Global ETD Search

11	Laminin-332-Mediated Proliferation Control: Mechanisms Regulating Formation of the Epithelium Buschmann, Mary McVey 30 September 2010 (has links) No description available. Cellular Biology Laminin-332 Extracellular Matrix Epithelia MDCK Proliferation
12	Roles of the Rac/Cdc42 effector proteins Pak and PIX in cytokinesis, ciliogenesis, and cyst formation in renal epithelial cells Puglise, Jason Matthew January 2010 (has links) No description available. Cellular Biology Pak1 PIX ciliogenesis cytokinesis epithelial morphogenesis MDCK cells
13	The Role of Prominin-1 in the Architecture and Dynamics of Microvilli and Primary Cilia Thamm, Kristina 15 January 2018 (has links) Prominin-1 is a lipid raft–associated, cholesterol-binding membrane glycoprotein selectively associated with plasma membrane protrusions and extracellular vesicles derived therefrom. Despite its worldwide use for stem cell isolation and its clinical importance in cancer-initiating cells and photoreceptor morphogenesis the function of prominin-1 remains elusive. This prompted me to investigate its role in the architecture and dynamics of microvilli and primary cilia at the apical plasma membrane of Madin-Darby canine kidney (MDCK) cells. Therefore, stably transfected cell lines were established expressing human prominin-1 splice variant 1 or 2. Upon the overexpression of prominin-1 the number of individual microvilli and clusters of them increased significantly. I also noticed alterations in their architecture, i.e. branching microvilli. Fascinatingly, two point mutations (Pro37→Ala and Tyr41→Ser) in the ganglioside GM1-binding motif of prominin-1 increased the number of branched microvilli and generated irregular ones with knob-like structures at their tip. Additionally, the release of prominin-1+ vesicles was impaired. Interestingly, both phenotypes were suppressed by the inhibition of the phosphoinositide 3-kinase (PI3K) or the Arp2/3 complex. Impaired interaction of prominin-1 with the PI3K through the introduction of an additional mutation (Tyr828→Phe) in its PI3K-binding site also reduced the amount of structurally altered microvilli. Thus, the interaction of prominin-1 with the PI3K may drive the conversion of the docking phospholipid phosphatidylinositol(4,5)-bisphosphate into phosphatidylinositol(3,4,5)-trisphosphate resulting in the uncoupling of the microvillar membrane from the underlying actin filaments thereby creating irregular/knob-like microvilli. Simultaneously, the phospholipid conversion might modulate the activity of regulators and/or activators of the Arp2/3 complex leading to the branching of microvilli. The overexpression of human prominin-1 also increased the length of primary cilia. Remarkably, a mutation in the histone deacetylase 6-binding site that mimics acetylation produces shorter cilia in cells expressing human prominin-1.s2. Additionally, it stimulates membrane vesicle release and dome formation. Above these striking observations, I observed branching cilia and cilia with a pearling shape. Collectively, the data suggest that a complex interplay of prominin-1 with its lipid and protein interaction partners regulates the architecture and dynamics of cellular protrusions. Finally, a growing number of studies use canine prominin-1 as an antigenic marker despite the absence of specific antibodies. Studies investigating its expression in dog tissues or cells derived therefrom rely on antibodies directed against its human and murine orthologs. To determine its cross-species immunoreactivity I cloned canine prominin-1 and overexpressed it as a green fluorescent protein fusion protein in MDCK cells. Here, I show that the genomic structure of the canine prom1 gene is similar to that of human and mouse. Canine prominin-1 shows the common characteristics of the prominin-1 family but the primary structure is poorly conserved. Like human and mouse protein, it is targeted to the apical membrane of MDCK cells and specifically enriched in microvilli and primary cilia. Immunocytochemistry, flow cytometry and immunoblotting techniques revealed that none of the applied antibodies against human or mouse prominin-1 recognizes the canine protein. Prominin-1 MDCK Zilium Mikrovilli PI3K Arp2/3 prominin-1 MDCK cilium microvilli PI3K Arp2/3 ddc:570 rvk:WD 5100
14	Effets de la protéine core du virus de l’Hépatite C sur la polarité cellulaire dans les cellules épithéliales, importance de la phosphatase SHIP2 / Hepatitis C Virus Core Protein Effect on Epithelial Cell polarity, Importance of SHIP2 Phosphatase Awad, Aline 11 December 2014 (has links) Le VHC infecte les hépatocytes, cellules polarisées du foie. Le cycle de réplication du VHC est dépendant du métabolisme lipidique de la cellule hôte. Mais la relation entre VHC, polarité cellulaire et métabolisme lipidique est mal connue. Nous avons démontré que SHIP2 joue un rȏle important dans l’établissement de la polarité apicobasale des cellules épithéliales. La protéine core du HCV induit la perte de polarité cellulaire et diminue l’expression de la phosphatase SHIP2. La réintroduction de SHIP2 dans les cellules exprimant core restitue la polarité cellulaire et diminue l’expression de core. SHIP2 agit aussi sur l’accumulation et l’organisation des gouttelettes lipidiques qui sont des éléments cellulaires nécessaires à la réplication du VHC. Ces résultats montrent le rôle de SHIP2 dans la polarité cellulaire et le désigne comme une cible intéressante pour des recherches dans la lutte contre les infections du VHC. / HCV infects hepatocytes, polarized cells of the liver. HCV replication cycle is dependent on lipid metabolism of the host cell. But the relationship between HCV cell polarity and lipid metabolism is unknown. We demonstrated that SHIP2 plays an important role in establishment of the apicobasal epithelial cell polarity. The HCV core protein induces loss of cell polarity and decreases the expression of the phosphatase SHIP2. The reintroduction of SHIP2 in cells expressing core restores cell polarity and decreases the expression of core protein. SHIP2 also negatively affect lipid droplets, which are important for HCV replication. These results show the role of SHIP2 in cell polarity and designate it as an attractive target for research in the fight against HCV infection. Virus de l’hépatite C Cancer SHIP2 Core Polarité cellulaire MDCK Huh7 PI3K P110δ Gouttelettes lipidiques Hepatitis C virus Cancer SHIP2 Core Cell polarity MDCK Huh7 PI3K P110δ Lipid droplets
15	Papel da proteína quinase C (PKC) na modulação da isoforma 1 do permutador Na+ - H+ (NHE1), em células MDCK. / Role of PKC on exchanger isoform 1 (NHE1), modulation in MDCK cells. Figueiredo, Claudia Ferreira dos Santos Ruiz 31 March 2008 (has links) O presente trabalho visa contribuir para o esclarecimento da seqüência de eventos intracelulares produzidos pelas PKCs a e e, na modulação do pHi, via NHE1. Os estudos foram realizados em células MDCK e as medidas de pHi efetuadas por microscopia de fluorescência. A expressão das PKCs a e e, bem como do NHE1 foi investigada por western blot, utilizando anticorpos específicos para cada proteína. Os estudos foram realizados na situação controle ou na vigência de PMA ou ANG II, AVP e /ou inibidores específicos para cada receptor hormonal ou isoforma de PKC. Nossos resultados indicam que PMA (10-7 M) estimula a recuperação do pHi, por modular a atividade das PKCs a e e. ANG II e AVP em concentrações fisiológicas estimulam a recuperação do pHi após sobrecarga ácida, concomitante com o aumento da fosforilação da PKC a. Em concentração elevada, ambos hormônios não alteram estes parâmetros. O efeito de ANG II ou de AVP depende da interação de cada hormônio com receptores específicos para modular as vias de sinalização celular envolvidas com o aumento dos níveis de diacilglicerol, cálcio citosólico e AMPc. / The purpose of this work was to investigate the signaling events of PKCs a e e on the NHE1 activity. The effect of phorbol 12-myristate 13-acetate (PMA), angiotensin II (ANG II) or arginine vasopressin (AVP) on the intracellular pH (pHi) was investigated in MDCK cells by using the fluorescence microscopy and fluorescent probe BCECF/AM. The NHE1 or PKCs a e e expression was examined by western blot and specific antibodies. Our results indicate that PMA (10-7 M) or low concentration of ANG II and AVP induced a significant increase of pH recovery rate and PKC a expression, after intracellular acidification with NH4Cl pulse. ANG II or AVP did not change the PKC a expression. However, in right concentration, both hormones did not change these parameter. In conclusion, the effect of ANG II and AVP on NHE1 activity, depend of specifics membrane receptors and cellular signaling of intracellular calcium, DAG and PKCs a and e. Angiotensin II Angiotensina II Arginin vasopressin Arginina vasopressina Células MDCK Isoformas de PKC MDCK cells NHE1 NHE1 Phorbol 12-Myristate 13-Acetate Phorbol 12-Myristate 13-Acetate PKC isoforms
16	Papel da proteína quinase C (PKC) na modulação da isoforma 1 do permutador Na+ - H+ (NHE1), em células MDCK. / Role of PKC on exchanger isoform 1 (NHE1), modulation in MDCK cells. Claudia Ferreira dos Santos Ruiz Figueiredo 31 March 2008 (has links) O presente trabalho visa contribuir para o esclarecimento da seqüência de eventos intracelulares produzidos pelas PKCs a e e, na modulação do pHi, via NHE1. Os estudos foram realizados em células MDCK e as medidas de pHi efetuadas por microscopia de fluorescência. A expressão das PKCs a e e, bem como do NHE1 foi investigada por western blot, utilizando anticorpos específicos para cada proteína. Os estudos foram realizados na situação controle ou na vigência de PMA ou ANG II, AVP e /ou inibidores específicos para cada receptor hormonal ou isoforma de PKC. Nossos resultados indicam que PMA (10-7 M) estimula a recuperação do pHi, por modular a atividade das PKCs a e e. ANG II e AVP em concentrações fisiológicas estimulam a recuperação do pHi após sobrecarga ácida, concomitante com o aumento da fosforilação da PKC a. Em concentração elevada, ambos hormônios não alteram estes parâmetros. O efeito de ANG II ou de AVP depende da interação de cada hormônio com receptores específicos para modular as vias de sinalização celular envolvidas com o aumento dos níveis de diacilglicerol, cálcio citosólico e AMPc. / The purpose of this work was to investigate the signaling events of PKCs a e e on the NHE1 activity. The effect of phorbol 12-myristate 13-acetate (PMA), angiotensin II (ANG II) or arginine vasopressin (AVP) on the intracellular pH (pHi) was investigated in MDCK cells by using the fluorescence microscopy and fluorescent probe BCECF/AM. The NHE1 or PKCs a e e expression was examined by western blot and specific antibodies. Our results indicate that PMA (10-7 M) or low concentration of ANG II and AVP induced a significant increase of pH recovery rate and PKC a expression, after intracellular acidification with NH4Cl pulse. ANG II or AVP did not change the PKC a expression. However, in right concentration, both hormones did not change these parameter. In conclusion, the effect of ANG II and AVP on NHE1 activity, depend of specifics membrane receptors and cellular signaling of intracellular calcium, DAG and PKCs a and e. Angiotensina II Arginina vasopressina Células MDCK Isoformas de PKC NHE1 Phorbol 12-Myristate 13-Acetate Angiotensin II Arginin vasopressin MDCK cells NHE1 Phorbol 12-Myristate 13-Acetate PKC isoforms
17	Differentiation and malignant transformation of epithelial cells:3D cell culture models Capra, J. (Janne) 06 March 2018 (has links) Abstract The epithelial cells form barriers that compartmentalize the organs. Carcinomas are cancers stemming from epithelial cells and are the most common cancer type. The aim of this study was to understand the differentiation and malignant transformation of epithelial Madin-Darby canine kidney (MDCK) cells and to analyse the electrophysiological parameters which regulate their transport capacity. Emphasis was placed on comparing different culture environments, both in 2D and 3D. First, the effects of drugs or basal extracellular fluid composition on MDCK cell, cyst and lumen volumes were analysed using time-lapse microscopy. The results showed that MDCK cells were capable of both water secretion and reabsorption. The cells were able to perform these functions in a hyperpolarizing or depolarizing environment; change in osmolality of basal fluid was not required. Taken together, these results validate MDCK cells as a good basic model for studying kidney function. Next, the aim was to analyse the effect of 2D and 3D culture environments on the gene expression of untransformed MDCK and temperature sensitive ts-Src -transformed MDCK cells and the changes a single oncogene can induce. Microarray analysis revealed a decrease in the expression of survivin, an inhibitor of apoptosis protein, when switching the untransformed cells from 2D environment to 3D. This downregulation of survivin occurs in adult tissues as well, indicating that the cells grown in 3D are closer to the in vivo state than 2D cells. Src oncogene induced disintegration of cell junctions, but did not downregulate E-cadherin expression. The last part was to study further the factors controlling survivin expression and its significance to cell survival. MDCK cells grown in 3D did not suffer apoptosis if the cells remained in contact with the extracellular matrix. If MDCK cells were denied of ECM contacts they were more susceptible to apoptosis than survivin-expressing ts-Src MDCK cells. Finally, if cells were denied of cell-cell junctions, cells lacking survivin suffered apoptosis even though they had proper cell-matrix contacts. Taken together, these results highlighted the importance of cellular contacts to the cells: MDCK cells needed ECM contacts to differentiate and cell-cell contacts to avoid apoptosis. / Tiivistelmä Epiteelisolut ovat erikoistuneet toimimaan rajapintana elimen ja ympäristön välillä. Ihmisten yleisin syöpä on epiteelisoluista alkunsa saanut karsinooma. Tämän tutkimuksen tarkoituksena oli ymmärtää Madin-Darby-koiran munuaisen solujen (MDCK) erilaistumista ja pahanlaatuistumista sekä analysoida sähköfysiologisia tekijöitä, jotka säätelevät näiden solujen kuljetustoimintaa. Erityisenä kiinnostuksen kohteena oli erilaisten kasvuympäristöjen vertailu. Farmakologisten aineiden tai basaalisen, solunulkopuolisen nesteen koostumuksen vaikutusta MDCK-solujen, -kystan sekä luumenin kokoon tutkittiin valomikroskooppisten aikasarjojen avulla. Tulokset osoittivat MDCK-solujen olevan kykeneviä sekä veden eritykseen että absorptioon, niin hyperpolarisoivassa kuin depolarisoivassakin ympäristössä. Basaalisen nesteen osmolaliteetin muutosta ei tarvittu. Nämä tulokset osoittavat MDCK-solujen olevan hyvä munuaisen tutkimuksen perusmalli. Seuraavaksi analysoitiin kaksi- ja kolmiulotteisten (2D ja 3D) viljely-ympäristöjen vaikutusta ei-transformoitujen MDCK-solujen ja lämpötilaherkkien ts-Src-transformoitujen MDCK-solujen geenien ilmentymiseen sekä yhden onkogeenin aktivoimisen aikaansaamia muutoksia. Microarray-analyysi osoitti apoptoosin estäjän, surviviinin, ilmentymisen vähenemisen, kun kasvuympäristö vaihdettiin 2D-ympäristöstä 3D-ympäristöön. Koska surviviinin väheneminen on normaali tapahtuma aikuisissa kudoksissa, voitiin todeta, että 3D-ympäristössä kasvatetut solut ovat lähempänä luonnonmukaista olotilaa kuin 2D-ympäristössä kasvaneet. Src-onkogeeni sai aikaan soluliitosten hajoamisen, mutta ei vähentänyt E-kadheriinin ilmentymistä. Tutkimuksen viimeinen osa keskittyi surviviinin ilmentymistä säätelevien tekijöiden analysoimiseen ja surviviinin merkitykseen solujen eloonjäämiselle. 3D-ympäristössä kasvaneet MDCK-solut eivät kärsineet apoptoosista edellyttäen, että solut pysyivät kosketuksissa soluväliaineeseen. Jos solut irtautuivat soluväliaineesta, ne päätyivät herkemmin apoptoosiin kuin surviviinia ilmentävät ts-Src MDCK-solut. Mikäli solujen väliset liitokset pakotettiin avautumaan, solut joutuivat apoptoosiin, vaikka ne olivat kosketuksissa soluväliaineeseen. Yhteenvetona nämä tulokset korostavat solujen kontaktien merkitystä: MDCK-solut tarvitsevat soluväliainekontakteja erilaistumiseen ja solujen välisiä kontakteja välttyäkseen apoptoosilta. MDCK cells Src kinase apoptosis live cell microscopy polarity survivin transepithelial transport MDCK-solut Src-kinaasi apoptoosi elävien solujen mikroskopointi polariteetti surviviini transepiteelinen kuljetus
18	The Role of Prominin-1 in the Architecture and Dynamics of Microvilli and Primary Cilia Thamm, Kristina 15 January 2018 (has links) Prominin-1 is a lipid raft–associated, cholesterol-binding membrane glycoprotein selectively associated with plasma membrane protrusions and extracellular vesicles derived therefrom. Despite its worldwide use for stem cell isolation and its clinical importance in cancer-initiating cells and photoreceptor morphogenesis the function of prominin-1 remains elusive. This prompted me to investigate its role in the architecture and dynamics of microvilli and primary cilia at the apical plasma membrane of Madin-Darby canine kidney (MDCK) cells. Therefore, stably transfected cell lines were established expressing human prominin-1 splice variant 1 or 2. Upon the overexpression of prominin-1 the number of individual microvilli and clusters of them increased significantly. I also noticed alterations in their architecture, i.e. branching microvilli. Fascinatingly, two point mutations (Pro37→Ala and Tyr41→Ser) in the ganglioside GM1-binding motif of prominin-1 increased the number of branched microvilli and generated irregular ones with knob-like structures at their tip. Additionally, the release of prominin-1+ vesicles was impaired. Interestingly, both phenotypes were suppressed by the inhibition of the phosphoinositide 3-kinase (PI3K) or the Arp2/3 complex. Impaired interaction of prominin-1 with the PI3K through the introduction of an additional mutation (Tyr828→Phe) in its PI3K-binding site also reduced the amount of structurally altered microvilli. Thus, the interaction of prominin-1 with the PI3K may drive the conversion of the docking phospholipid phosphatidylinositol(4,5)-bisphosphate into phosphatidylinositol(3,4,5)-trisphosphate resulting in the uncoupling of the microvillar membrane from the underlying actin filaments thereby creating irregular/knob-like microvilli. Simultaneously, the phospholipid conversion might modulate the activity of regulators and/or activators of the Arp2/3 complex leading to the branching of microvilli. The overexpression of human prominin-1 also increased the length of primary cilia. Remarkably, a mutation in the histone deacetylase 6-binding site that mimics acetylation produces shorter cilia in cells expressing human prominin-1.s2. Additionally, it stimulates membrane vesicle release and dome formation. Above these striking observations, I observed branching cilia and cilia with a pearling shape. Collectively, the data suggest that a complex interplay of prominin-1 with its lipid and protein interaction partners regulates the architecture and dynamics of cellular protrusions. Finally, a growing number of studies use canine prominin-1 as an antigenic marker despite the absence of specific antibodies. Studies investigating its expression in dog tissues or cells derived therefrom rely on antibodies directed against its human and murine orthologs. To determine its cross-species immunoreactivity I cloned canine prominin-1 and overexpressed it as a green fluorescent protein fusion protein in MDCK cells. Here, I show that the genomic structure of the canine prom1 gene is similar to that of human and mouse. Canine prominin-1 shows the common characteristics of the prominin-1 family but the primary structure is poorly conserved. Like human and mouse protein, it is targeted to the apical membrane of MDCK cells and specifically enriched in microvilli and primary cilia. Immunocytochemistry, flow cytometry and immunoblotting techniques revealed that none of the applied antibodies against human or mouse prominin-1 recognizes the canine protein. info:eu-repo/classification/ddc/570 ddc:570
19	A tumoral and invasive phenotype independent of c-Met mutation Giannini, Giuseppe January 2003 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. HGF-R/c-Met Auto-phosphorylation Invasive Tumeur Agar mou MDCK Mutation Domaine tyrosine kinase
20	Regulation of protein trafficking by Ral GTPases and Exocyst in epithelial cells Liu, Yu-Tsan 01 July 2014 (has links) In polarized epithelial cells, vectorial protein trafficking is important for transporting specific membrane proteins to generate distinct apical and basolateral membrane protein compositions. The Exocyst is a conserved hetero-octameric protein complex, which regulates different aspects of protein trafficking, including tethering of the Golgi-derived vesicles to target membranes. Two of the Exocyst subunits, Sec5 and Exo84, competitively bind to the small GTPases, RalA and RalB, in a GTP-dependent manner. Although Ral GTPases have been proposed to mediate assembly of Exocyst holocomplexes, we hypothesize that they actually serve to allosterically regulate Exocyst functions by promoting association or disassociation of additional factors. Previous studies have shown that active RalA, but not RalB, accelerated basolateral exocytosis of E-cadherin. In contrast, knockdown of RalB, but not RalA, disrupts endocytosis of E-cadherin. However, mechanisms by which association of Ral GTPases with Sec5 and Exo84 regulate basolateral protein trafficking remain unclear. Here we investigate roles of Ral GTPases and the Exocyst in regulating basolateral protein trafficking using Madin Darby canine kidney (MDCK) cells and RNA interference (RNAi) technology. We show that RalA, but not RalB, is required for basolateral exocytosis of vesicular stomatitis virus glycoprotein (VSV-G) in the MDCK cells. We combined immunofluorescent labeling and surface biotinylation assays to demonstrate that RalA regulates VSV-G trafficking through the distinct interactions with Sec5 and Exo84. We also show that a Ral-uncoupled Sec5 mutant, but not a Ral-uncoupled Exo84 mutant, inhibits E-cadherin exocytosis. These results suggested that RalA and the Exocyst are required for basolateral exocytosis, and that RalA-Sec5 and RalA-Exo84 interactions play different roles during this process. Our study may provide new insights into mechanisms regulating protein trafficking in epithelial cells, and potentially lead to development of new therapeutic targets for the treatment of diseases in which exocytosis is impaired, such as Polycystic kidney disease and diabetes. basolateral trafficking epithelial cell Exocyst MDCK Ral GTPase VSV-G Cell Anatomy Cell Biology

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