Global ETD Search

11	Efeito protetor do estradiol na disfunção da barreira epitelial intestinal induzida pela endotoxemia / Protective effect of estradiol on intestinal epithelial barrier dysfunction induced by endotoxemia Ribeiro, Aline Barbosa 01 March 2018 (has links) A injúria ao epitélio intestinal é uma das mais importantes complicações da sepse, associada à perda da integridade da barreira epitelial intestinal pela alteração da expressão de proteínas constituintes das tight junctions (TJ). Os dois subtipos de receptores de estrógeno são normalmente expressos na mucosa intestinal, sendo responsável pela manutenção da arquitetura do epitélio intestinal. Além disso, diversos modelos experimentais fisiopatológicos têm atribuído um papel imunomodulador ao estradiol. O objetivo do presente estudo foi avaliar a participação do estradiol na modulação da resposta inflamatória e na proteção da barreira epitelial intestinal durante a inflamação sistêmica induzida por lipopolissacarídeo (LPS; 1,5 mg/kg, i.v.) em ratas. As ratas foram ovariectomizadas e mantidas para recuperação durante 10-12 dias antes do experimento. Por três dias consecutivos, as ratas foram tratadas com cipionato de estradiol (50 ou 100 µg/kg, s.c.) ou óleo. Após 6h da indução da endotoxemia, foram avaliadas a permeabilidade intestinal pela injeção de dextrana FITC no íleo ou cólon, a translocação bacteriana nos linfonodos mesentéricos e as citocinas no plasma e na mucosa intestinal. Adicionalmente, a infiltração de mastócitos e neutrófilos foi avaliada no íleo e no cólon, a integridade das TJ e junções aderentes (JA) foi determinada por microscopia eletrônica de transmissão, e expressão das proteínas (ocludina, claudina-1, JAM-A, E-caderina) bem como suas localizações. Nossos resultados demonstraram que o estradiol reduziu a permeabilidade intestinal bem como preveniu a translocação bacteriana nos linfonodos mesentéricos induzidas pela administração de LPS. Em ratas endotoxêmicas tratadas com estradiol, as concentrações das citocinas pró-inflamatórias (TNF?, IL-6, IFN-? e IL-1?), migração de neutrófilos (atividade da mieloperoxidase) e degranulação dos mastócitos no íleo e no cólon foram reduzidas. O estradiol também reverteu a disfunção da barreira epitelial induzida pelo LPS, aumentando a expressão das proteínas das TJ, reduzindo a abertura das TJ e JA e atenuando os danos histológicos. Em conjunto, os resultados sugerem um papel protetor do estradiol, prevenindo a disfunção da barreira epitelialintestinal induzida pela inflamação sistêmica, possivelmente modulando a resposta inflamatória e a liberação de proteases de mastócitos. / Intestinal injury is one of the most important complications of sepsis, associated with the loss of integrity of the intestinal epithelial barrier due to the alteration of the expression of proteins that constitute the tight junctions (TJ). The two subtypes of estrogen receptors are normally expressed in the intestinal mucosa, being responsible for maintaining the architecture of intestinal epithelium. Moreover, several experimental pathophysiological models have been attributed the immunomodulatory role for the estradiol. The aim of the present study was to evaluate the role of estradiol in the modulation of the inflammatory response and the protection of the intestinal epithelial barrier during systemic inflammation induced for lipopolysaccharide (LPS, 1.5 mg / kg, i.v.) in rats. The female rats were ovariectomized and allowed to recover for 10-12 days before the experiment. For three consecutive days, rats were pretreated with estradiol cypionate (50 or 100 µg/kg, subcutaneous) or corn oil. At 6h after of endotoxemia induction, were evaluated the intestinal permeability by injecting FITC dextran into the ileum or colon, bacterial translocation in the mesenteric lymph nodes and plasma and intestinal mucosa cytokines levels. In addition, the infiltration of mast cells and neutrophils was evaluated in the ileum and colon, the integrity of the TJ and adherent junctions (JA) integrity was determined by transmission electron microscopy, and the protein expression (occludin, claudin-1, JAM-A, E-cadherin) as well as their localization. Our results demonstrated that estradiol reduced intestinal permeability as well as prevented bacterial translocation in the mesenteric lymph nodes induced by the LPS administration. In the endotoxemic rats treated with estradiol, the concentration of proinflammatory cytokines (TNF?, IL-6, IFN-? e IL-1?), neutrophil infiltration (myeloperoxidase activity), and mast cells degranulation were reduced in the ileum and colon. Estradiol also reverted the LPS-induced epithelial barrier dysfunction, increasing the expression of the TJ proteins, reducing TJ and AJ opening and attenuating the histological damages. Together, these results suggest a protective role for estradiol, attenuating damage to the intestinal epithelium induced by systemic inflammation, possibly due to modulation of the inflammatory response and the release of mast cells proteases. Bacterial translocation Citocinas Cytokines Estradiol Estradiol Intestinal permeability Mast cells Mastócitos Neutrófilos Neutrophils Permeabilidade intestinal Sepse Sepsis Tight junctions Tight junctions Translocação bacteriana
12	Untersuchungen zur affinitäts-basierten Aufreinigung von tight junction-proteinen und deren potentiellen Interaktionspartnern Lohrberg, Dörte 22 April 2009 (has links) Die Epithelien vielzelliger Organismen bilden eine funktionelle Grenzschicht, die für die Homöostase innerhalb und für den spezifischen Stoffaustausch zwischen den Kompartimenten verantwortlich ist. Der interzelluläre Spalt zwischen Epithelzellen wird durch tight junctions verschlossen, die eine selektive Permeabilitätsbarriere bilden. Da viele Krankheiten auf eine Dysfunktion der Barriere zurückzuführen sind, ist eine genaue Kenntnis der molekularen Zusammensetzung der tight junctions aus pharmakologischer Sicht von großem Interesse. In dieser Arbeit wurden Anreicherungsstrategien entwickelt, die eine Proteomanalyse der tight junction-Proteine erlauben. Der Fokus wurde dabei auf die Claudine und Tricellulin gelegt, die als transmembranale Proteine das molekulare Rückgrat der tight junctions bilden. Durch Affinitätsreinigung gelang erstmals eine Anreicherung verschiedener Claudine, die durch Massenspektrometrie identifiziert wurden. Die metabolische Markierung der Proteine mit stabilen Isotopen (SILAC) erlaubte die quantitative Diskriminierung von Proteinen, die unspezifisch an das Matrixmaterial banden. Von den potentiellen Interaktionspartnern der Claudine wurden Integrin-a3, SUMO-1 und Sphingosinkinase 2 ausgewählt, um deren Interaktion mit Claudinen weiter zu verifizieren. Es wurden keine Hinweise auf Wechselwirkungen zwischen Claudinen und Integrin-a3 sowie SUMO-1 gefunden, während die Interaktion von Claudinen mit Sphingosinkinase 2 weder bestätigt noch ausgeschlossen werden konnte. Ferner wurde eine Affinitätsreinigung durchgeführt, um Interaktionspartner von Tricellulin anzureichern. Durch die quantitative massenspektrometrische Analyse wurde ausschließlich Claudin-4 nicht aber Claudin-3 und 7 als potentieller, spezifischer Interaktionspartner von Tricellulin identifiziert. Es wurde aber gezeigt, dass die Kombination aus Affinitätsreinigung und quantitativer Massenspektrometrie einen wertvollen Beitrag zur Entschlüsselung von Protein-Komplexen leisten kann. / Epithelia function as specialized barriers that separate different compartments within multicellular organisms and regulate the specific exchange of substances between them. The intercellular space between adjacent epithelial cells is sealed by tight junctions forming a permeability barrier. Dysregulation of the barrier occurs in a variety of diseases. Hence, a deeper knowledge is required of the molecular composition of tight junctions, in particular with respect to pharmacological applications. In the present study, new enrichment strategies have been established that allow the proteomic analysis of tight junction proteins. Special emphasis was placed on claudins and tricellulin as these transmembrane proteins constitute the molecular backbone of the tight junctions. For the first time, using an affinity purification, the enrichment of several claudins was accomplished that were identified by mass spectrometry. The metabolic labeling of proteins with stable isotopes (SILAC) allowed the quantitative discrimination of proteins that bound unspecifically to the matrix. Integrin-a3, SUMO 1 and sphingosin kinase 2 were chosen for further verifications from the proteins considered to potentially interact with claudins. While there was no evidence for an association of claudins with integrin-a3 and SUMO-1, an interaction of claudins with sphingosin kinase 2 could be neither confirmed nor disproved. Furthermore, an affinity purification was performed in order to enrich interaction partners of tricellulin. Claudin-4 was identified as a specific, potential interaction partner of tricellulin by quantitative mass spectrometric analysis whereas claudin 3 and -7 were determined to be enriched unspecifically. The present study demonstrates that a combination of affinity purification and quantitative mass spectrometry can substantially contribute to the elucidation of protein complexes. Proteom tight junctions Affinitätsreinigung SILAC proteome tight junctions affinity purification SILAC 570 Biowissenschaften, Biologie 32 Biologie WC 4170 WE 5160 ddc:570
13	Die funktionelle Bedeutung des Coxsackie- und Adenovirus Rezeptors (CAR) im kolorektalen Karzinom / Functional role of the Coxsackie and Adenovirus Receptor (CAR) in colorectal carcinomas Küster, Katrin January 2009 (has links) Der Coxsackie- und Adenovirus Rezeptor (CAR) ist als Bestandteil von Tight Junctions (TJ) an interzellulären Adhäsionsprozessen beteiligt und scheint eine wichtige Rolle in der Karzinogenese zu spielen. Diese ist jedoch insbesondere bei Entstehung von Darmkrebs weitgehend unklar. Ziel der Arbeit war es daher, die funktionelle Bedeutung, mögliche Interaktionspartner sowie die Expressionsregulation von CAR im kolorektalen Karzinom zu analysieren. In den Zelllinien CaCo2, Colo205, DLD1, HCT116, HT29, SW480 und T84 konnte die Expression von CAR (mRNA und Protein) nachgewiesen werden. Nach stabiler CAR-Überexpression durch Transfektion von CARcDNA in DLD1, HCT116 und SW480 wurde das Zellwachstum gehemmt und eine Abnahme von Migration und Invasion induziert. Eine stabile CAR-Inhibition nach Transfektion von CARsiRNA führte in diesen Zelllinien zum Anstieg der Proliferation sowie zu verstärkter Migrations- und Invasionsaktivität, die in DLD1 mit morphologischen Änderungen einhergingen. Eine Genexpressionsanalyse der Zelllinie DLD1 mit CAR-Inhibition identifizierte α-Catenin als das am stärksten regulierte Gen. Obwohl keine direkte Interaktion beider Proteine detektiert werden konnte, führte eine stabile Re-Expression von α-Catenin in DLD1 mit stabiler CAR-Inhibition zu einer deutlichen Reduktion von Proliferation, Migration und Invasion sowie zu einem Rückgang der zellmorphologischen Änderungen. Um den Einfluss von Differenzierung auf die Regulation der CAR-Expression zu untersuchen, erfolgte eine Behandlung aller Zelllinien mit Natriumbutyrat. Dies führte in fünf der sieben Zelllinien zu einer Aktivierung des CAR-Promotors sowie zu einer gesteigerten Expression und Immunoreaktivität von CAR an der Zelloberfläche. Die Zelllinie CaCo2 zeigte nach spontaner Differenzierung durch 21-tägiges Wachstum post Konfluenz ebenfalls eine verstärkte CAR-mRNA-Expression sowie eine erhöhte CAR-Präsenz an der Zelloberfläche. Die gewonnenen Daten konnten die funktionelle Bedeutung von CAR für die Kolonkarzinogenese sowie den Einfluss von α-Catenin auf diese Funktion deutlich machen. Es wurde gezeigt, dass die Expressionsregulation sowie die subzelluläre Verteilung von CAR durch den zellulären Differenzierungsstatus beeinflusst werden kann. / The Coxsackie and Adenovirus Receptor (CAR) is a transmembrane compound of the tight junctions in polarized epithelial cells mediating cellular adhesion. CAR was suggested to play a functional role in the development of epithelial malignomas but detailed knowledge is still lacking, especially for the colorectal carcinoma. Therefore, the functional impact and regulation of CAR expression in human colorectal carcinoma cell models were investigated. CAR protein and mRNA was detectable in the cell lines CaCo2, Colo205, DLD1, HCT116, HT29, SW480 and T84. Stable CAR over expression by transfection of CARcDNA in DLD1, HCT116 and SW480 led to reduced proliferation in vitro and in vivo. Also reduced migration and invasion were observed. Stable CAR inhibition by transfection of CARsiRNA in the same cell lines resulted in increased migration and invasion. In DLD1 morphological changes were found after CAR inhibition. Differential gene expression was detected in DLD1 cells with stable CAR inhibition revealing an 18-fold decrease in α-Catenin gene expression. Loss of α-Catenin was obtained on protein level, too. Although no direct interaction between CAR and α-Catenin could be proven ectopic re-expression of α-Catenin in DLD1 with CAR inhibition reversed the determined functional and morphological effects of a CAR knock down. Then, the impact of differentiation on regulation of CAR expression was investigated. Sodium butyrate treatment induced differentiation in all cell lines (determined by alkaline phosphatase activity), which was paralleled by an increase of CAR immunoreactivity at the plasma membrane in all cell lines but CaCo2. However, CAR protein and mRNA expression, as well as CAR gene promoter activity increased in 5 cell lines only, whereas in SW480 and CaCo2 a down regulation was observed. Spontaneous differentiation of CaCo2 after a growth period of 21 days post confluence resulted in up regulation of CAR mRNA expression as well as increased CAR presence at the plasma membrane. The data suggest that CAR plays a crucial role in the carcinogenesis of colorectal carcinoma which could be influenced by α-Catenin interaction. Differentiation determines the regulation of CAR expression and the subcellular distribution of CAR in colon cancer cells. Coxsackie- und Adenovirus Rezeptor kolorektales Karzinom Tight Junctions alpha-Catenin Differenzierung Coxsackie and Adenovirus Receptor colorectal carcinoma tight junctions alpha-Catenin differentiation Natural sciences and mathematics
14	Efeito protetor do estradiol na disfunção da barreira epitelial intestinal induzida pela endotoxemia / Protective effect of estradiol on intestinal epithelial barrier dysfunction induced by endotoxemia Aline Barbosa Ribeiro 01 March 2018 (has links) A injúria ao epitélio intestinal é uma das mais importantes complicações da sepse, associada à perda da integridade da barreira epitelial intestinal pela alteração da expressão de proteínas constituintes das tight junctions (TJ). Os dois subtipos de receptores de estrógeno são normalmente expressos na mucosa intestinal, sendo responsável pela manutenção da arquitetura do epitélio intestinal. Além disso, diversos modelos experimentais fisiopatológicos têm atribuído um papel imunomodulador ao estradiol. O objetivo do presente estudo foi avaliar a participação do estradiol na modulação da resposta inflamatória e na proteção da barreira epitelial intestinal durante a inflamação sistêmica induzida por lipopolissacarídeo (LPS; 1,5 mg/kg, i.v.) em ratas. As ratas foram ovariectomizadas e mantidas para recuperação durante 10-12 dias antes do experimento. Por três dias consecutivos, as ratas foram tratadas com cipionato de estradiol (50 ou 100 µg/kg, s.c.) ou óleo. Após 6h da indução da endotoxemia, foram avaliadas a permeabilidade intestinal pela injeção de dextrana FITC no íleo ou cólon, a translocação bacteriana nos linfonodos mesentéricos e as citocinas no plasma e na mucosa intestinal. Adicionalmente, a infiltração de mastócitos e neutrófilos foi avaliada no íleo e no cólon, a integridade das TJ e junções aderentes (JA) foi determinada por microscopia eletrônica de transmissão, e expressão das proteínas (ocludina, claudina-1, JAM-A, E-caderina) bem como suas localizações. Nossos resultados demonstraram que o estradiol reduziu a permeabilidade intestinal bem como preveniu a translocação bacteriana nos linfonodos mesentéricos induzidas pela administração de LPS. Em ratas endotoxêmicas tratadas com estradiol, as concentrações das citocinas pró-inflamatórias (TNF?, IL-6, IFN-? e IL-1?), migração de neutrófilos (atividade da mieloperoxidase) e degranulação dos mastócitos no íleo e no cólon foram reduzidas. O estradiol também reverteu a disfunção da barreira epitelial induzida pelo LPS, aumentando a expressão das proteínas das TJ, reduzindo a abertura das TJ e JA e atenuando os danos histológicos. Em conjunto, os resultados sugerem um papel protetor do estradiol, prevenindo a disfunção da barreira epitelialintestinal induzida pela inflamação sistêmica, possivelmente modulando a resposta inflamatória e a liberação de proteases de mastócitos. / Intestinal injury is one of the most important complications of sepsis, associated with the loss of integrity of the intestinal epithelial barrier due to the alteration of the expression of proteins that constitute the tight junctions (TJ). The two subtypes of estrogen receptors are normally expressed in the intestinal mucosa, being responsible for maintaining the architecture of intestinal epithelium. Moreover, several experimental pathophysiological models have been attributed the immunomodulatory role for the estradiol. The aim of the present study was to evaluate the role of estradiol in the modulation of the inflammatory response and the protection of the intestinal epithelial barrier during systemic inflammation induced for lipopolysaccharide (LPS, 1.5 mg / kg, i.v.) in rats. The female rats were ovariectomized and allowed to recover for 10-12 days before the experiment. For three consecutive days, rats were pretreated with estradiol cypionate (50 or 100 µg/kg, subcutaneous) or corn oil. At 6h after of endotoxemia induction, were evaluated the intestinal permeability by injecting FITC dextran into the ileum or colon, bacterial translocation in the mesenteric lymph nodes and plasma and intestinal mucosa cytokines levels. In addition, the infiltration of mast cells and neutrophils was evaluated in the ileum and colon, the integrity of the TJ and adherent junctions (JA) integrity was determined by transmission electron microscopy, and the protein expression (occludin, claudin-1, JAM-A, E-cadherin) as well as their localization. Our results demonstrated that estradiol reduced intestinal permeability as well as prevented bacterial translocation in the mesenteric lymph nodes induced by the LPS administration. In the endotoxemic rats treated with estradiol, the concentration of proinflammatory cytokines (TNF?, IL-6, IFN-? e IL-1?), neutrophil infiltration (myeloperoxidase activity), and mast cells degranulation were reduced in the ileum and colon. Estradiol also reverted the LPS-induced epithelial barrier dysfunction, increasing the expression of the TJ proteins, reducing TJ and AJ opening and attenuating the histological damages. Together, these results suggest a protective role for estradiol, attenuating damage to the intestinal epithelium induced by systemic inflammation, possibly due to modulation of the inflammatory response and the release of mast cells proteases. Citocinas Estradiol Mastócitos Neutrófilos Permeabilidade intestinal Sepse Tight junctions Translocação bacteriana Bacterial translocation Cytokines Estradiol Intestinal permeability Mast cells Neutrophils Sepsis Tight junctions
15	Obesogenic molecules breaching Caco-2 cells : intracellular regulation of tight junctions Hagelby Edström, Tim January 2016 (has links) Impaired function of the human intestinal epithelial barrier (IEB) might allow for permeability of harmful substances, such as obesogens, which induce obesity and further implications. Tight junction (TJ) proteins are the key component for normal functions of the barrier. In this master thesis, the correlation between increased TJ permeability of the IEB and absorption of obesogens was studied. The effect of obesogens on TJ expression was also investigated. Permeability tests performed on Caco-2 cell monolayers exposed to obesogens showed altered permeability, indicating that obesogens might have an effect on TJ protein expression. Furthermore, impaired monolayers showed increased permeability, which implies that impaired functions of IEB lead to increased absorption of obesogens. Obesogens Bisphenol A Bisphenol AF Imidacloprid Tributyltin chloride Caco-2 Tight junctions
16	The novel function of sJAM-C in promoting cytoskeleton rearrangement and migration in mammary epithelial cells Unknown Date (has links) Soluble form of Junctional adhesion molecule C (sJAM-C) has been identified to cause angiogenesis as well as chemotaxis in endothelial cells. However, the role of sJAM-C in the context of cancer has not been elucidated. Our atomic force microscopy (AFM) stiffness measurements of normal mammary epithelial cells (MCF 10A) have shown a two-fold decrease in cell's stiffness in response to sJAM-C. Changes in cell stiffness are indicative of modulations in a cell's mechanical properties. Our results indicated that sJAM-C increased the MCF 10A cell migration about two-fold and also promoted a three-fold increase in chemotaxis. Additionally, sJAM-C treatment resulted in considerable filamentous-actin loss and peripheral actin ring breakage. We also found activation of Rho signaling pathway to be the main mechanism behind sJAM-C mediated alterations in MCF 10A cell cytoskeleton and motility. Our data present for the first time that sJAM-C is a pro metastatic mediator for normal mammary epithelial cells. / by Anila Qureshi. / Thesis (M.S.)--Florida Atlantic University, 2012. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader. Tight junctions (Cell biology) Cell interaction Cell junction Cell adhesion Microcirculation
17	Influência da superexpressão da claudina-3 na radiorresposta de células de câncer de cólon / The effect of overexpression of claudin-3 on colon cancer cell response to radiation Natalia Fortunato de Miranda 28 April 2015 (has links) Fundação Carlos Chagas Filho de Amparo a Pesquisa do Estado do Rio de Janeiro / O câncer colorretal (CCR) é o terceiro tipo de câncer mais incidente no mundo para o sexo masculino, o segundo para o sexo feminino e a radioterapia é um dos tratamentos de primeira linha no combate a este tipo de câncer. Durante a progressão do CCR as células sofrem alterações morfogenéticas, sendo a desorganização do complexo juncional apical (CJA) um dos eventos iniciais desse processo. As junções oclusivas (JTs) são um dos principais componentes da CJA e desempenham papel importante no controle do fluxo paracelular, na determinação da polaridade celular e na transdução de sinais relacionados com a progressão tumoral. As claudinas são proteínas transmembrana, constituintes das JTs e cumprem um importante papel no controle desses eventos. Alterações na expressão das claudinas são observadas em tumores de diferentes órgãos e têm sido relacionadas com a progressão tumoral. No entanto os mecanismos que regulam essas alterações e sua consequência na progressão do CCR são poucos conhecidos. Desta forma, o presente estudo teve como objetivo avaliar a influência da superexpressão da claudina-3 na radiorresposta de células CCR. Nossos resultados mostraram que a superexpressão de claudina-3 minimiza alterações morfológicas causadas pela radiação, causa diminuição da resistência elétrica transepitelial e não tem efeito na permeabilidade a macromoléculas após a irradiação. Além disso, observamos que a superexpressão de claudina-3 aumenta o potencial proliferativo das células e que esta característica torna as células mais sensíveis a radiação. Porém quando avaliamos eventos celulares relacionados a progressão tumoral observamos que apesar da radiação diminuir a capacidade migratória das progênies, as células que superexpressam claudina-3 apresentam migração mais elevada. Além disso, verificamos que a superexpressão de claudina-3 diminui a invasão e a capacidade de formação de colônias frente ao tratamento com a radiação. Em seguida fomos avaliar o efeito da inibição das vias de proliferação (MEK/ERK) e sobrevivência (PI3K-Akt) na resposta das células que superexpressam claudina-3 frente a radiação. Observamos que a inibição de MEK é capaz de sensibilizar as células que superexpressam claudina-3 à radiação no ensaio de proliferação celular, no entanto a inibição de MEK e PI3K antes da exposição à radiação é capaz aumentar a migração e a capacidade de formação de colônias de células que superexpressam claudina-3 contribuindo para o aumento do potencial maligno. Em conjunto nossos resultados mostram que a superexpressão de claudina-3 contribui para um fenótipo mais maligno, no entanto frente ao tratamento com a radiação é capaz de sensibilizar as células. / Colorectal cancer (CRC) is the third more incident cancer for males, the second for females worldwide and radiotherapy is one of the first-line treatments to fighting this type of cancer. During the progression of CRC cells undergo morphogenetic alterations and the apical junctional complex disorganization (AJC) is one of the initial events of this process. The tight junctions (TJs) is a major component of AJC and play an important role in paracellular flux control, determination of cell polarity and in signal transduction related to tumor progression. Claudins are transmembrane proteins, members of TJs and play an important role on these events. Changes on claudins expression are found in tumors of different organs and have been associated with tumor progression. However the mechanisms that regulate these changes and their consequences in the CRC progression are not completely understood. Thus, this study aimed to evaluate the influence of claudin-3 overexpression on cellular response after radiation treatment of CRC cells. Our results show that claudin-3 overexpression minimizes morphological changes caused by the radiation, decrease transepithelial electrical resistance, and has no effect on macromolecules permeability after irradiation. Moreover, we observed that claudin-3 overexpression increases the proliferation rate of cells and that this feature makes the cells more sensitive to radiation. However, when evaluating the cellular events associated tumor progression we observed that despite decrease on migratory capacity caused by radiation, cells that overexpress claudin-3 have higher migration. In addition, we found that claudin-3 overexpression decreases the invasion and the capacity to form colonies after treatment with radiation. Then we evaluate the effect of inhibition of proliferation (MEK / ERK) and survival (PI3K-Akt) pathways in cells that overexpress claudin-3 in the response to radiation. We observed that inhibition of MEK could sensitize cells overexpressing claudin-3 radiation on cell proliferation assay, but the inhibition of MEK and PI3K before radiation exposure can increase the migration and colony forming ability cells overexpressing claudin-3 contributes to the increase of malignant potential. Altogether, our results show that claudin-3 overexpression contributes to a more malignant phenotype, however, claudin-3 overexpression is able to sensitize the cells to radiation. Câncer colorretal Junções oclusiva Claudina Radiação Colorrectal cancer Tight junctions Claudin Radiation CITOLOGIA E BIOLOGIA CELULAR
18	Avaliação da expressão gênica de tight junctions intestinais em modelos experimentais de esteatose hepática alcoólica e não alcoólica em zebrafish (Danio rerio) Beskow, Carolina Bortolin January 2017 (has links) Introdução: A doença hepática alcóolica (DHA) e a doença hepática gordurosa não alcóolica (DHGNA) estão entre as principais causas de morte por doenças hepáticas no mundo. Apesar das etiologias distintas, sendo a DHA causada pelo consumo excessivo de álcool e a DHGNA por dieta inadequada e sedentarismo, apresentam curso de doença semelhante, que pode evoluir de esteatose, para esteato-hepatite, fibrose, cirrose e carcinoma hepatocelular. Tanto a DHA quanto a DHGNA estão relacionadas à disbiose, aumento de permeabilidade intestinal, inflamação e dano hepático. Entretanto, ainda não está claro se a doença hepática precede as alterações no epitélio intestinal ou se é o aumento da permeabilidade que promove o dano hepático. Objetivo: Avaliar a expressão gênica de Tight Junctions em modelo de DHA e DHGNA em zebrafish (Danio rerio). Métodos: No modelo de DHA, os peixes foram divididos em dois grupos: Etanol (n=30), expostos a 0,5% de etanol por 28 dias e controle (n=30). No modelo de DHGNA, os peixes foram divididos também em dois grupos: Frutose (n=24), expostos à frutose 6% durante 2 horas por 14 dias e controle (n=24). Ao término dos experimentos os animais foram eutanasiados e coletados fígados, para avaliação histológica por coloração hematoxilina-eosina (HE) e de esteatose por Oil Red, e intestinos para avaliação da expressão gênica dos marcadores de permeabilidade intestinal cldnC, cldn15a, cldn15b e f11r por Real Time qPcr. Resultados: Tanto os animais expostos ao álcool quanto à frutose apresentaram esteatose hepática por coloração HE e Oil Red quando comparados aos seus respectivos controles, sem sinais de infiltrados inflamatórios e de fibrose hepática à microscopia óptica. Não houve diferença significativa na expressão gênica das tight junctions intestinais, tanto para a DHA quanto DHGNA (p  0,05). Conclusão: Os resultados sugerem que em estágios iniciais de DHA e DHGNA não ocorre alteração da permeabilidade intestinal, e que possivelmente o dano hepático precede o dano intestinal. / Introduction: Alcoholic liver disease (ALD) and non-alcoholic fatty liver disease (NAFLD) are among the leading causes of death from liver disease worldwide. Despite the different etiologies, ALD is caused by excessive alcohol consumption and NAFLD is due to inadequate diet and sedentary lifestyle, they have a similar disease course, which can progress from steatosis to steatohepatitis, fibrosis, cirrhosis and hepatocellular carcinoma. Both ALD and NAFLD are related to dysbiosis, increased gut permeability, inflammation, and liver damage. However, it is not yet clear whether liver disease precedes changes in the intestinal epithelium or whether it is the increased permeability that promotes liver damage. Objective: To evaluate the gene expression of tight junctions in ALD and NAFLD models in zebrafish (Danio rerio). Methods: In the ALD model, fish were divided into two groups: Ethanol (n=30), exposed to 0.5% ethanol for 28 days and control (n=30). In the NAFLD model, fish were also divided into two groups: Fructose (n=24), exposed to 6% fructose for 2 hours for 14 days and control (n=24). At the end of the experiments the animals were euthanized and livers were collected for histological evaluation by hematoxylin-eosin (HE) staining and steatosis by oil red staining and intestines for evaluation of the gene expression of gut permeability markers cldnC, cldn15a, cldn15b and f11r by Real Time qPcr. Results: Both animals exposed to alcohol and fructose presented hepatic steatosis by HE and Oil Red staining when compared to their respective controls, without signs of inflammatory infiltrates under optical microscopy. There was no significant difference in the gene expression of the tight junctions for both ALD and NAFLD (p0.05) Conclusion: The results suggest that in the early stages of ALD and NAFLD there are no changes in intestinal tight junctions, and that possibly liver damage precedes intestinal damage. Hepatopatias Frutose Etanol Figado gorduroso Junções íntimas Hepatic steatosis Zebrafish Fructose Ethanol Tight Junctions
19	Mechanisms for and Effects of Airway Epithelial Damage in Asthma Relova, Anne-Jacqueline January 2002 (has links) <p>The airway epithelium plays a crucial role in protecting the underlying connective tissue (CT) from noxious agents. Damage and shedding of the epithelium are observed in the airways of asthma, cystic fibrosis and rhinitis patients. The aim of this study was to investigate the mechanisms by which epithelial damage occurs, and the consequences of such damage for the inflammatory process in the airways. In this study, cultured normal human bronchial epithelial cells, excised rat tracheae, and cultured murine mast cells were used as model systems. Metabolic alterations, morphological changes and cell-cell contact stabilities were investigated.</p><p>The T-helper (Th)-1 cytokines, tumor necrosis factor-alpha (TNF-α), interferon-gamma (IFN-γ), and interleukin (IL)-1β were found to be pro-inflammatory, leading to major morphological changes, inhibitions in desmosome formation, and accelerated cell death. The Th2 cytokines, IL-4, IL-5, and IL-13 were found to cause no changes in cell death, nitric oxide levels and desmosome formation but instead an increase in proliferation, therefore were anti-inflammatory in this respect.</p><p>Increasing the osmolarity of the airway surface liquid (ASL) altered the integrity of the tight junction (TJ) and allowed a 4-kDa compound to penetrate the epithelial layer and access the CT. This effect was reversible if the ASL was returned to 295 mOsm. Intentionally breaking the TJ with EGTA and subsequent osmolar changes in ASL demonstrated the importance of TJ and the fragility of the CT under hyperosmolar stress, leading to a disrupted CT with larger capillaries and altered elemental ion content and epithelial denudation. </p><p>Hydrocortisone was shown to downregulate IL-4-induced IL-6 upregulation in murine mast cells. Furthermore, incubating mast cells with hydrocortisone lead to a new subpopulation that was morphologically unique, that displayed new cell surface markers (CD44 and CD61) and that lacked CD54. These changes modify the interactions of mast cells with surrounding cells in the CT and epithelium.</p><p>In conclusion, the balance between pro- and anti-inflammatory cytokines and ASL osmolarity may influence the role of the airway epithelium as a barrier. The pharmacological use of hyperosmolarity to disrupt TJ reversibly may help facilitate the delivery of drugs through the airway epithelium.</p> Cell biology asthma airways cytokines epithelium tight junctions mast cells Cellbiologi Cell biology Cellbiologi
20	New Approaches to Studies of Paracellular Drug Transport in Intestinal Epithelial Cell Monolayers Tavelin, Staffan January 2003 (has links) <p>Studies of intestinal drug permeability have traditionally been performed in the colon-derived Caco-2 cell model. However, the permeability of these cell monolayers resembles that of the colon rather than that of the small intestine, which is the major site of drug absorption following oral administration. One aim of this thesis was therefore to develop a new cell culture model that mimics the permeability of the small intestine. 2/4/A1 cells are conditionally immortalized with a temperature sensitive mutant of SV40T. These cells proliferate and form multilayers at 33°C. At cultivation temperatures of 37 – 39°C, they stop proliferating and form monolayers. 2/4/A1 cells cultivated on permeable supports expressed functional tight junctions. The barrier properties of the tight junctions such as transepithelial electrical resistance and permeability to hydrophilic markers resembled those of the human small intestine <i>in vivo</i>. These cells lacked functional expression of drug transport proteins and can therefore be used as a model to study passive drug permeability unbiased by active transport. The permeability to diverse sets of drugs in 2/4/A1 was comparable to that of the human <i>jejunum</i> for both incompletely and completely absorbed drugs, and the prediction of human intestinal permeability was better in 2/4/A1 than in Caco-2 for incompletely absorbed drugs. The small intestinal-like paracellular permeability of 2/4/A1 thus enables better predictions of drug permeability in the small intestine than does Caco-2. </p><p>The studies of the paracellular route and its importance for intestinal drug permeability was also in focus in the second part of this thesis, in which a new principle for tight junction modulation was developed, based on the primary structure of the extracellular tight junction protein occludin. Peptides corresponding to the N-terminus of the first extracellular loop increased the permeability of the tight junctions, but lacked apical effect. This problem was solved by conjugation of one peptide to a lipoamino acid, resulting in two diastereomers with different effects. The L-isomer had a sustained apical effect, while that of the D-isomer was transient. In conclusion, conjugated occludin peptides constitute a new class of tight junction modulators that can enhance the tight junction permeability.</p> Pharmaceutics intestinal epithelium tight junctions cell culture Galenisk farmaci Pharmaceutics Galenisk farmaci

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