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Untersuchungen zum Einfluss des homöopathischen Kombinationspräparates Engystol N und weiterer Präparatvariationen auf die Proliferation isolierter mononukleärer Zellen des Menschen und die Sekretion von TGF-b1 [TGF beta 1] anhand von Vollblutkulturen /Schwan, Annette. January 2002 (has links)
Berlin, Freie Universität, Thesis (doctoral), 2002.
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T-Zell Gedächtnis und Zytokinmilieu bei Kopf-Hals-TumorenZiouta, Yvonne. January 2006 (has links)
Heidelberg, Univ., Diss., 2006.
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Zeitliche Expressionsprofile der Zytokine-Interleukin-1-beta, Interleukin-6 und transforming growth factor-beta 1 mittels Real-time-Polymerase-Kettenreaktion (rt-PCR) im Myelonkompressionsmodell der RatteRingelstein, Marius January 2007 (has links)
Zugl.: Aachen, Techn. Hochsch., Diss.
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Einfluss experimentell modifizierter LTBP-4-Genexpression auf das Expressionsprofil von TGF-[beta]1 [TGF-Beta1], p21 und c-myc in HEK293T ZellenNiggemeyer, Marie Nicola January 1900 (has links)
Zugl.: Berlin, Freie Univ., Diss., 2007
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Bone tissue engineering from marrow stromal cells : effects of growth factors and biomaterialsLieb, Esther January 2004 (has links)
Regensburg, Univ., Diss., 2003. / Erscheinungsjahr an der Haupttitelstelle: 2003.
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THE ROLE OF SEMEN TRANSFORMING GROWTH FACTOR BETA 1 IN MODULATING IMMUNE RESPONSES DURING HIV-1 INFECTION / IMMUNE RESPONSES TO SEMINAL TGF-BETA 1KAFKA, JESSICA KATHERINE 08 May 2015 (has links)
Thirty five million people are currently living with HIV-1 today with women accounting for half of infected individuals globally. Sexual transmission is the main route of HIV transmission with approximately 40% of HIV infections occurring when the mucosal lining of the female genital tract (FGT) is exposed to HIV in semen from an infected male partner. Seminal plasma (SP), the fluid portion of semen, is a complex fluid which plays an immunomodulatory role in the FGT for successful conception, largely due to its high concentrations of TGF-β1. Several factors in SP from HIV-uninfected men have been shown to either inhibit or enhance HIV infection in target cells, however it is not clear how SP from HIV infected men would modulate genital epithelial cells (GECs), the first cells that encounter HIV in the FGT. The overall goals of this thesis were to compare inflammatory and regulatory cytokine concentrations in SP from HIV-uninfected and infected men, and subsequently compare GEC cytokine responses following exposure to SP from HIV-uninfected and HIV-infected men. I also investigated how SP and TGF-β regulated cytokine production and barrier function in GECs in the presence of HIV. The results summarized in this thesis demonstrated that HIV infection leads to different cytokine profiles in SP, based on stage of HIV-1 infection. HIV-infected men in acute stage contained higher levels of proinflammatory cytokines in their SP compared to HIV-uninfected and chronically infected men (CI men) which subsequently lead to higher levels of proinflammatory cytokines from GECs compared to CI men. In the follow up to this study we found that active TGF-β, which was found in higher concentrations in SP from CI men and led to decreased inflammatory response from GECs, was compartmentalized between blood plasma and seminal plasma. Higher levels of active TGF-β in SP correlated with decreased semen viral load and the immune activation marker sCD14 leading us to believe that ART-naive CI men in our cohort were naturally controlling their immune activation status, as active TGF-β levels were lower in ART-treated men. Short-term exposure of GECs to SP from CI men or TGF-β at comparable concentrations to SP protected the GEC barrier against HIV by decreasing inflammatory cytokines and preventing tight junction breakage. However, long-term exposure to TGF-β in the presence of HIV further increased inflammation in GECs suggesting a biphasic role for TGF-β in the FGT. This body of work summarized in this thesis demonstrates for the first time how semen from HIV-infected men modulates FGT epithelial cell cytokine responses and barrier function, an important consideration in the design of local therapeutic strategies to protect the FGT against HIV infection. / Thesis / Doctor of Philosophy (Medical Science)
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Alterações placentárias em resposta à exposição de ratas Wistar à poluição atmosférica / Placental alterations in response to exposure of Wistar rats to air pollutionSoto, Sônia de Fátima 10 March 2015 (has links)
Introdução: A exposição à poluição atmosférica durante a gestação provoca alterações nas características da placenta e pode resultar em restrição de crescimento intrauterino. Sabe-se que o transforming growth factor beta 1 (TGFbeta1), o sistema renina-angiotensina uteroplacentário (SRA) e os fatores angiogênicos, tais como vascular endothelial growth factor A (VEGF-A) participam do processo de placentação e regulação do fluxo sanguíneo uteroplacentário. Assim, o objetivo do presente estudo foi investigar o efeito da exposição à poluição do ar sobre a morfologia, função e SRA placentários. Métodos: Ratas Wistar fêmeas foram expostas ao ar filtrado (F) ou ao material particulado 2.5um (P) durante 15 dias. Depois o cruzamento, as ratas foram divididas em 4 grupos e novamente expostas a F ou P (FF, FP, PF, PP). No 19º dia de gestação, as porções maternas e fetais das placentas foram coletadas. Estrutura da placenta, TGFbeta1, VEGF-A e seus receptores e os componentes do SRA foram avaliados. Resultados: A exposição ao material particulado diminuiu massa, tamanho e área de superfície placentária, um indicativo da interação materno-fetal. As concentrações placentárias de TGF beta1, VEGF-A e Flk-1 e os componentes do SRA foram alterados e isso pode indicar um prejuízo na invasão do trofoblasto, angiogênese placentária e troca de nutrientes e gases entre mãe e fetos. Discussão: Os resultados indicam que a exposição a partículas compromete a interação materno-fetal e pode refletir sobre a nutrição e crescimento fetal / Introduction: Exposure to air pollution during pregnancy causes alterations in placental characteristics and may result in intrauterine growth restriction. It was suggested that transforming growth factor beta 1 (TGFbeta1), the uteroplacental renin-angiotensin system (RAS) and angiogenic factors, such as vascular endothelial growth factor A (VEGF-A) participates of the placentation process and regulation of the uteroplacental blood flow. Thus, the aim of the present study was to investigate the effect of exposure to air pollution on the placental morphology, function and placental RAS. Methods: Female Wistar rats were exposed to filtrated air (F) or to concentrated particulate matter 2.5um (P) for 15 days. After mating, rats were divided in 4 groups and again exposed to F or P (FF, FP, PF, PP). At 19th day of pregnancy, maternal and fetal portions of placenta were collected. Placental structure, TGFbeta1, VEGF-A and its receptors and RAS components were evaluated. Results: Exposure to particulate matter decreased placental mass, size and surface area, an indicative of maternal-fetal interaction. Placental TGFbeta1, RAS components and VEGF-A and receptors Flk-1 concentrations were altered and this may indicate a prejudice in the trophoblast invasion, placental angiogenesis and maternal-fetal nutrients and gases exchange. Discussion: These findings indicate that exposure to particulate matter compromises the maternal-fetal interaction and may reflect on fetal nutrition and growth
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Einfluss der lokalen Applikation von Wachstumsfaktoren aus einer biodegradierbaren Poly(D,L-Laktid)-Beschichtung von Biomaterialien auf die FrakturheilungSchmidmaier, Gerhard 19 February 2004 (has links)
Wachstumsfaktoren sind wichtige Steuerelemente des Knochenzellmetabolismus. Im Verlauf der Frakturheilung kommt es zur Ausschüttung von zahlreichen Wachstumsfaktoren, Zytokinen und Botenstoffen im und um den Bereich des Frakturspalts, die systemisch oder lokal, endokrin, parakrin oder autokrin wirksam werden können. Für verschiedene Wachstumsfaktoren konnten in zahlreichen Studien osteoinduktive und die Frakturheilung positiv beeinflussende Wirkungen nachgewiesen werden. In vitro und in vivo Studien belegen, dass einige dieser Faktoren wie Insulin-like growth factor-I (IGF-I), Transforming growth factor-beta1 (TGF-beta1) und Bone morphogenetic protein-2 (BMP-2) einen stimulierenden Effekt auf osteo- und chondrogene Zellen aufweisen und somit die Knochenheilung stimulieren. Der genaue Wirkmechanismus dieses positiven Effektes der Wachstumsfaktoren und ihre Interaktion im Verlauf der Frakturheilung ist nicht bekannt. Die lokale Applikation der Faktoren für einen therapeutischen Einsatz bei der Frakturheilung stellte bisher jedoch ein Problem dar. Mit der entwickelten biodegradierbaren Poly(D,L-Laktid)-Beschichtung von Implantaten können eingearbeitete Wachstumsfaktoren kontrolliert und lokal direkt an der Fraktur freigesetzt werden. Das beschichtete Implantat dient dabei der Stabilisation der Fraktur und gleichzeitig als Wirkstoffträger. Die Beschichtung weist eine hohe mechanische Stabilität auf. Die eingearbeiteten Wachstumsfaktoren behalten ihre biologische Aktivität in der Beschichtung und werden kontrolliert lokal freigesetzt. Um den Effekt lokal applizierter Wachstumsfaktoren auf die Frakturheilung zu untersuchen, wurde ein standardisiertes geschlossenes Frakturmodell entwickelt, das der klinischen Situation möglichst nahe ist und reproduzierbar durchgeführt werden kann. Untersucht wurde der Effekt der Wachstumsfaktoren IGF-I, TGF-beta1 und BMP-2 und des Trägermaterials PDLLA sowie lokale und systemische unerwünschte Wirkungen. Die Ergebnisse zeigten einen signifikant grösseren stimulierenden Effekt von IGF-I auf die Frakturheilung im Vergleich zur TGF-beta1 Applikation. Die kombinierte Gabe beider Faktoren ergab einen signifikant grösseren Effekt auf die torsionale Stabilität und die Kallusreifung im Vergleich zur Einzelapplikation. Beide Faktoren scheinen einen synergistischen Effekt auf die Frakturheilung zu haben. Die lokale Applikation von BMP-2 beschleunigte ebenso, wie die lokale Freisetzung von IGF-I und TGF-beta1 die Frakturheilung signifikant. Deutliche Unterschiede zwischen IGF-I / TGF-beta1 und BMP-2 konnten nicht festgestellt werden.Allerdings zeigte sich bei der Verwendung von BMP-2 auch ausserhalb der Frakturzone eine grössere Mineralisation der Kortikalis, die bei IGF-I / TGF-beta1 nicht zu beobachten ist. Auch im Grosstiermodell bestätigte sich die Wirksamkeit dieser bioaktiven Oberflächen-beschichtung auf die Osteotomieheilung. Die PDLLA-Beschichtung alleine, ohne eingearbeitete Wachstumsfaktoren, zeigte bereits einen positiven Effekt auf die Frakturheilung. Die Untersuchungen belegen, dass die lokale Freisetzung von Wachstumsfaktoren aus einer biodegradierbaren PDLLA-Beschichtung von Implantaten die Frakturheilung signifikant beschleunigt, wobei keine unerwünschten lokalen oder systemischen Wirkungen beobachtet werden konnten. Bei dem Vergleich lokaler (durch Wachstumsfaktoren) mit systemischer Stimulationsmöglichkeit (durch Wachstumshormon) der Frakturheilung lässt sich zusammenfassend feststellen, dass die kombinierte Anwendung beider Stimulationsmöglichkeiten zu keiner weiteren Steigerung der Heilungsvorgänge führte. Weitere Untersuchungen wurden hinsichtlich der genauen Rolle und Interaktion der Wachstumsfaktoren durchgeführt. Vor allem die Frühphase scheint hierbei eine entscheidende Rolle bei der Frakturheilung einzunehmen. Es zeigte sich hierbei eine deutliche Stimulation der Osteoblastendifferenzierung mit einer Erhöhung der Kollagen-1 Produktion in vitro sowie eine Steigerung der Proliferationsrate und Angiogenese mit einem schnelleren Ablauf der Phasen der Frakturheilung in vivo durch lokal appliziertes IGF-I und TGF-beta1. Weitere Anwendungen der entwickelten Beschichtungstechnologie stellen die lokale Applikation von Wachstumsfaktoren von beschichteten PDLLA-Cages bei der intervertebralen Spondylodese sowie die lokale Applikation von Antibiotika aus einer PDLLA-Beschichtung von Implantaten zur Prophylaxe der Implantat-assoziierten Osteomyelitis dar.Basierend auf diesen Ergebnissen steht der Einsatz PDLLA-Gentamicin beschichteter intramedullärer Tibianägel kurz vor der klinischen Anwendung.Eine Zulassung durch die entsprechenden Behörden ist erfolgt.Die klinische Anwendung Wachstumsfaktoren-beschichteter Implantate ist bereits in der Vorbereitung. / Growth factors are important regulators of bone metabolism. During fracture healing many growth factors or cytokines were locally released at the facture site. In several studies, different growth factors demonstrated osteoinductive and fracture stimulating properties. In vitro and in vivo studies showed a stimulating effect of Insulin-like growth factor-I (IGF-I), Transforming growth factor-beta1 (TGF-beta1) and Bone morphogenetic protein-2 (BMP-2) on osteo- and chondrogenetic cells. The exact effectiveness and the interaction of these growth factors during fracture healing is not known so far. Further, the local application of these factors for therapeutically use in fracture treatment is still a problem. The developed biodegradable poly(D,L-lactide)-coating of implants allows the local and controlled release of incorporated growth factors directly at the fracture site. The coated implant serves on the one hand for fracture stabilization and on the other hand as a drug delivery system. The coating has a high mechanical stability. The incorporated growths factors remain biologically active in the coating and were released in a sustained and controlled manner. To investigate the effect of locally released growth factors IGF-I, TGF-beta1 and BMP-2 and the carrier PDLLA on fracture healing, standardised closed fracture models were developed with a close relationship to clinical situation. Further, possible local and systemic side effects were analysed. The results demonstrated a significantly higher stimulating effect of IGF-I on fracture healing compared to TGF-beta1. The combined application of both growth factors showed a synergistic effect on the mechanical stability and callus remodeling compared to single treatment. The local release of BMP-2 also enhanced fracture healing significantly - comparable to combination of IGF-I and TGF-beta1. However, a higher rate of mineralisation was measurable outside the fracture region using BMP-2 in a rat fracture model. Using a large animal model on pigs with a 1 mm osteotomy gap, the effectiveness of locally released growths factors could be confirmed. Further, the PDLLA-coating without any incorporated growth factors demonstrated a significantly effect on healing processes in both models. These investigations showed, that the local release of growth factors from PDLLA coated implants significantly stimulate fracture healing without any local or systemic side effects. Comparing systemic with local stimulation techniques, we found an improvement of fracture healing by systemic administration of growth hormone and local application of IGF-I and TGF-beta1. However, the combined use of both simulation techniques did not lead to a further increase of healing processes. Investigations on the effectiveness and the interaction of growth factors during fracture healing demonstrated an dramatic effect in the early phases of healing processes. The growth factors stimulate the differentiation of osteoblasts with a higher production of collagen I in vitro and increase osteogenesis and vascularisation of the fracture callus in vivo. Further applications of the coating technology are the use of PDLLA and growth factor coated cages for the stimulation of intervertebral fusion and the use of PDLLA and Gentamicin coated implants in order to prevent implant associated infections. The clinical use of antibiotic and growth factor coated implants are in preparation.
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Lipid Bilayers Supported by Multi-Stimuli Responsive PolymersKaufmann, 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.
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Alterações placentárias em resposta à exposição de ratas Wistar à poluição atmosférica / Placental alterations in response to exposure of Wistar rats to air pollutionSônia de Fátima Soto 10 March 2015 (has links)
Introdução: A exposição à poluição atmosférica durante a gestação provoca alterações nas características da placenta e pode resultar em restrição de crescimento intrauterino. Sabe-se que o transforming growth factor beta 1 (TGFbeta1), o sistema renina-angiotensina uteroplacentário (SRA) e os fatores angiogênicos, tais como vascular endothelial growth factor A (VEGF-A) participam do processo de placentação e regulação do fluxo sanguíneo uteroplacentário. Assim, o objetivo do presente estudo foi investigar o efeito da exposição à poluição do ar sobre a morfologia, função e SRA placentários. Métodos: Ratas Wistar fêmeas foram expostas ao ar filtrado (F) ou ao material particulado 2.5um (P) durante 15 dias. Depois o cruzamento, as ratas foram divididas em 4 grupos e novamente expostas a F ou P (FF, FP, PF, PP). No 19º dia de gestação, as porções maternas e fetais das placentas foram coletadas. Estrutura da placenta, TGFbeta1, VEGF-A e seus receptores e os componentes do SRA foram avaliados. Resultados: A exposição ao material particulado diminuiu massa, tamanho e área de superfície placentária, um indicativo da interação materno-fetal. As concentrações placentárias de TGF beta1, VEGF-A e Flk-1 e os componentes do SRA foram alterados e isso pode indicar um prejuízo na invasão do trofoblasto, angiogênese placentária e troca de nutrientes e gases entre mãe e fetos. Discussão: Os resultados indicam que a exposição a partículas compromete a interação materno-fetal e pode refletir sobre a nutrição e crescimento fetal / Introduction: Exposure to air pollution during pregnancy causes alterations in placental characteristics and may result in intrauterine growth restriction. It was suggested that transforming growth factor beta 1 (TGFbeta1), the uteroplacental renin-angiotensin system (RAS) and angiogenic factors, such as vascular endothelial growth factor A (VEGF-A) participates of the placentation process and regulation of the uteroplacental blood flow. Thus, the aim of the present study was to investigate the effect of exposure to air pollution on the placental morphology, function and placental RAS. Methods: Female Wistar rats were exposed to filtrated air (F) or to concentrated particulate matter 2.5um (P) for 15 days. After mating, rats were divided in 4 groups and again exposed to F or P (FF, FP, PF, PP). At 19th day of pregnancy, maternal and fetal portions of placenta were collected. Placental structure, TGFbeta1, VEGF-A and its receptors and RAS components were evaluated. Results: Exposure to particulate matter decreased placental mass, size and surface area, an indicative of maternal-fetal interaction. Placental TGFbeta1, RAS components and VEGF-A and receptors Flk-1 concentrations were altered and this may indicate a prejudice in the trophoblast invasion, placental angiogenesis and maternal-fetal nutrients and gases exchange. Discussion: These findings indicate that exposure to particulate matter compromises the maternal-fetal interaction and may reflect on fetal nutrition and growth
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