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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Lipid Bilayers Supported by Multi-Stimuli Responsive Polymers

Kaufmann, Martin 25 March 2013 (has links) (PDF)
Artificial lipid bilayers formed on solid surface supports are widespread model systems to study physical, chemical, as well as biological aspects of cell membranes and fundamental interfacial interactions. The approach to use a thin polymer film representing a cushion for lipid bilayers prevents incorporated membrane proteins from pinning to the support and mimics the native environment of a lipid bilayer in certain aspects of the extracellular matrix and intracellular structures. A key component for cell anchorage to extracellular fibronectin is the transmembrane adhesion receptor alpha(5)beta(1) integrin. Its transport dynamics and clustering behavior plays a major role in the assembly of focal adhesions, which mediate mechanical forces and biochemical signals of cells with their surrounding. The system investigated herein is envisioned to use extrinsically controlled stimuli-responsive polymer cushions to tune the frictional drag between polymer cushion and mobile membranes with incorporated integrins to actively regulate lipid membrane characteristics. To attain this goal, a temperature- and pH-responsive polymer based on poly(N-isopropylacrylamide) copolymers containing varying amounts of carboxyl-group-terminated comonomers at different aliphatic spacer lengths (PNIPAAm-co-carboxyAAM) was surface-grafted to a poly(glycidyl methacrylate) anchorage layer. The swelling transitions were characterized using atomic force microscopy, ellipsometry and quartz crystal microbalance with dissipation monitoring (QCM-D) and found to be tunable over a wide range of temperature and pH. In agreement with the behavior of the polymers in solution, longer alkyl spacers decreased the phase transition temperature T(P) and higher contents of carboxylic acid terminated comonomers increased T(P) at alkaline conditions and decreased T(P) at acidic conditions. Remarkably, the point where the degree of carboxyl group deprotonation balances the T(P)-lowering effect of the alkyl spacer was distinctive for each alkyl spacer length. These findings illustrate how the local and global balance of hydrophilic and hydrophobic interactions along the copolymer chain allows to adjust the swelling transition to temperatures below, comparable, or above those observed for PNIPAAm homopolymers. Additionally, it could be shown that surface-grafting leads to a decrease in T(P) for PNIPAAm homopolymers (7°C) and copolymers (5°C - 10°C). The main reason is the increase in local polymer concentration of the swollen film constrained by dense surface anchorage in comparison to the behavior of dilute free chains in solution. In accordance with the Flory-Huggins theory, T(P) decreases with increasing concentration up to the critical concentration. Biological functionalization of the PNIPAAm-co-carboxyAAm thin films was demonstrated for the cell adhesion ligand peptide cRGD via carbodiimide chemistry to mimic extracellular binding sites for the cell adhesion receptors integrin. The outcome of QCM-D measurements of cRGD-functionalized surfaces showed a maintained stimuli-responsiveness with slight reduction in T(P). A drying/rehydration procedure of a 9:1 lipid mixture of the cationic lipid dioleoyl-trimethylammoniumpropane (DOTAP) and the zwitterionic dioleoyl-phosphatidylcholine (DOPC) was utilized to form lipid bilayer membranes on PNIPAAm-co-carboxyAAM cushions. Fluorescence recovery after photobleaching (FRAP) revealed that lipid mobility was distinctively higher (6.3 - 9.6) µm2 s-1 in comparison to solid glass support ((3.0 - 5.9) µm2 s-1). In contradiction to the initial expectations, modulation of temperature and pH led to poor variations in lipid mobility that did not correlate with the PNIPAAm cushion swelling state. The results suggested a weak coupling of the lipid bilayer with PNIPAAm polymer cushions that can be slightly tuned by electrostatic interactions. The transmembrane adhesion receptor alpha(5)beta(1) integrin was reconstituted into liposomes consisting of DOPC/sphingomyelin/cholesterol 2:2:1 for the formation of polymer cushioned bilayers. PNIPAAm- co-carboxyAAM and maleic acid (MA) copolymers were used as cushions, both with the option for cRGD functionalization. On the MA copolymer cushions, fusion of proteoliposomes resulted in supported bilayers with mobile lipids as confirmed by FRAP. However, incorporated integrins were immobile. In an attempt to explain this observation, the medium-sized cytoplasmic integrin domain was accounted to hamper the movement by steric interactions with the underlying polymer chains in conjunction with electrostatic interactions of the cationic cytoplasmic domain with the oppositely charged MA copolymer. On the PNIPAAm-co-carboxyAAM cushion only a drying/rehydration procedure lead to bilayer formation. However, again the integrins were immobile, presumably due to the harsh treatment during preparation. Nevertheless, the results of the investigated set of PNIPAAm copolymer films suggest their application as temperature- and pH-responsive switchable layers to control interfacial phenomena in bio-systems at different physiological conditions. The PNIPAAm-co-carboxyAAm cushioned bilayer system represents a promising step towards extrinsically controlled membrane – substrate interactions.
2

Lipid Bilayers Supported by Multi-Stimuli Responsive Polymers

Kaufmann, Martin 08 February 2013 (has links)
Artificial lipid bilayers formed on solid surface supports are widespread model systems to study physical, chemical, as well as biological aspects of cell membranes and fundamental interfacial interactions. The approach to use a thin polymer film representing a cushion for lipid bilayers prevents incorporated membrane proteins from pinning to the support and mimics the native environment of a lipid bilayer in certain aspects of the extracellular matrix and intracellular structures. A key component for cell anchorage to extracellular fibronectin is the transmembrane adhesion receptor alpha(5)beta(1) integrin. Its transport dynamics and clustering behavior plays a major role in the assembly of focal adhesions, which mediate mechanical forces and biochemical signals of cells with their surrounding. The system investigated herein is envisioned to use extrinsically controlled stimuli-responsive polymer cushions to tune the frictional drag between polymer cushion and mobile membranes with incorporated integrins to actively regulate lipid membrane characteristics. To attain this goal, a temperature- and pH-responsive polymer based on poly(N-isopropylacrylamide) copolymers containing varying amounts of carboxyl-group-terminated comonomers at different aliphatic spacer lengths (PNIPAAm-co-carboxyAAM) was surface-grafted to a poly(glycidyl methacrylate) anchorage layer. The swelling transitions were characterized using atomic force microscopy, ellipsometry and quartz crystal microbalance with dissipation monitoring (QCM-D) and found to be tunable over a wide range of temperature and pH. In agreement with the behavior of the polymers in solution, longer alkyl spacers decreased the phase transition temperature T(P) and higher contents of carboxylic acid terminated comonomers increased T(P) at alkaline conditions and decreased T(P) at acidic conditions. Remarkably, the point where the degree of carboxyl group deprotonation balances the T(P)-lowering effect of the alkyl spacer was distinctive for each alkyl spacer length. These findings illustrate how the local and global balance of hydrophilic and hydrophobic interactions along the copolymer chain allows to adjust the swelling transition to temperatures below, comparable, or above those observed for PNIPAAm homopolymers. Additionally, it could be shown that surface-grafting leads to a decrease in T(P) for PNIPAAm homopolymers (7°C) and copolymers (5°C - 10°C). The main reason is the increase in local polymer concentration of the swollen film constrained by dense surface anchorage in comparison to the behavior of dilute free chains in solution. In accordance with the Flory-Huggins theory, T(P) decreases with increasing concentration up to the critical concentration. Biological functionalization of the PNIPAAm-co-carboxyAAm thin films was demonstrated for the cell adhesion ligand peptide cRGD via carbodiimide chemistry to mimic extracellular binding sites for the cell adhesion receptors integrin. The outcome of QCM-D measurements of cRGD-functionalized surfaces showed a maintained stimuli-responsiveness with slight reduction in T(P). A drying/rehydration procedure of a 9:1 lipid mixture of the cationic lipid dioleoyl-trimethylammoniumpropane (DOTAP) and the zwitterionic dioleoyl-phosphatidylcholine (DOPC) was utilized to form lipid bilayer membranes on PNIPAAm-co-carboxyAAM cushions. Fluorescence recovery after photobleaching (FRAP) revealed that lipid mobility was distinctively higher (6.3 - 9.6) µm2 s-1 in comparison to solid glass support ((3.0 - 5.9) µm2 s-1). In contradiction to the initial expectations, modulation of temperature and pH led to poor variations in lipid mobility that did not correlate with the PNIPAAm cushion swelling state. The results suggested a weak coupling of the lipid bilayer with PNIPAAm polymer cushions that can be slightly tuned by electrostatic interactions. The transmembrane adhesion receptor alpha(5)beta(1) integrin was reconstituted into liposomes consisting of DOPC/sphingomyelin/cholesterol 2:2:1 for the formation of polymer cushioned bilayers. PNIPAAm- co-carboxyAAM and maleic acid (MA) copolymers were used as cushions, both with the option for cRGD functionalization. On the MA copolymer cushions, fusion of proteoliposomes resulted in supported bilayers with mobile lipids as confirmed by FRAP. However, incorporated integrins were immobile. In an attempt to explain this observation, the medium-sized cytoplasmic integrin domain was accounted to hamper the movement by steric interactions with the underlying polymer chains in conjunction with electrostatic interactions of the cationic cytoplasmic domain with the oppositely charged MA copolymer. On the PNIPAAm-co-carboxyAAM cushion only a drying/rehydration procedure lead to bilayer formation. However, again the integrins were immobile, presumably due to the harsh treatment during preparation. Nevertheless, the results of the investigated set of PNIPAAm copolymer films suggest their application as temperature- and pH-responsive switchable layers to control interfacial phenomena in bio-systems at different physiological conditions. The PNIPAAm-co-carboxyAAm cushioned bilayer system represents a promising step towards extrinsically controlled membrane – substrate interactions.
3

Peptídeo AG73, derivado da laminina-111, induz migração, invasão e secreção de proteases em linhagem celular derivada de carcinoma epidermóide oral através de sindecana-1 e integrina b1 / Laminin-111-derived peptide AG73 regulates migration, invasion and protease activity of cell line derived from oral squamous cell carcinoma through syndecan-1 and b1 integrin.

Siqueira, Adriane Sousa de 24 September 2009 (has links)
Carcinona epidermóide é um prevalente tumor de cabeça e pescoço relacionado a altas taxas de mortalidade. Neste trabalho, verificamos se AG73 (RKRLQVQLSIRT, cadeia a1), peptídeo derivado da laminina-111, regula migração, invasão e secreção de protease em células de carcinoma epidermóide oral (OSCC). Cadeia a1 da laminina e MMP9 estão expressas neste tumor in vivo e in vitro. AG73 induziu aumento da taxa migratória de células OSCC em ensaios de ferida e migração, e também estimulou invasão em ensaio em câmaras bipartites com Matrigel. Células OSCC crescidas sobre AG73 exibiram aumento dose-dependente de MMP9, detectado por zimografia. Buscamos receptores de AG73 que regulariam atividade nesta linhagem. Células OSCC crescidas sobre AG73 exibiram colocalização de sindecana-1 e integrina b1, e silenciamento desses receptores com RNA de interferência promoveu diminuição de migração e invasão dependente de AG73 nestas células. Esses resultados sugerem que sindecana-1 e integrina b1, ativados por AG73, podem regular migração, invasão e secreção de MMPs em células OSCC. / Oral squamous cell carcinoma is a prevalent head and neck tumor, related to high mortality rates. Here we studied the role played by AG73 (RKRLQVQLSIRT, a1 chain) on migration, invasion and protease secretion of a cell line (OSCC) from human oral squamous cell carcinoma. Laminin a1 chain and MMP9 are expressed in oral squamous cell carcinoma cells in vivo and in vitro. AG73 increased migratory activity of OSCC cells, as shown by monolayer wound assays and migration assays. This peptide also stimulated cell invasion in chemotaxis chambers coated with Matrigel. OSCC cells cultured on AG73 showed a dose-dependent increase of MMP9 secretion, detected by zymography. We searched for AG73 receptors regulating activities in this cell line. OSCC cells grown on AG73 exhibited colocalization of syndecan-1 and b1 integrin, and siRNA knockdown of these receptors decreased AG73-dependent migration and invasion of OSCC cells. Our results suggest that syndecan-1 and b1 integrin signaling downstream of AG73 regulate migration, invasion and MMP secretion by OSCC cells
4

Adesão e atividade de protease são reguladas pelo peptídeo derivado da laminina AG73, sindecan-1 e integrina 1 em linhagem celular derivada de carcinoma adenóide cístico / Ahesion and protease activity are regulated by the laminin-derived peptide AG73, syndecan-1 and bintegrin in cell line derived from adenoid cystic carcinoma.

Oliveira, Elaine Cyreno 01 October 2009 (has links)
Estudamos indução da atividade de MMP pelo peptídeo da laminina a1 AG73 em linhagem celular (CAC2) de carcinoma adenóide cístico. CAC2 cultivadas em laminina-111 com AG73 geraram espaços pseudocísticos. Inibidor de MMP diminuiu tais espaços, sugerindo ação de MMPs. CAC2 crescidas sobre AG73 mostraram aumento dose-dependente de MMP9. RNAi para MMP9 diminuiu remodelação em cultura 3D. Buscamos receptores de AG73 ligados à atividade de MMP9. CAC2 crescidas sobre AG73 exibiram colocalização de sindecan-1 e integrina b1. RNAi para sindecan-1 ou para integrina b1 geraram, isolados, redução na adesão a AG73 e nas atividades de remodelação e de protease. Duplo RNAi estudou a cooperação entre os receptores e promoveu diminuição na adesão a AG73 e na atividade de MMP. Distinção de receptores foi feita por cromatografia de afinidade e espectrometria de massa, através de colunas de afinidade com AG73 acoplado, que resultou em possíveis receptores, como integrinas b1 e aV. Sugerimos que AG73 regula adesão e secreção de MMP em células CAC2 através de sindecan-1 e integrina b1. / We studied induction of MMP activity by b1-laminin peptide AG73 in adenoid cystic carcinoma cell line (CAC2). Cells grown inside AG73-enriched laminin-111 exhibited pseudocystics spaces. MMP inhibitor decreased those spaces, suggesting MMPs action. Cells grown on AG73 showed a dose-dependent increase of MMP9 secretion. MMP9 siRNAi decreased remodeling in 3D culture. We searched for AG73 receptors regulating MMP9 activity. CAC2 grown on AG73 exhibited colocalization of syndecan-1 and b1 integrin. Syndecan-1 siRNA or siRNA b1 integrin showed reduction in adhesion to AG73 and in remodeling and protease activities. Double-knockdown explored syndecan-1 and 1 integrin cooperation and showed decrease in adhesion to AG73 and in MMP activity. Receptors characterization was made by affinity chromatography followed by mass spectrometry through AG73-affinity columns and showed putative receptors, like b1 and aV integrins. We suggest that AG73 peptide regulates adhesion and MMP secretion in CAC2 cells through syndecan-1 and b1 integrin.
5

Peptídeo AG73, derivado da laminina-111, induz migração, invasão e secreção de proteases em linhagem celular derivada de carcinoma epidermóide oral através de sindecana-1 e integrina b1 / Laminin-111-derived peptide AG73 regulates migration, invasion and protease activity of cell line derived from oral squamous cell carcinoma through syndecan-1 and b1 integrin.

Adriane Sousa de Siqueira 24 September 2009 (has links)
Carcinona epidermóide é um prevalente tumor de cabeça e pescoço relacionado a altas taxas de mortalidade. Neste trabalho, verificamos se AG73 (RKRLQVQLSIRT, cadeia a1), peptídeo derivado da laminina-111, regula migração, invasão e secreção de protease em células de carcinoma epidermóide oral (OSCC). Cadeia a1 da laminina e MMP9 estão expressas neste tumor in vivo e in vitro. AG73 induziu aumento da taxa migratória de células OSCC em ensaios de ferida e migração, e também estimulou invasão em ensaio em câmaras bipartites com Matrigel. Células OSCC crescidas sobre AG73 exibiram aumento dose-dependente de MMP9, detectado por zimografia. Buscamos receptores de AG73 que regulariam atividade nesta linhagem. Células OSCC crescidas sobre AG73 exibiram colocalização de sindecana-1 e integrina b1, e silenciamento desses receptores com RNA de interferência promoveu diminuição de migração e invasão dependente de AG73 nestas células. Esses resultados sugerem que sindecana-1 e integrina b1, ativados por AG73, podem regular migração, invasão e secreção de MMPs em células OSCC. / Oral squamous cell carcinoma is a prevalent head and neck tumor, related to high mortality rates. Here we studied the role played by AG73 (RKRLQVQLSIRT, a1 chain) on migration, invasion and protease secretion of a cell line (OSCC) from human oral squamous cell carcinoma. Laminin a1 chain and MMP9 are expressed in oral squamous cell carcinoma cells in vivo and in vitro. AG73 increased migratory activity of OSCC cells, as shown by monolayer wound assays and migration assays. This peptide also stimulated cell invasion in chemotaxis chambers coated with Matrigel. OSCC cells cultured on AG73 showed a dose-dependent increase of MMP9 secretion, detected by zymography. We searched for AG73 receptors regulating activities in this cell line. OSCC cells grown on AG73 exhibited colocalization of syndecan-1 and b1 integrin, and siRNA knockdown of these receptors decreased AG73-dependent migration and invasion of OSCC cells. Our results suggest that syndecan-1 and b1 integrin signaling downstream of AG73 regulate migration, invasion and MMP secretion by OSCC cells
6

Adesão e atividade de protease são reguladas pelo peptídeo derivado da laminina AG73, sindecan-1 e integrina 1 em linhagem celular derivada de carcinoma adenóide cístico / Ahesion and protease activity are regulated by the laminin-derived peptide AG73, syndecan-1 and bintegrin in cell line derived from adenoid cystic carcinoma.

Elaine Cyreno Oliveira 01 October 2009 (has links)
Estudamos indução da atividade de MMP pelo peptídeo da laminina a1 AG73 em linhagem celular (CAC2) de carcinoma adenóide cístico. CAC2 cultivadas em laminina-111 com AG73 geraram espaços pseudocísticos. Inibidor de MMP diminuiu tais espaços, sugerindo ação de MMPs. CAC2 crescidas sobre AG73 mostraram aumento dose-dependente de MMP9. RNAi para MMP9 diminuiu remodelação em cultura 3D. Buscamos receptores de AG73 ligados à atividade de MMP9. CAC2 crescidas sobre AG73 exibiram colocalização de sindecan-1 e integrina b1. RNAi para sindecan-1 ou para integrina b1 geraram, isolados, redução na adesão a AG73 e nas atividades de remodelação e de protease. Duplo RNAi estudou a cooperação entre os receptores e promoveu diminuição na adesão a AG73 e na atividade de MMP. Distinção de receptores foi feita por cromatografia de afinidade e espectrometria de massa, através de colunas de afinidade com AG73 acoplado, que resultou em possíveis receptores, como integrinas b1 e aV. Sugerimos que AG73 regula adesão e secreção de MMP em células CAC2 através de sindecan-1 e integrina b1. / We studied induction of MMP activity by b1-laminin peptide AG73 in adenoid cystic carcinoma cell line (CAC2). Cells grown inside AG73-enriched laminin-111 exhibited pseudocystics spaces. MMP inhibitor decreased those spaces, suggesting MMPs action. Cells grown on AG73 showed a dose-dependent increase of MMP9 secretion. MMP9 siRNAi decreased remodeling in 3D culture. We searched for AG73 receptors regulating MMP9 activity. CAC2 grown on AG73 exhibited colocalization of syndecan-1 and b1 integrin. Syndecan-1 siRNA or siRNA b1 integrin showed reduction in adhesion to AG73 and in remodeling and protease activities. Double-knockdown explored syndecan-1 and 1 integrin cooperation and showed decrease in adhesion to AG73 and in MMP activity. Receptors characterization was made by affinity chromatography followed by mass spectrometry through AG73-affinity columns and showed putative receptors, like b1 and aV integrins. We suggest that AG73 peptide regulates adhesion and MMP secretion in CAC2 cells through syndecan-1 and b1 integrin.

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