of a larger study investigating the role of HOXB5 in the human endothelial differentiation pathway. Embryoid bodies were created by hanging drops and then subjected to static or dynamic culture for 10 days. Cells were harvested and a simple Alkaline Phosphatase assay was used to determine if the system was viable for propagating hEB. We show that the STLV system is viable for our future studies and this system more efficient at maintaining hEBs.
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The role of HEB and E2A in the regulation of T Lymphocyte development and proliferationWojciechowski, Jason 10 May 2007 (has links)
Thymocyte development is a complex process that requires precise regulation of
differentiation and proliferation. Basic helix-loop-helix (bHLH) transcription factors
have been shown to be crucial for proper T cell development. HEB and E2A are
structurally and functionally related E proteins of the bHLH family. These proteins
directly regulate the expression of a number of genes essential for lymphocyte
development in a lineage- and stage-specific manner. Abrogation or compromise of their
function results in the manifestation of B and T cell developmental defects.
Genetic and biochemical studies have provided evidence of a significant degree of
functional redundancy among E proteins. The existence of compensational abilities
among different E proteins has hampered the investigation and elucidation of E protein
function. As such, single gene knockouts demonstrate only limited defects in lymphocyte
development. Double E2A-HEB knockouts that could eliminate E protein redundancy
are embryonic lethal. In addition, conventional gene knockouts are not well-suited for
discerning between intrinsic and extrinsic defects caused by E protein disruption.
To eliminate functional compensation and to test the T cell intrinsic roles of E
proteins during thymocyte development, we developed a conditional HEB-E2A double
knockout. Specifically, we employed a loxP/Lck-Cre recombinase system to drive E
protein deletion during early thymocyte development. Using this approach, we were able
to reveal overlapping roles for HEB and E2A in thymocyte development that had been
obscured in previous single gene knockout studies.
We find that simultaneous deletion of HEB and E2A results in a severe block in
thymocyte development at the DN to DP stage transition. This developmental block is
accompanied by a dramatic decrease in total thymic cellularity, an increase in apoptosis,
and a reduction of pTα expression. These developmentally arrested thymocytes exhibit
increased proliferation in vivo and dramatic expansion ex vivo in response to IL-7
signaling. Our findings suggest that E2A and HEB are not only critical for the regulation
of T cell differentiation but are also necessary to retain developing thymocytes in cell
cycle arrest prior to pre-TCR expression. Together, these results imply that E proteins
are required to coordinate thymocyte differentiation and proliferation. / Dissertation
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CARACTERIZAÇÃO HISTOPATOLÓGICA E IMUNOISTOQUÍMICA DE BEXIGAS DE BOVINOS COM HEMATÚRIA ENZOÓTICASILVA, M. A. 27 February 2012 (has links)
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Previous issue date: 2012-02-27 / A hematúria enzoótica bovina (HEB) é causada pela ingestão crônica de Pteridium aquilinum e caracteriza-se pela presença de sangue na urina e desenvolvimento de lesões na bexiga, sendo responsável por grandes perdas econômicas. A intoxicação por esta planta também pode ocorrer em humanos. Objetivou-se avaliar lesões de bexigas de animais com HEB na região sul do Espírito Santo. Para isto, foram avaliadas 350 bexigas de bovinos em matadouro frigorífico e, destas, selecionadas 46 que apresentavam lesões macroscópicas e/ou hematúria. Amostras de cada bexiga foram fixadas em formol a 10% submetidas ao processamento histológico de rotina e classificadas histomorfologicamente. A imunoistoquímica foi realizada com anti-vimentina, anti-citoqueratina, anti-CD31, anti-VEGF e anti-uroplaquina apenas nas 26 bexigas que revelaram neoplasia. Lesões não neoplásicas foram observadas em 100% das amostras e neoplásicas em 56,52%. A presença de neoplasias foi significativa (p<0,05) na porção caudal da bexiga. As neoplasias encontradas foram carcinoma urotelial; carcinoma in situ, adenocarcinoma, hemangioma, mixoma e hemangiossarcoma. Houve maior frequência de displasia, metaplasia de células claras, inflamação e espessamento vascular em bexigas com neoplasia. A expressão de citoqueratina foi significativa (p<0,05) nas neoplasias epiteliais e vimentina nas mesenquimais. A marcação da uroplaquina III diferiu nos diversos tipos neoplásicos e revelou-se típica e atípica enquanto que a do CD31 foi significativa (p<0,05) nas neoplasias mesenquimais vasculares. Houve diferença significativa (p<0,05) na quantidade de vasos extratumorais marcados pelo VEGF entre os mixomas e adenocarcinomas e nos vasos intratumorais marcados por CD31 e VEGF nos diferentes tipos tumorais. Houve correlação positiva entre os vasos extra e intratumorais nos hemangiomas, hemangiossarcomas e mixomas marcados pelo CD31; nos hemangiomas, mixomas e adenocarcinomas marcados pelo VEGF; entre a expressão de vimentina e CD31 e entre citoqueratina e uroplaquina. Conclui-se que bexigas de bovinos com HEB apresentam lesões não neoplásicas e neoplásicas, isoladas ou associadas. Os biomarcadores auxiliam na diferenciação da histogênese das neoplasias epiteliais e mesenquimais vasculares. Uroplaquina demonstrou-se efetiva para a avaliação da integridade urotelial e os marcadores vasculares (CD31 e VEGF) para a integridade endotelial e para o prognóstico.
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Nouveau rôle d'E2A et HEB dans la régulation du facteur de transcription hématopoiétique SCLDesrosiers, Marianne January 2006 (has links)
Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.
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Regulation of Early T-cell Development and Commitment by HEBBraunstein, Marsela 29 August 2011 (has links)
Early T-cell development is regulated by a complex interplay between transcription factors and developmental cues which ensure that functional T-cells are produced within the thymus. Early thymocytes integrate these signals in a step-wise fashion that progressively restricts their lineage potential as they transition through the early stages of T-cell development. Gene knockout studies have shown that the E-protein transcription factor HEB is required for normal thymocyte development. Furthermore, many additional key regulators such as Notch1 have been identified, but the connections among them and their specific roles in early T-cell development have not been well established. In this thesis, I set out to determine the specific roles of HEB at the beta-selection checkpoint and to establish connections between HEB and the key regulators within the gene regulatory network that orchestrates early T-cell development. To facilitate these studies, I generated a series of new mouse models including HEBAlt transgenic mice that express a short form of HEB called HEBAlt, which enabled me to answer specific questions and examine rare populations. First, my studies of HEB-/- mice allowed me to identify an early block in T-cell development, which was alleviated upon the addition of an HEBAlt transgene. Furthermore, I identified pTa and CD3e signalling as specific targets of HEBAlt during -selection. Second, my studies on HEB-/- mice revealed that they have a defect in T-cell commitment, with compromised Notch1 function and a tendency to become DN1-like cells. Moreover, the DN1-like cells could be induced to differentiate into thymic NK cells, revealing a role for HEB in the T/NK cell lineage decision. This study has revealed a new set of interactions among HEB, Notch1, and GATA3 that regulate the T-cell fate choice in developing thymocytes. Unexpectedly, my studies have also provided evidence for a role of HEBAlt in lymphomagenesis, highlighting the strict regulation of E-protein function that is necessary to ensure normal T-cell development.
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Regulation of Early T-cell Development and Commitment by HEBBraunstein, Marsela 29 August 2011 (has links)
Early T-cell development is regulated by a complex interplay between transcription factors and developmental cues which ensure that functional T-cells are produced within the thymus. Early thymocytes integrate these signals in a step-wise fashion that progressively restricts their lineage potential as they transition through the early stages of T-cell development. Gene knockout studies have shown that the E-protein transcription factor HEB is required for normal thymocyte development. Furthermore, many additional key regulators such as Notch1 have been identified, but the connections among them and their specific roles in early T-cell development have not been well established. In this thesis, I set out to determine the specific roles of HEB at the beta-selection checkpoint and to establish connections between HEB and the key regulators within the gene regulatory network that orchestrates early T-cell development. To facilitate these studies, I generated a series of new mouse models including HEBAlt transgenic mice that express a short form of HEB called HEBAlt, which enabled me to answer specific questions and examine rare populations. First, my studies of HEB-/- mice allowed me to identify an early block in T-cell development, which was alleviated upon the addition of an HEBAlt transgene. Furthermore, I identified pTa and CD3e signalling as specific targets of HEBAlt during -selection. Second, my studies on HEB-/- mice revealed that they have a defect in T-cell commitment, with compromised Notch1 function and a tendency to become DN1-like cells. Moreover, the DN1-like cells could be induced to differentiate into thymic NK cells, revealing a role for HEB in the T/NK cell lineage decision. This study has revealed a new set of interactions among HEB, Notch1, and GATA3 that regulate the T-cell fate choice in developing thymocytes. Unexpectedly, my studies have also provided evidence for a role of HEBAlt in lymphomagenesis, highlighting the strict regulation of E-protein function that is necessary to ensure normal T-cell development.
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Efeitos do Silenciamento de E2F1 e HEB, Fatores de Transcrição Preditos In Silico, em Células de Glioblastoma Irradiadas com Raios Gama. / Effects of E2F1 and HEB (Transcription Factors Predicted by In Silico Analysis) Silencing in Glioblastoma Cells Irradiated with Gamma-Rays.Godoy, Paulo Roberto D'Auria Vieira de 12 April 2013 (has links)
O glioblastoma multiforme (GBM) é um dos tumores mais letais e a radioterapia permanece como um dos principais tratamentos. Novas estratégias são necessárias para coibir a resistência ao tratamento, como o silenciamento de fatores de transcrição (FTs). Nossa hipótese é a de que FTs associados a listas de genes diferencialmente expressos, os quais foram selecionados para linhagens de GBM irradiadas, ou comparando amostras de GBM à amostras de tecido cerebral, possam fornecer alvos moleculares que aumentariam a morte das células tumorais, quando silenciados. Foram analisadas a proliferação, morte e ciclo celular, além da formação e diferenciação de neuroesferas, utilizando, em quase todas as etapas, a citometria de fluxo. Os FTs HEB e E2F1, cujas funções principais estão relacionadas à neurogênese e proliferação celular, foram selecionados a partir das análises in silico de GBM irradiados ou não, ou de GBMs comparados a amostras de cérebro normal, respectivamente. Esses FTs encontram-se expressos em linhagens U87, astrócitos primários e neuroesferas provenientes das mesmas, analisadas por Western blot. O silenciamento de HEB e E2F1 na linhagem U87, de forma geral, reduziu a proliferação, induziu morte celular e diminuiu a porcentagem de células em G0/ G1, em pelo menos um dos tempos analisados (24, 48 e 72h) em relação ao grupo transfectado com a sequência scrambled. O silenciamento de HEB e E2F1 reduziu o número de neuroesferas quando comparadas às células transfectadas com a sequência scrambled. Possivelmente, a capacidade anti-proliferativa do silenciamento dos FTs HEB e E2F1 observada no cultivo em monocamada da U87, possam atuar na capacidade de formação de neuroesferas e, consequentemente, podem ter um papel na manutenção das células tronco do GBM. O silenciamento não alterou a radiorresistência da U87 cultivada em monocamada, com exceção dos efeitos do silenciamento de E2F1 em 24 h, em que houve radioproteção. A irradiação não reduziu o número de neuroesferas silenciadas para HEB em comparação ao grupo não irradiado, mas reduziu o número de células presentes nas neuroesferas, indicando uma possível atuação de HEB na resposta à irradiação em neuroesferas, fato este nunca antes descrito. O silenciamento de E2F1 não interferiu na resposta das neuroesferas à radiação. A expressão de CD133 avaliada oito dias após a dissociação das células silenciadas para E2F1 e HEB, cultivadas em meio de diferenciação, foram superiores ao do grupo scrambled, indicando uma possível diminuição na diferenciação celular. O silenciamento dos dois FTs não atuou na seleção positiva de CD133+ após a irradiação, como observado no grupo das neuroesferas transfectadas com a sequência scrambled e irradiadas, comparado às não irradiadas. Assim, E2F1 e HEB mostraram-se alvos interessantes no sentido de reduzir a proliferação, tanto em células U87 cultivadas em monocamada quanto em neuroesferas. / Glioblastoma multiforme (GBM) is one of the most lethal tumors, and radiation therapy remains one of the main treatments. New strategies are needed to suppress typical GBM treatment resistance and transcription factors (TFs) silencing seems to be a promising strategy. Our hypothesis is that TFs associated with lists of differentially expressed genes which were selected for irradiated compared to shamirradiated GBM cell lines, or GBM samples compared to brain tissue samples, could provide molecular targets that are supposed to increase tumor cell death when they are silenced. We analyzed proliferation, cell death and cell cycle progression, besides the formation and differentiation of neurospheres, using several analyses by flow cytometry. The TFs HEB and E2F1, whose primary functions are related to neurogenesis and cell proliferation, were selected from in silico analysis of GBM irradiated or sham-irradiated GBMs and GBM samples compared with normal brain samples, respectively. These TFs were found expressed in U87 GBM cell line, and primary astrocytes, as well as in neurospheres derivated from both, as analyzed by Western blot. Silencing of E2F1 and HEB in U87 cells, reduced proliferation, induced cell death and decreased the percentage of cells at G0/G1 (24, 48 or 72h) compared to the scrambled sequence transfected group. HEB and E2F1 silencing reduced the number of neurospheres when compared to cells transfected with scrambled sequence. Possibly, the anti-proliferative ability of silencing of HEB and E2F1 TFs observed in monolayer culture of U87, may act in neurospheres forming capacity and therefore may play a role in the maintenance of GBM stem cells. In our experiments, gene silencing did not alter the radio-resistance of U87 grown in monolayer. Irradiation did not reduce the number of neurospheres silenced for HEB compared to non-irradiated group, but reduced the number of cells present in neurospheres, indicating a possible role of HEB in response to ionizing irradiation in neurospheres, a fact that was not described yet. The silencing of E2F1 in neurospheres did not affect the response to irradiation. The expression of CD133, as assessed at eight days after the dissociation of cells silenced for E2F1 and HEB (cultured in differentiation culture media), was superior compared with the scrambled group, indicating a possible decrease in cell differentiation. The silencing of both TFs did not influence the positive selection of CD133 after irradiation, as observed in the group of neurospheres transfected with scrambled sequence, and irradiated compared to nonirradiated. Thus, E2F1 and HEB proved to be interesting targets for decreasing proliferation in both U87 cells grown as monolayer or neurospheres.
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Efeitos do Silenciamento de E2F1 e HEB, Fatores de Transcrição Preditos In Silico, em Células de Glioblastoma Irradiadas com Raios Gama. / Effects of E2F1 and HEB (Transcription Factors Predicted by In Silico Analysis) Silencing in Glioblastoma Cells Irradiated with Gamma-Rays.Paulo Roberto D'Auria Vieira de Godoy 12 April 2013 (has links)
O glioblastoma multiforme (GBM) é um dos tumores mais letais e a radioterapia permanece como um dos principais tratamentos. Novas estratégias são necessárias para coibir a resistência ao tratamento, como o silenciamento de fatores de transcrição (FTs). Nossa hipótese é a de que FTs associados a listas de genes diferencialmente expressos, os quais foram selecionados para linhagens de GBM irradiadas, ou comparando amostras de GBM à amostras de tecido cerebral, possam fornecer alvos moleculares que aumentariam a morte das células tumorais, quando silenciados. Foram analisadas a proliferação, morte e ciclo celular, além da formação e diferenciação de neuroesferas, utilizando, em quase todas as etapas, a citometria de fluxo. Os FTs HEB e E2F1, cujas funções principais estão relacionadas à neurogênese e proliferação celular, foram selecionados a partir das análises in silico de GBM irradiados ou não, ou de GBMs comparados a amostras de cérebro normal, respectivamente. Esses FTs encontram-se expressos em linhagens U87, astrócitos primários e neuroesferas provenientes das mesmas, analisadas por Western blot. O silenciamento de HEB e E2F1 na linhagem U87, de forma geral, reduziu a proliferação, induziu morte celular e diminuiu a porcentagem de células em G0/ G1, em pelo menos um dos tempos analisados (24, 48 e 72h) em relação ao grupo transfectado com a sequência scrambled. O silenciamento de HEB e E2F1 reduziu o número de neuroesferas quando comparadas às células transfectadas com a sequência scrambled. Possivelmente, a capacidade anti-proliferativa do silenciamento dos FTs HEB e E2F1 observada no cultivo em monocamada da U87, possam atuar na capacidade de formação de neuroesferas e, consequentemente, podem ter um papel na manutenção das células tronco do GBM. O silenciamento não alterou a radiorresistência da U87 cultivada em monocamada, com exceção dos efeitos do silenciamento de E2F1 em 24 h, em que houve radioproteção. A irradiação não reduziu o número de neuroesferas silenciadas para HEB em comparação ao grupo não irradiado, mas reduziu o número de células presentes nas neuroesferas, indicando uma possível atuação de HEB na resposta à irradiação em neuroesferas, fato este nunca antes descrito. O silenciamento de E2F1 não interferiu na resposta das neuroesferas à radiação. A expressão de CD133 avaliada oito dias após a dissociação das células silenciadas para E2F1 e HEB, cultivadas em meio de diferenciação, foram superiores ao do grupo scrambled, indicando uma possível diminuição na diferenciação celular. O silenciamento dos dois FTs não atuou na seleção positiva de CD133+ após a irradiação, como observado no grupo das neuroesferas transfectadas com a sequência scrambled e irradiadas, comparado às não irradiadas. Assim, E2F1 e HEB mostraram-se alvos interessantes no sentido de reduzir a proliferação, tanto em células U87 cultivadas em monocamada quanto em neuroesferas. / Glioblastoma multiforme (GBM) is one of the most lethal tumors, and radiation therapy remains one of the main treatments. New strategies are needed to suppress typical GBM treatment resistance and transcription factors (TFs) silencing seems to be a promising strategy. Our hypothesis is that TFs associated with lists of differentially expressed genes which were selected for irradiated compared to shamirradiated GBM cell lines, or GBM samples compared to brain tissue samples, could provide molecular targets that are supposed to increase tumor cell death when they are silenced. We analyzed proliferation, cell death and cell cycle progression, besides the formation and differentiation of neurospheres, using several analyses by flow cytometry. The TFs HEB and E2F1, whose primary functions are related to neurogenesis and cell proliferation, were selected from in silico analysis of GBM irradiated or sham-irradiated GBMs and GBM samples compared with normal brain samples, respectively. These TFs were found expressed in U87 GBM cell line, and primary astrocytes, as well as in neurospheres derivated from both, as analyzed by Western blot. Silencing of E2F1 and HEB in U87 cells, reduced proliferation, induced cell death and decreased the percentage of cells at G0/G1 (24, 48 or 72h) compared to the scrambled sequence transfected group. HEB and E2F1 silencing reduced the number of neurospheres when compared to cells transfected with scrambled sequence. Possibly, the anti-proliferative ability of silencing of HEB and E2F1 TFs observed in monolayer culture of U87, may act in neurospheres forming capacity and therefore may play a role in the maintenance of GBM stem cells. In our experiments, gene silencing did not alter the radio-resistance of U87 grown in monolayer. Irradiation did not reduce the number of neurospheres silenced for HEB compared to non-irradiated group, but reduced the number of cells present in neurospheres, indicating a possible role of HEB in response to ionizing irradiation in neurospheres, a fact that was not described yet. The silencing of E2F1 in neurospheres did not affect the response to irradiation. The expression of CD133, as assessed at eight days after the dissociation of cells silenced for E2F1 and HEB (cultured in differentiation culture media), was superior compared with the scrambled group, indicating a possible decrease in cell differentiation. The silencing of both TFs did not influence the positive selection of CD133 after irradiation, as observed in the group of neurospheres transfected with scrambled sequence, and irradiated compared to nonirradiated. Thus, E2F1 and HEB proved to be interesting targets for decreasing proliferation in both U87 cells grown as monolayer or neurospheres.
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A Sacred Gift: Rebalancing Our Relationship with WaterMelhim, Noora Naser 01 January 2019 (has links)
In the Middle East, and specifically Qatar, water has significant cultural history and preciousness as a commodity. Today, the rapid economic development has resulted in a disconnection from the past leading to subconscious overconsumption of water.
This thesis investigates water from the context of cultural relevance, by examining systems of distribution before and after the discovery of oil. It reinterprets the materiality of the traditional ceramic vessels used to contain and preserve water with the intention of using the natural properties of clay, such as cooling and filtering, to produce new artifacts. The intent of this research is to critically comment on current water consumption habits and raise awareness by presenting alternatives solutions.
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The Gazelle in Ancient Egyptian Art : Image and MeaningStrandberg, Åsa January 2009 (has links)
This thesis establishes the basic images of the gazelle in ancient Egyptian art and their meaning. A chronological overview of the categories of material featuring gazelle images is presented as a background to an interpretation. An introduction and review of the characteristics of the gazelle in the wild are presented in Chapters 1-2. The images of gazelle in the Predynastic material are reviewed in Chapter 3, identifying the desert hunt as the main setting for gazelle imagery. Chapter 4 reviews the images of the gazelle in the desert hunt scenes from tombs and temples. The majority of the motifs characteristic for the gazelle are found in this context. Chapter 5 gives a typological analysis of the images of the gazelle from offering processions scenes. In this material the image of the nursing gazelle is given particular importance. Similar images are also found on objects, where symbolic connotations can be discerned (Chapter 6). References to healing and regeneration are found, particularly in relationship to the context of the objects. The gazelle is found in a divine context in a limited material (Chapter 7). A discussion of these sources sees a focus on the gazelle as representative for the desert mountains as the setting for death and rebirth. This relates to the gazelle as a feminine image with a connection to the models of female divinity (Chapter 8).
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