Global ETD Search

31	Funktionelle Charakterisierung des Tight Junction-Proteins Claudin-3 in Epithel- und Endothelzellen Milatz, Susanne 16 February 2011 (has links) Die Tight Junction (TJ) reguliert den parazellulären Transport von Ionen, Wasser und Soluten an Epithelien und Endothelien und ist von entscheidender Bedeutung für die Aufrechterhaltung der Funktion von Organen und Geweben. Obwohl Claudin-3 zu den zuerst identifizierten und ubiquitär exprimierten Komponenten der TJ gehört, konnte seine spezifische Funktion bislang nicht geklärt werden. Für die funktionelle Charakterisierung des humanen Claudin-3-Proteins wurden stabile Überexpressionsklone der lecken Nierenepithel-Zelllinie MDCK II generiert. Die Überexpression von Claudin-3 führte zu einer deutlichen Änderung des TJ-Strangmusters sowie zu einer starken Zunahme des transepithelialen Widerstandes und einer verminderten Permeabilität für Ionen und Moleküle der Größe 332 Da und 4000 Da. Der parazelluläre Durchtritt von Wasser war unverändert. Claudin-3 konnte eindeutig als abdichtende Komponente der TJ identifiziert werden. Anhand des endothelialen Zellkulturmodells HUVEC wurden Expression und Regulation von Claudin-3 und anderen TJ-Proteinen unter dem Einfluss mechanischer Strömungsverhältnisse und des Sauerstoffpartialdrucks analysiert. Die Behandlung mit fehlender Wandschubspannung führte zur Hochregulation der abdichtenden TJ-Proteine Occludin, Claudin-3, Claudin-5 und Claudin-11, nicht aber Claudin-23. Die Regulation der einzelnen TJ-Komponenten wurde durch unterschiedliche Signalwege vermittelt, wobei der verstärkten Proteinexpression jeweils eine Hochregulation auf mRNA-Ebene zugrunde lag. Die kombinierte Behandlung mit fehlender Wandschubspannung und Hypoxie resultierte in einer sehr stark erhöhten Expression von Claudin-3. Durch die Hochregulation abdichtender TJ-Komponenten unter Bedingungen fehlender Wandschubspannung und Hypoxie, wie sie in verschiedenen physiologischen und pathologischen Situationen auftreten, könnte einem unerwünschten Durchtritt von Substanzen aus dem Blut in das umliegende Gewebe vorgebeugt werden. / The tight junction (TJ) regulates the paracellular transport of ions, water and solutes in epithelia and endothelia and is of particular importance for a correct function of organs and tissues. Although claudin-3 is one of the first identified and ubiquitously expressed TJ components, its specific function was unsolved as yet. For functional characterization, human claudin-3 was stably overexpressed in the leaky epithelial cell line MDCK II. Overexpression of claudin-3 led to a marked alteration of TJ meshwork pattern, a strong increase in transepithelial resistance and a decrease in permeability for ions and paracellular tracers (332 or 4000 Da). Paracellular water transport was not affected. It was proved that claudin-3 acts as a „tightening“ TJ component. The endothelial cell culture model HUVEC was used for analysis of expression and regulation of claudin-3 and several other TJ proteins under different conditions of wall shear stress and oxygen saturation. Treatment with lacking wall shear stress led to an upregulation of the “tightening” TJ proteins occludin, claudin-3, claudin-5, and claudin-11, but not claudin-23. Upregulation of all proteins was due to increased mRNA levels. Apparently, different signaling pathways were involved in regulation of particular TJ components. Combined treatment with lacking shear stress and hypoxia resulted in drastically increased claudin-3 expression. Upregulation of tightening TJ components under lacking shear stress and hypoxic conditions as occuring in different physiological or pathological situations would limit the passage of solutes from the blood into the surrounding tissue. Hypoxie Permeabilität Claudin Widerstand Tight Junction MDCK Gefrierbruch-Elektronenmikroskopie HUVEC Wandschubspannung hypoxia resistance permeability tight junction claudin MDCK freeze fracture EM HUVEC shear stress 570 Biowissenschaften, Biologie 32 Biologie WD 5100 WW 4120 ddc:570
32	An Evaluation of Induced Shear Stress on Endothelial Cellular Adhesion Molecules Crabb, Edward B 01 January 2019 (has links) The pathophysiology of atherosclerotic cardiovascular disease (CVD) is highlighted by vascular dysfunction and low-grade vascular inflammation. Furthermore, the site-specific distribution of atherosclerosis throughout the arterial vasculature is primarily determined by local hemodynamic force. Therefore, this dissertation outlines three experiments designed to investigate the role of acute mental and physical (i.e., aerobic exercise), and vascular wall shear stress (SS) on the inflammatory aspects of atherosclerosis. Chapter 2 examines the effect of acute laboratory-induced mental stress on intracellular pro-inflammatory signaling pathways in peripheral blood mononuclear cells. Chapter 3 investigates the impact of acute laboratory-induced mental stress and maximal aerobic exercise on the concentration of soluble VCAM-1 (sVCAM-1) and CX3CL1/fractalkine (sCX3CL1) in human serum. Lastly, Chapter 4 examines the role of short- (30 min) and long-term (24 hr) low-to-negative oscillating SS (LOSS) and high laminar SS (HLSS) on the expression and secretion (i.e., cleavage) of cell-membrane VCAM-1 and CX3CL1 by human umbilical vein endothelial cell cultures in vitro. Together, these experiments provide evidence that acute psychological stress, maximal aerobic exercise, and HLSS influence vascular inflammation and adhesive properties of the vessel wall. More specifically, the results from Chapter 2 provide evidence that acute mental stress promotes the immune-cell mediated synthesis of pro-inflammatory cytokines in circulation. In addition, Chapter 3 and Chapter 4 demonstrate that the elevations in blood flow and hemodynamic force associated with maximal aerobic exercise, and unidirectional high SS may have the capacity to alter the expression of endothelial-bound cellular adhesion molecules, in part by eliciting their release from the vessel wall. shear stress cellular adhesion molecules VCAM-1 CX3CL1/fractalkine HUVEC Cell Biology Cellular and Molecular Physiology Exercise Physiology Exercise Science
33	Evaluation of endothelial cell response to drug for intraocular lens delivery Doody, Laura January 2011 (has links) Cataract is one of the leading causes of vision loss worldwide. The rate of cataract surgery has been steadily increasing. Toxic Anterior Segment Syndrome (TASS) is a sterile inflammatory response in the anterior segment of the eye that may occur following cataract surgery. When left untreated, it can lead to permanent vision loss. Corneal endothelial cells are the cells most affected by TASS. These cells are unable to reproduce in vivo and consequently once the density of these cells drops below a certain level, vision is reduced and cannot be reversed. The damage is thought to be mediated by cytokines and endotoxins, primarily through the NF-κΒ pathway. It is hypothesized that anti-inflammatory drug delivery intraocular lenses may help reduce the occurrence of TASS and consequent vision loss. In this research thesis project, an in vitro model was developed as a tool to select drug and delivery material to be used in an anti-TASS ophthalmic biomaterial. In an attempt to find a novel and more effective approach to TASS prevention, dexamethasone, a potent anti-inflammatory steroid drug, was compared to triptolide, a cytokine inhibitor; aprotinin, a general protease inhibitor; and PPM-18, a NF-κΒ inhibitor. To assess the efficacy of these drugs, an in vitro assay using human umbilical vein endothelial cells (HUVEC) and lipopolysaccharide as a stimulant was developed. Cell response to dexamethasone (10 nM), triptolide (3 nM), aprotinin (20 μM) and PPM-18 (10 μM) with or without LPS was characterized by cell viability and flow cytometry analysis of cell activation. Activation was characterized using markers for cell adhesion and activation ICAM-1, PECAM-1, VCAM-1, β1-integrin, CD44 and E-selectin. Following preliminarily testing, the efficacy of dexamethasone (10 nM) and PPM-18 (10 μM) loaded polymer (PDMS) and copolymer (PDMS/pNIPAAm) interpenetrating polymer networks were evaluated over a 4 day release period. The results from soluble drug and LPS (100 ng/mL) testing indicated no decrease in cell viability after 24 h. Dexamethasone, triptolide, aprotinin, and PPM-18 did not reduce the significant ICAM-1 upregulation seen in HUVECs after exposure to LPS for 4 days. PPM-18 in combination with LPS significantly upregulated E-selectin iv and CD44 from unstimulated HUVEC cells. The polymer materials without drug loading did not influence the cell phenotype. However, PPM-18 delivering polymer and copolymer materials significantly upregulated VCAM-1, CD44 when compared to all other treatments. Propidium iodide uptake in HUVEC exposed to PPM-18 drug delivering polymer and copolymer treatments indicated that these treatments caused cell necrosis. None of the drugs, or the drug delivering materials were shown to counteract the upregulation seen from LPS stimulation of HUVEC cells. Future work should focus on validating the in vitro model to more closely replicate the in vivo environment of the anterior segment with the use of primary bovine corneal endothelial cells. biomaterials intraocular lens biocompatability toxic anterior segment syndrome HUVEC cornea endothelium drug delivery PPM-18 dexamethasone System Design Engineering
34	Evaluation of endothelial cell response to drug for intraocular lens delivery Doody, Laura January 2011 (has links) Cataract is one of the leading causes of vision loss worldwide. The rate of cataract surgery has been steadily increasing. Toxic Anterior Segment Syndrome (TASS) is a sterile inflammatory response in the anterior segment of the eye that may occur following cataract surgery. When left untreated, it can lead to permanent vision loss. Corneal endothelial cells are the cells most affected by TASS. These cells are unable to reproduce in vivo and consequently once the density of these cells drops below a certain level, vision is reduced and cannot be reversed. The damage is thought to be mediated by cytokines and endotoxins, primarily through the NF-κΒ pathway. It is hypothesized that anti-inflammatory drug delivery intraocular lenses may help reduce the occurrence of TASS and consequent vision loss. In this research thesis project, an in vitro model was developed as a tool to select drug and delivery material to be used in an anti-TASS ophthalmic biomaterial. In an attempt to find a novel and more effective approach to TASS prevention, dexamethasone, a potent anti-inflammatory steroid drug, was compared to triptolide, a cytokine inhibitor; aprotinin, a general protease inhibitor; and PPM-18, a NF-κΒ inhibitor. To assess the efficacy of these drugs, an in vitro assay using human umbilical vein endothelial cells (HUVEC) and lipopolysaccharide as a stimulant was developed. Cell response to dexamethasone (10 nM), triptolide (3 nM), aprotinin (20 μM) and PPM-18 (10 μM) with or without LPS was characterized by cell viability and flow cytometry analysis of cell activation. Activation was characterized using markers for cell adhesion and activation ICAM-1, PECAM-1, VCAM-1, β1-integrin, CD44 and E-selectin. Following preliminarily testing, the efficacy of dexamethasone (10 nM) and PPM-18 (10 μM) loaded polymer (PDMS) and copolymer (PDMS/pNIPAAm) interpenetrating polymer networks were evaluated over a 4 day release period. The results from soluble drug and LPS (100 ng/mL) testing indicated no decrease in cell viability after 24 h. Dexamethasone, triptolide, aprotinin, and PPM-18 did not reduce the significant ICAM-1 upregulation seen in HUVECs after exposure to LPS for 4 days. PPM-18 in combination with LPS significantly upregulated E-selectin iv and CD44 from unstimulated HUVEC cells. The polymer materials without drug loading did not influence the cell phenotype. However, PPM-18 delivering polymer and copolymer materials significantly upregulated VCAM-1, CD44 when compared to all other treatments. Propidium iodide uptake in HUVEC exposed to PPM-18 drug delivering polymer and copolymer treatments indicated that these treatments caused cell necrosis. None of the drugs, or the drug delivering materials were shown to counteract the upregulation seen from LPS stimulation of HUVEC cells. Future work should focus on validating the in vitro model to more closely replicate the in vivo environment of the anterior segment with the use of primary bovine corneal endothelial cells. biomaterials intraocular lens biocompatability toxic anterior segment syndrome HUVEC cornea endothelium drug delivery PPM-18 dexamethasone System Design Engineering
35	Determining the Effects of CD151 and β<sub>1</sub> on Tumor Cell Adhesion and Migration Essex, Rachel R. 01 January 2015 (has links) Previous studies have shown that the upregulation of CD151 and β1 is associated with poor prognosis in many cancers such as breast cancer. Studies have provided evidence that these proteins are associated with the adhesion and migration of tumor cells. In this study, a microfluidic flow chamber was utilized to determine how CD151 and β1 affected the firm and initial adhesion of metastatic breast cancer cells to a planar endothelial monolayer under shear stress. This system mimicked the adhesion of metastatic breast cancer cells to the endothelial cells of the circulatory system. CD151 and β1 increased the firm adhesion of metastatic breast cancer cells onto an endothelial monolayer when subjected to high shear stresses. CD151 and β1 increased the initial adhesion of metastatic breast cancer cells onto an endothelial monolayer. A transwell assay was utilized to determine how CD151 and β1 affected random migration through different matrixes and random transendothelial migration. CD151 and β1 decreased the random migration of metastatic breast cancer cells through matrices. Additionally, background information is provided related to the metastatic cascade, how it can be modeled with microfluidics, and how CD151 and β1 have been known to effect cancer and metastasis. metastasis microfluidics tumor cell adhesion transwell assay HUVEC endothelial cells Chemical Engineering
36	Estudo dos mecanismos de ação do peptídeo Ac2-26 e da Piplartina nas células endoteliais de veias umbilicais humanas (HUVEC) ativadas pelo lipopolissacarídeo / Study of the mechanisms of action of the peptide Ac2-26 and Piplartina in human umbilical vein endothelial cells (HUVEC) activated by lipopolysaccharide Carvalho, Caroline de Freitas Zanon de 21 June 2018 (has links) Submitted by Caroline de Freitas Zanon (carolfzanon@yahoo.com.br) on 2018-07-19T18:02:39Z No. of bitstreams: 1 TESE VERSAO FINAL.pdf: 2398136 bytes, checksum: a2ce0aa2c7a816d48d27d6f13d6a0fec (MD5) / Rejected by Elza Mitiko Sato null (elzasato@ibilce.unesp.br), reason: Solicitamos que realize correções na submissão seguindo as orientações abaixo: Problema 01) As páginas pré-textuais não estão na ordem correta, a ordem correta das páginas pré-textuais (capa, folha de rosto, ficha catalográfica, folha de aprovação, dedicatória, agradecimentos, epígrafe, resumo na língua vernácula, resumo em língua estrangeira, listas de ilustrações, de tabelas, de abreviaturas, de siglas e de símbolos e sumário). Problema 02) Nos agradecimentos consta também a FAPESP, então deve constar o nome dela também na folha de rosto e de aprovação com o número de processo e nos agradecimentos precisa constar o número do processo também, é norma do convênio, coloque também os números do processo da CNPQ. Problema 03) No repositório você colocou o nome de Caroline de Freitas Zanon e na tese está Caroline de Freitas Zanon de Carvalho, se esse é o seu nome atual por favor coloque também este nome no repositório. Sua submissão será rejeitada para que você possa fazer as correções Lembramos que o arquivo depositado no repositório deve ser igual ao impresso, o rigor com o padrão da Universidade se deve ao fato de que o seu trabalho passará a ser visível mundialmente. Agradecemos a compreensão. on 2018-07-19T19:04:58Z (GMT) / Submitted by Caroline de Freitas Zanon de Carvalho (carolfzanon@yahoo.com.br) on 2018-07-21T14:52:58Z No. of bitstreams: 1 TESE VERSAO FINAL.pdf: 2394414 bytes, checksum: 6f54895bda93635e996f95a66bf389be (MD5) / Approved for entry into archive by Elza Mitiko Sato null (elzasato@ibilce.unesp.br) on 2018-07-23T13:58:02Z (GMT) No. of bitstreams: 1 carvalho_cfz_dr_sjrp.pdf: 2370535 bytes, checksum: d8d49b7c960d1ac32653f9d268eda5df (MD5) / Made available in DSpace on 2018-07-23T13:58:02Z (GMT). No. of bitstreams: 1 carvalho_cfz_dr_sjrp.pdf: 2370535 bytes, checksum: d8d49b7c960d1ac32653f9d268eda5df (MD5) Previous issue date: 2018-06-21 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Os avanços recentes nos mecanismos de inflamação e a descoberta de vários mediadores endógenos anti-inflamatórios levaram a novas investigações sobre as possibilidades terapêuticas. A demonstração, em estudos científicos, da ação anti-inflamatória da proteína anexina A1 (ANXA1) e do seu peptídeo mimético Ac2-26, têm sido fonte de sucesso para o desenvolvimento de novos fármacos. A descoberta da interação biofísica da piplartina (PL) com a região N-terminal da ANXA1 abriu um novo e instigante campo de investigação para o nosso grupo de pesquisa. Diante destas considerações, o objetivo do presente trabalho foi investigar a atuação da PL nas células endoteliais da veia umbilical humana (HUVEC), ativadas pelo lipopolissacarídeo (LPS). Ainda, se a interação Ac2-26/PL influência nas ações anti-inflamatórias da PL, favorecendo ou atenuando os seus efeitos nos processos inflamatórios. Inicialmente foi utilizada a Espectroscopia de Absorbância UV-Vis e de Fluorescência para investigar as interações entre o ligante PL e Ac2-26. In vitro, as células HUVEC foram ativadas pelo LPS (10 μg/mL), nos tempos de 8, 24, 48 e 72 horas, seguido pelos tratamentos com Ac2-26 (1µM) e/ou PL (10µM), demonstrando resultados expressivos em 24 e 72 horas. Os efeitos foram avaliados nos seguintes aspectos: proliferação celular, viabilidade celular, dosagens da quimiocina MCP-1 e das citocinas IL-8 e IL-1β e expressão da proteína α-tubulina. A presença de um anel trimetoxiaromático na estrutura da PL, o que pode favorecer uma interação com a tubulina, motivou as análises de Western blotting, as quais demonstraram que a PL inibiu a síntese da proteína endógena α-tubulina, em todas as condições experimentais. Nossos resultados mostraram efeitos pró-proliferativos do peptídeo Ac2-26 e, por outro lado, antiproliferativos e pró-apoptóticos da PL. Os níveis das citocinas pró-inflamatórias confirmaram o papel anti-inflamatório do Ac2-26 nas células ativadas pelo LPS, com redução dos níveis de MCP-1 e IL-8, em 24 horas. O tratamento PL reduziu os níveis de MCP-1 nas células ativadas pelo LPS, e aumentou IL-8, inclusive no tratamento associado Ac2-26/PL. Em conjunto, os resultados com as células HUVEC indicam que a PL inibe a proliferação por meio da ativação da apoptose celular, regulada pela inibição da polimerização da α-tubulina e dos níveis elevados da citocina IL-8. A PL e o Ac2-26 mostraram ações anti-inflamatórias, e a interação Ac2-26/PL parece ser neutra em relação às propriedades anti-inflamatórias da PL. / Recent advances in inflammation mechanisms and the discovery of several endogenous anti-inflammatory mediators have led to further investigations into the therapeutic possibilities. The demonstration, in scientific studies, of the annexin A1 protein (ANXA1) anti-inflammatory action and its peptide mimetic Ac2-26, have been a source of success for the development of new drugs. The discovery of the biophysical interaction of piplartin (PL) with the N-terminal region of ANXA1 opened a new and exciting field of investigation for our research group. In view of these considerations, the objective of the present study was to investigate the role of PL in lipopolysaccharide (LPS) activated human umbilical vein endothelial cells (HUVEC). Also, if the interaction Ac2-26/PL influences the anti-inflammatory actions of PL, favoring or attenuating its effects on inflammatory processes. Initially, UV-Vis Absorbance Spectroscopy and Fluorescence were used to investigate the interactions between the PL ligand and Ac2-26. In vitro, HUVEC cells were activated by LPS (10 μg/mL) at 8, 24, 48 and 72 hours, followed by treatments with Ac2-26 (1μM) and/or PL (10μM), demonstrating expressive results in 24 and 72 hours. The effects were evaluated in the following aspects: cell proliferation, cell viability, MCP-1 chemokine and IL-8 and IL-1β cytokines and α-tubulin protein expression. The presence of a trimethoxyaromatic ring in the PL structure, which may favor an interaction with tubulin, motivated Western blotting analyzes, which demonstrated that PL inhibited endogenous α-tubulin protein synthesis in all experimental conditions. Our results showed pro-proliferative effects of the peptide Ac2-26 and, on the other hand, antiproliferative and pro-apoptotic of PL. Proinflammatory cytokine levels confirmed the anti-inflammatory role of Ac2-26 in LPS-activated cells, reducing MCP-1 and IL-8 levels within 24 hours. PL treatment reduced MCP-1 levels in LPSactivated cells, and increased IL-8, including in the treatment associated with Ac226/PL.Taken together, the results with HUVEC cells indicate that PL inhibits proliferation through the activation of cellular apoptosis, regulated by the inhibition of α-tubulin polymerization and elevated IL-8 cytokine levels. PL and Ac2-26 showed anti-inflammatory actions, and the Ac2-26/PL interaction appears to be neutral in relation to the anti-inflammatory properties of PL. / CNPq: 142274/2014 / CNPq UNIVERSAL: 474596/2013-3 HUVEC Anexina A1 Lipopolissacarídeo Inflamação Proliferação Apoptose Piplartina Piperlongumina Annexin A1 Lipopolysaccharide Inflammation Proliferation Apoptosis Piplartine Piperlongumine
37	Evaluation of Human Umbilical Vein Endothelial Cells in Blood Vessel Mimics Through Changes in Gene Expression and Caspase Activity Hedigan, Conor Charles 01 June 2019 (has links) Blood vessel mimics (BVMs) are simple tissue engineered blood vessel constructs intended for preclinical testing of vascular devices. This thesis developed and implemented methods to characterize two of these components. The first aim of this thesis investigated the effect of cell culture duration and flow conditions on endothelial cell gene expression, especially regarding endothelial-to-mesenchymal transition (EndMT). A trend of decreased endothelial marker gene expression and increased mesenchymal marker gene expression would indicate EndMT. qPCR analysis revealed that increased cell culture duration did not result in EndMT, and in fact increased endothelial marker expression as cell culture duration increased. Disturbed flow conditions decreased endothelial marker and increased mesenchymal marker expression relative to static culture. The second aim of this thesis developed methods to determine cytotoxicity of, and endothelial cell adhesion to, novel BTEAC salt scaffolds. Immunostaining was used to visualize these scaffold effects. The cytotoxicity elution assay showed that BTEAC salt scaffolds were not more cytotoxic than the standard PLGA scaffold. Direct contact assays spanning several timepoints also found that BTEAC salt scaffolds were not more cytotoxic than standard scaffolds but had higher endothelial cell adhesion and coverage than standard scaffolds. Overall, this thesis developed and implemented methods to characterize the endothelial cells used in the BVM model. Caspase Blood Vessel Mimics qPCR HUVEC BTEAC nanofiber scaffold Bioimaging and Biomedical Optics Biomaterials
38	Polímeros bioestables para fabricación de implantes protésicos: caracterización físico-química y respuesta biológica in vitro Campillo Fernández, Alberto José 17 November 2014 (has links) La necesidad de polímeros bioestables para fabricación de implantes protésicos queda patente, entre otros indicadores, por la proliferación de dispositivos actualmente comercializados. La caracterización físico-química así como la respuesta biológica de un conjunto de materiales poliméricos bioestables es el objetivo último de esta tesis. En este trabajo se han sintetizado diferentes materiales poliméricos de la familia de los acrilatos y metacrilatos variando sutilmente sus características superficiales, como el grado de hidrofilia o la distribución de cargas eléctricas. El procedimiento consistió en la copolimerización via radical de acrilato de etilo, EA, acrilato de 2-hidroxietilo, HEA, y ácido metacrílico, MAAc. Se ha caracterizado los materiales en estado seco y en presencia de diferentes contenidos de agua mediante calorimetría diferencial de barrido, DSC, análisis dinámico-mecánico, DMA, microscopía de fuerza atómica, AFM, análisis dieléctrico, DRS, contenido de agua en equilibrio, EWC, y energía superficial, SE, persiguiendo el objetivo de dilucidar si el agua es capaz de inducir cambios conformacionales en las cadenas poliméricas que den lugar a una separación de fases. Sobre los materiales en forma de scaffold poroso con poros esféricos interconectados se ha cultivado fibroblastos y endoteliales. La compatibilidad de las células endoteliales se midió en términos de viabilidad celular y la adecuada diferenciación endotelial y su funcionamiento. Se han realizado cultivos de células endoteliales humanas primarias, HUVEC, y se ha determinado si su morfología y función se vio afectada por el material. Se examinó la adhesión y proliferación de las mismas, así como un marcador importante de activación endotelial, la E-selectina. Se evaluó si se mantuvieron los fenotipos endoteliales normales y sus funciones observadas in vivo mediante análisis de los contactos célula-célula y la regulación de la expresión génica del marcador de activación E-selectina cuando se añadió un estímulo (LPS). Además, como posible aplicación de estos materiales en una prótesis de córnea artificial, y dado que los fibroblastos del estroma de la córnea (es decir, los queratocitos) son de relevancia en la cicatrización de la córnea se determinó cómo afectaba la hidrofilicidad del substrato a la adhesión celular de la línea de fibroblastos humanos MRC-5, como modelo celular para estudiar la disposición del citoesqueleto tras la adhesión a los diferentes soportes mediante la detección de F-actina. Asimismo, se ha sembrado células epiteliales evaluando su comportamiento/funcionamiento celular ya que uno de los requisitos esenciales para que un implante de queratoprótesis tenga éxito es que se cree y mantenga una capa de células epiteliales que impidan entrar a las bacterias al interior del ojo y permita la difusión la capa lagrimal de manera estable en el tiempo. Así, se han analizado parámetros celulares como adhesión, proliferación y viabilidad de una línea de células epiteliales de conjuntiva humana, NHC, cultivada sobre substratos poliméricos con diferentes grados de hidrofilia y cargas eléctricas superficiales buscando qué grado de hidrofilicidad permite la epitelización del substrato y podría darle al material flexibilidad y la hidrofilicidad necesaria para un mejor contacto con los párpados y lágrima. Los resultados obtenidos se han correlacionado con la adsorción y conformación de una proteína de la matriz extracelular, la fibronectina. / Campillo Fernández, AJ. (2014). Polímeros bioestables para fabricación de implantes protésicos: caracterización físico-química y respuesta biológica in vitro [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/44232 / TESIS / Premios Extraordinarios de tesis doctorales Acrylates Methacrylates Hydrogel Scaffold Copolymer networks Nanoheterogenity Hydrophobic effect Fibroblasts Epithelial cells HUVEC Fibronecti MAQUINAS Y MOTORES TERMICOS FISICA APLICADA
39	Incorporation of recombinant fibronectin into genetically engineered elastin-based polymers Balderrama, Fanor Alberto 17 November 2009 (has links) Cardiovascular disease is the main cause of death in the United States. Many of these conditions require the grafting or bypassing of compromised blood vessels. To this effect, biological vascular grafts (autografts and allografts) are the first line of action. However, when the patient lacks vasculature suitable for grafting use, several synthetic grafting options are available. The search for an inert biomaterial for vascular grafts has proven to be unsuccessful. This makes the interaction taking place on the blood-biomaterial interface critical for the success of the grafts. This thesis introduces a new bio-inspired approach to tackle the mechanical and biological challenges of vascular material design. The hypothesis of this research is that recombinant fibronectin protein can be stably incorporated onto elastin-mimetic polymers to increase endothelialization. Recombinant elastin, designed to recreate the mechanical properties of natural elastin as a candidate material for vascular graft fabrication, was used as a model surface. Recombinant fibronectin-functionalized elastin-mimetic polymer displayed significant improvement in cell adhesion. Quantification of surface bound recombinant fibronectin verified the concentration dependence of this cell adhesive behavior. Modified elastin-mimetic polymer also demonstrated an enhanced ability to support endothelial cell proliferation. Furthermore, the stability of recombinant fibronectin-modified polymers was assessed. These studies provide the foundation for fabricating elastin-mimetic vascular grafts with improved endothelialization and subsequent biological performance. Functionalization Coating Protein Crosslinking Genipin HUVEC Stability Cell proliferation Vascular graft Elastin FNIII7-10 Cell adhesion Endothelialization Endothelial Fibronectins Globulins Biomedical materials Vascular grafts
40	Evaluation of Endothelial Cell Responses to Elevated Glucose Sugerman, Gabriella 01 August 2018 (has links) Developing a tissue-engineered Blood Vessel Mimic (BVM) to represent diabetic macrovascular disease could expedite design of new vascular devices specifically tailored to diabetic patients. In contribution toward this model, this thesis assessed Human Umbilical Vein Endothelial Cell (HUVEC) responses to high glucose conditions. Interleukin 6 (IL-6) and Cluster of Differentiation 36 (CD36) were selected to signify oxidative stress activity, a hallmark of diabetic macrovascular disease. Next, activity of potential reference genes B2M, HPRT1, and ACTB was assessed. All genes were found to exceed acceptable variability, so the E-ΔC T method of data analysis was selected. Next, cellular responses to high glucose treatment at 10.5 mM glucose and 25.5 mM glucose for 7 and 14 days were measured by qPCR. IL-6 mRNA expression increased significantly (p<0.001) following treatment with 25.5 mM glucose at both timepoints. Finally, fluorescent staining for Reactive Oxygen Species (ROS) production and cell viability was performed on HUVECs treated with 10.5- and 25.5-mM glucose for 24 and 48 hours. No differences in ROS production or cell viability were detected due to uncontrolled cell damage during the two-hour staining and imaging procedure. This thesis was limited by low reaction efficiency in qPCR reactions due to mistaken purchasing of primers with included probe-quencher reporters. Measurement of reaction efficiency facilitated valid analysis of data collected using these primers. Imaging experiments were unsuccessful due to a lack of incubation equipment designated for cells undergoing live staining and imaging. Alternative imaging assessments of oxidative stress activity were proposed to circumvent this problem. endothelial qPCR gene expression HUVEC cell culture BVM Cell Biology Endocrinology, Diabetes, and Metabolism Nutritional and Metabolic Diseases

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