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1	Development of a system for investigating field effects on nerve cell growth Schuetz, P. W. January 1986 (has links) No description available. 571.4 Field effects on tissue growth
2	Growth and voluntary feed intake of two diverse genetic lines of pigs Jones, Felicity Anne January 1997 (has links) No description available. 636
3	Funktionsaufklärung von CYR61 und CTGF in mesenchymalen Stammzellen und Lungenendothelzellen / Functional examination of CYR61 and CTGF in mesenchymal stem cells and endothelial lung cells Laug, Roderich January 2014 (has links) (PDF) Cystein rich protein 61 (CYR61/CCN1) und Connective tissue growth factor (CTGF/CCN2) stellen aufgrund ihrer Multifunktionalität zwei sehr interessante Vertreter aus der derzeit sechs Mitglieder umfassenden Familie der CCN-Proteine (CCN- CYR61/CCN1, CTGF/CCN2, NOV/CCN3, WISP1-3/CCN4-6) dar. Seit der Entdeckung von CYR61 und CTGF konnten die überlappenden, aber meist nicht redundanten zellspezifischen Effekte in verschiedenen Zellsystemen nachgewiesen werden. Die Einflüsse auf zahlreiche Prozesse wie Proliferation und Migration, aber auch Angiogenese und das Überleben von Zellen lassen eine weitreichende Bedeutung im Zusammenhang mit vielen Entwicklungsprozessen vermuten, so auch der des muskuloskelettalen Systems und der Entwicklung der Lunge. In der vorliegenden Arbeit wurden für die nähere Charakterisierung von CYR61 und CTGF humane mesenchymale Stammzellen (hMSC) und die humane primäre Lungenendothelzelllinie HPMEC-ST1.6R (human pulmonary microvascular endothelial cells) gewählt. Beide Zellsysteme sind für die Untersuchung der Funktionsfähigkeit in den verschiedenen Kompartimenten bestens geeignet. So ist die Zelllinie HPMEC-ST1.6R den primären Endothelzellen, im Vergleich mit anderen in der Forschung eingesetzten Zelllinien, in Bezug auf spezifische Oberflächenmarker am nächsten. Mesenchymale Stammzellen bilden als multipotente Zellen das Rückrat des muskuloskelettalen Systems und sind an der Homöostase des menschlichen Stütz- und Bewegungsapparates maßgeblich beteiligt. Um experimentell nutzbare Konzentrationen an rekombinanten Proteinen zu erhalten, wurde ein Baculovirus-Expressionsystems gewählt. Nach der erfolgreichen Klonierung der CTGF/Fc-Tag Sequenz in einen Expressionsvektor konnte dies auch durch Produktion in SF21-Insektenzellen erreicht und erstmalig rekombinantes CTGF/Fc von hoher Reinheit gewonnen werden. Allerdings konnte eine beständige Funktionsfähigkeit der aufgereinigten Proteine mittels eines Proliferationstestes nachfolgend nur bedingt bestätigt werden. Für die weitere Versuchsplanung, einer Untersuchung der Auswirkung von rekombinantem CTGF (rCTGF) bzw. CYR61 (rCYR61) auf die Zielzellen, musste zunächst die zelleigene ctgf bzw. cyr61 Expression herunterreguliert werden, um einen endogenen Störeffekt auszuschließen. Durch den Einsatz spezifischer shRNAs konnte ctgf/CTGF sowohl in den hMSC-, wie auch den HPMEC-ST1.6R-Zielzellen deutlich herunterreguliert und nachfolgend eine markant reduzierte Proliferation beobachtet werden. Ein Effekt für die Regulation von cyr61 blieb aus. In dieser Arbeit wurden anschließend erstmals mittels Microarray-Analysen Veränderungen im Genexpressionsmuster der ctgf herunterregulierten hMSC- bzw. Lungenendothelzellen gegenüber Kontrollzellen untersucht. Des Weiteren war die Auswirkung einer Behandlung von ctgf herunterregulierten Zielzellen mit rCTGF gegenüber unbehandelten Kontrollzellen von Interesse. Für beide Zellsysteme konnten signifikante Genregulationen nach der Behandlung mit CTGF spezifischen shRNAs gegenüber den Kontrollzellen detektiert werden, mit interessanten Genclustern im Bereich der TGF-beta (transforming growth factor ß) Signalgebung, sowie der fokalen Adhäsion (z.B. VEGF). Eine Behandlung mit rCTGF hingegen zeigte gegenüber den unbehandelten Kontrollzellen in der Auswertung der Microarray-Analyse keine signifikante Veränderung im Genexpressionsmuster. In dieser Arbeit wurden, neben einer effektiven Gewinnung von rekombinantem CTGF und der Herunterregulation der endogenen ctgf Expression, wichtige Erkenntnisse zur Biologie von CTGF (und CYR61) in mesenchymalen Stammzellen hMSC und der Lungenendothelzelllinie HPMEC-ST1.6R erlangt. Die erhaltenen Microarray-Daten bieten eine fundierte Grundlage für zahlreiche fortführende Untersuchungen. / Cystein rich protein 61 (CYR61/CCN1) and connective tissue growth factor (CTGF/CCN2) are two very interesting members of the CNN family (CCN- CYR61/CCN1, CTGF/CCN2, NOV/CCN3, WISP1-3/CCN4-6) consisting of six members so far. Since its discovery the overlapping, but mostly non-redundant effects of CYR61 and CTGF were shown in different cell systems. Both proteins are linked to many different processes like proliferation and migration, but also angiogenesis and survival. They seem to be involved in very fundamental biological processes, amongst other the development of the musculoskeletal system and the lung and were analyzed in this study. To distinguish the two proteins CYR61 and CTGF, primary human mesenchymal stem cells (hMSC) and a human pulmonary endothelial cell line (HPMEC-ST1.6R) were chosen. Both cell systems are suited very well for getting more information about the function in these different compartments. So the cell line HPMEC-ST1.6R is more related to primary endothelial cells in reference to the cell surface markers, compared to other cell lines used for experimental research. Mesenchymal stem cells form the backbone of the musculoskeletal system and are involved in the homeostasis of this complex system. Getting adequate concentrations of recombinant proteins for the upcoming experiments a baculovirus expression system was chosen. After successful cloning of the CTGF/Fc-Tag sequence into an expression vector, recombinant CTGF/Fc of high purity was obtained for the first time, produced in SF21 insect cells. However the stable functioning of the proteins was partly confirmed by proliferation tests. To study the effect of recombinant CTGF or CYR61 in further experiments, the endogenous ctgf or cyr61expression had to be downregulated to avoid negative effects. By using specific shRNAs ctgf/CTGF has been downregulated in hMSC as well as HPMEC-ST1.6R cells and subsequently a reduced proliferation was observed. No effect was detected for the regulation of cyr61. In this study for the first time changes in regulation of gene expression after downregulation of ctgf in hMSC and HPMEC-ST1.6R cells were studied by microarray analyses. Furthermore to discover the effect of treating ctgf downregulated cells with recombinant CTGF compared to control cells was another aim of this experimental series. For both cell systems, significant gene regulations were detected after treatment with CTGF specific shRNAs with interesting gene cluster for TGFß-signaling as well as focal adhesion (e.g. VEGF). In contrast, no significant change in gene regulation was detected by microarray analysis after treating the target cells with rCTGF compared to non-treated cells. In summary, besides the effective preparation of rCTGF and the marked downregulation of ctgf gene expression, this study provides fundamental information about CTGF and its biology in hMSC and HPMEC-ST1.6R cells, as well. Based on the numerous detected gene regulations in the microarray analyses the study provides a basis for further experiments. Connective Tissue Growth Factor Mesenchymzelle Endothelzelle ddc:540
4	The Immunological Response in Rabbits to Carrageenans, Sulphated Galactans Extracted from Marine Algae Johnston, Kenneth Harper 05 1900 (has links) <p> Carrageenan, a mixture of sulphated galactans extractable by hot water from certain marine algae, has been known for its activity in a reversible stimulation of connective tissue growth. One subcutaneous injection of this polysaccharide elicits a granuloma formation which regresses after a few weeks. A single injection after regression results in heightened response; this suggested an immunological reaction. Serial injections of either lambda or kappa carrageenan into rabbits resulted in the formation of precipitins. The present study gives both qualitative and quantitative studies of the reaction involved. Fractions of carrageenans from different species of marine algae were tested for their ability to precipitate either anti-lambda carrageenan antiserum or anti-kappa carrageenan antiserum. Deductions were made from the data as to the structure of the polysaccharides.</p> / Thesis / Master of Science (MSc)
5	big bang, a novel regulator of tissue growth in Drosophila melanogaster Tsoumpekos, Georgios 07 April 2016 (has links) (PDF) Multicellular organisms need to control their size throughout development and adult life in the face of challenges such as rapid growth. Unraveling the mechanisms that regulate tissue growth in epithelial tissues, in order to generate organs of correct size and proportion, remains a crucial goal of developmental biology. A suitable epithelial tissue for studying tissue growth in Drosophila, is the proliferative monolayer epithelial sheet of imaginal wing discs, which gives rise to the adult wing. The Hippo signaling pathway regulates tissue growth in wing development. There are several observations that link tissue growth/Hippo signaling with cell polarity and the actin cytoskeletal organization. The aim of this thesis was the study of the interplay between cell polarity, cytoskeletal organization and tissue growth. To gain further insight into how apical polarity proteins regulate tissue growth, an enhancer/suppressor screen that was previously conducted in our lab by Linda Nemetschke, was used. The screen was based on the modification of a dominant smaller wing phenotype induced upon overexpression of CrbextraTM-GFP. One of the enhancers identified in this screen is a gene called big bang (bbg). The absence of bbg results in smaller wings with a slower cell cycle and increased apoptosis in wing discs. bbg encodes a protein expressed in the apical cortex in wing disc cells and is required for the proper localization of apical proteins, like Crb, in wing disc epithelia. Bbg is also in the same complex with Spaghetti Squash (Sqh) in the apical cortex of the wing disc epithelia. sqh encodes an actin-binding protein that has actin cross-linking and contractile properties. Bbg stabilizes Sqh in the apical compartment of the cell. It is reported that both Crb and Sqh regulate tissue growth through the Hippo signaling pathway. In conclusion, Bbg regulates wing tissue growth, acting as a scaffolding molecule, through the proper localization of apical components of the cells like Crb and the cytoskeletal component Sqh. tissue growth big bang crumbs Sqh Drosophila melanogaster ddc:570 rvk:WG 3700
6	Studies on the genetic control of infection and hepatic disease in schistosoma haematobium and schistosoma japonicum infections in human / Etudes du contrôle génétique des niveaux d'infection et des atteintes hépatiques dans les infections par Schistosoma haematobium et Schistosoma japonicum He, Hongbin 21 December 2010 (has links) La bilharziose reste un problème de santé majeur. L'équipe du Pr Dessein a montré que les infections élevées étaient déterminées par un locus majeur en 5q31 et que des polymorphismes dans un gène à ce locus,IL13, aggravent l'infection. Notre premier objectif était d'évaluer si des variants d'autres gènes de la voie de l'IL13 intervenaient dans le contrôle de l'infection. Nous avons observé une association entre le SNP rs324013, dans le promoteur de STAT6,et les niveaux d'infection à S. haematobium. Ce polymorphisme a un effet additif avec le polymorphisme IL13rs1800925. Ce SN modifie la fixation de facteurs nucléaires au niveau du promoteur de STAT6. L'équipe du Pr Dessein avait également montré que les fibres hépatiques avancées et sévères étaient déterminées par un autre locus majeur localisé en 6q23. Notre deuxième objectif fut d'évaluer dans le laboratoire du Pr Dessein et en étroite collaboration avec le laboratoire du Pr Li(Yueyang Institute of Parasitic disease)deux gènes candidats(IFNGR1 et CTGF) situés dans cette région chromosomique. Nous avons observé une association entre les deux polyporphismes(rs17066192 er rs673156)localisés dans le promoteur du gène. Nous avons observé une association entre les deux polymorphismes(rs17066192 et rs673156)localisés dans le promoteur du gène IFNGR1 et la fibrose hépatique: le génotype rs673156A/A et rs17066192C/C sont associés à un risque 7.3 fois et 1.5 fois plus élevé, respectivement, de fibrose avancée. Nous avons également montré que les variants rs9402373 et rs12526196 du gène CTGF sont indépendamment associés à la fibrose chez les fermiers et pêcheurs chinois infectés par S.japonicum. Sur la population chinoise d'étude, les risques relatifs associés aux polymorphismes rs9402373 et rs12526196 sont de 2.8 et 3 / Schistosomiasis remains one of the world’s most prevalent diseases. It comprises a group of chronic diseases caused by helminths of the Schistosoma genus. Schistosoma haematobium causes obstructive nephropathy that can be aggravated by urinary bacterial infections. S.japonicum and S.mansoni cause hepatic fibrosis associated with portal blood hypertension, which can be lethal. In previous studies, our laboratory had shown that worm burden in S.haematobium infections were aggravated by IL13 variants and that severe hepatic fibrosis (HF) was controlled by gene(s) located on 6q23. The present study is to further evaluate other IL-13 pathway genes (STAT6) in the control of infection in Malian farmers and to test candidate genes in the 6q23 region in hepatic fibrosis (HF) in S.japonicum infected Chinese fishermen and farmers. First we have developped an improved FTA® technology technique to perform SNP genotyping. This technique allows us to use saliva samples for genotyping SNPs. Subsequently, this improved FTA® technology was used in our study on HF.Our work on a Malian sample infected with S. haematobium indicated that a polymorphism (rs324013) in the promoter of STAT6 gene was associated with the control of S. haematobium infection levels and has an additive effect with IL13rs1800925, a polymorphism previously associated with infection in this same population. Both SNPs modify the binding of nuclear factors to the promoter regions of their respective genes. Thus, both SNPs may play a crucial role in controlling S. haematobium infection levels. In order to study HF in S.japonicum infections, we have participated actively in the study that recruited of a large sample of Chinese fishermen and farmers who had been exposed to the infection for most of their life. HF was evaluated by ultrasound and covariates that could affect HF were evaluated by interviews. Then, we tested two genes (IFNGR1, CTGF) of the 6q23 region that were good candidates for the control of HF on these samples. Both genes encode molecules that were shown in animal and human studies to have strong effect on extracellular matrix proteins deposition and turnover. We found that two polymorphisms (rs17066192 and rs673156) in IFNGR1 promoter were associated with HF: the rs673156A/A genotype was associated with a 7.3-fold increased risk of advanced HF; and rs17066192C/C genotype with a 1.5-fold increased risk of HF. These results must now be confirmed in another population sample. We also found that variants of CTGF rs9402373 and rs12526196 were independently associated with HF in Chinese fishermen and farmers, in Sudanese, and in Brazilians infected with either S. japonicum or S. mansoni. Our results provide additional evidence for a protective role of IL-13 in schistosome infections, and they also demonstrate that TGFβ / CTGF pathway plays a key role in HF and should be targeted by chemotherapy. Ongoing studies evaluate whether CTGF variants could be used in the prognosis of the HF caused by schistosomes and also by other infectious agents. Bilharziose Génétique Susceptibilité Fibrose Ctgf Stat6 Schistosomiasis Hepatic fibrosis Connective tissue growth factor Stat6 transcription factor
7	Morphogenesis Control By Mechanical Stress / Mechanism behind efficient plant growth Khadka, Jason 29 May 2019 (has links) No description available. 571.4 Tissue Mechanics Morphogenesis Plant Tissue Growth Vertex Model Three dimensional tissue model Biologie (PPN619462639)
8	Regulation of Fibroblast Activity by Keratinocytes / Keratinocyters påverkan på fibroblasters aktivitet Nowinski, Daniel January 2005 (has links) <p>In the healing of cutaneous wounds, paracrine communication between keratinocytes and fibroblasts regulates cell differentiation, proliferation and synthesis of extracellular matrix. Deficient epidermal coverage, as seen in burn-wounds, frequently results in hypertrophic scars. Previous studies suggest that keratinocytes downregulate the production of collagen and profibrotic factors in fibroblasts. We hypothesized that keratinocytes downregulate the expression of the profibrotic factor connective tissue growth factor (CTGF) in fibroblasts, and regulate fibroblast expression of genes important to wound healing. In keratinocyte-fibroblast cocultures, keratinocytes downregulated CTGF mRNA and protein in fibroblasts, through the secretion of interleukin-1 (IL-1) α. Using Affymetrix DNA microarrays, it was demonstrated that factors from keratinocytes regulate the expression of 69 genes important to wound healing. The regulation of 16 of these genes was confirmed by Northern blotting, and IL-1α from keratinocytes regulated all the 16 genes examined. IL-1-mediated CTGF gene regulation was further investigated. Both IL-1 isoforms, α and β, suppressed CTGF expression through an inhibition of CTGF promoter activity. Interestingly, transforming growth factor-β-stimulated Smad phosphorylation was not affected by IL-1. Finally, we hypothesized that CTGF is downregulated in burn wound by split-thickness skin grafting and that the expression of CTGF is suppressed during reepithelialization. The expression of CTGF protein was decreased in successfully skin-grafted wound areas, and increased in open, granulating burn wounds. Moreover, CTGF protein expression was absent beneath the migrating edge of reepithelialization <i>ex vivo</i>. In conclusion, we demonstrate that, in <i>in vitro</i> models, keratinocyte-derived IL-1α regulates the expression of CTGF and other genes with importance to wound healing. Furthermore, it is shown that CTGF expression is suppressed by epidermal wound coverage i burn wounds. These findings may have implications for the understanding of keratinocyte-fibroblast interplay during wound healing and in hypertrophic scar pathogenesis.</p> Surgery conective tissue growth factor interleukin-1 fibroblast keratinocyte wound healing burns Kirurgi Surgery Kirurgi
9	Regulation of Fibroblast Activity by Keratinocytes / Keratinocyters påverkan på fibroblasters aktivitet Nowinski, Daniel January 2005 (has links) In the healing of cutaneous wounds, paracrine communication between keratinocytes and fibroblasts regulates cell differentiation, proliferation and synthesis of extracellular matrix. Deficient epidermal coverage, as seen in burn-wounds, frequently results in hypertrophic scars. Previous studies suggest that keratinocytes downregulate the production of collagen and profibrotic factors in fibroblasts. We hypothesized that keratinocytes downregulate the expression of the profibrotic factor connective tissue growth factor (CTGF) in fibroblasts, and regulate fibroblast expression of genes important to wound healing. In keratinocyte-fibroblast cocultures, keratinocytes downregulated CTGF mRNA and protein in fibroblasts, through the secretion of interleukin-1 (IL-1) α. Using Affymetrix DNA microarrays, it was demonstrated that factors from keratinocytes regulate the expression of 69 genes important to wound healing. The regulation of 16 of these genes was confirmed by Northern blotting, and IL-1α from keratinocytes regulated all the 16 genes examined. IL-1-mediated CTGF gene regulation was further investigated. Both IL-1 isoforms, α and β, suppressed CTGF expression through an inhibition of CTGF promoter activity. Interestingly, transforming growth factor-β-stimulated Smad phosphorylation was not affected by IL-1. Finally, we hypothesized that CTGF is downregulated in burn wound by split-thickness skin grafting and that the expression of CTGF is suppressed during reepithelialization. The expression of CTGF protein was decreased in successfully skin-grafted wound areas, and increased in open, granulating burn wounds. Moreover, CTGF protein expression was absent beneath the migrating edge of reepithelialization ex vivo. In conclusion, we demonstrate that, in in vitro models, keratinocyte-derived IL-1α regulates the expression of CTGF and other genes with importance to wound healing. Furthermore, it is shown that CTGF expression is suppressed by epidermal wound coverage i burn wounds. These findings may have implications for the understanding of keratinocyte-fibroblast interplay during wound healing and in hypertrophic scar pathogenesis. Surgery conective tissue growth factor interleukin-1 fibroblast keratinocyte wound healing burns Kirurgi Surgery Kirurgi
10	CCN2 – Keratinocyte Interactions In Vitro and In Vivo Kiwanuka, Elizabeth January 2014 (has links) Cutaneous wound healing is a complex process involving the migration of inflammatory cells to the wound site, deposition of extracellular matrix, and the reestablishment of an intact epithelial barrier. Re-epithelialization depends on the proliferation and directional migration of keratinocytes from the wound edges. Initially, keratinocytes migrate over a provisional wound matrix that is rich in fibronectin, and as the wound heals the provisional matrix becomes replaced by one consisting of collagen and proteoglycans. Re-epithelialization is tightly regulated by a variety of peptides such as growth factors, cytokines and proteases, and abnormalities may result in chronic non-healing wounds or hypertrophic scars. CCN2 (Connective Tissue Growth Factor) is a multifunctional protein with effects on cells and their interactions with the connective tissue. CCN2 is expressed in a variety of cell types and regulates numerous cell functions including proliferation, differentiation, adhesion, migration and stimulation of collagen production. While the importance of CCN2 for the fibrotic response has been well studied, its involvement in keratinocyte function has not yet been fully explored. Using an in vivo wound model, the expression of CCN2 was captured at the leading keratinocyte edge during re-epithelialization. In vitro, exogenous addition of CCN2 to human keratinocyte cultures promoted keratinocyte migration. Subsequently, integrin a5b1 was identified as an important mediator of CCN2 enhancement of keratinocyte adhesion to fibronectin. CCN2 activated the FAK-MAPK signaling pathway, and pretreatment with MEK1 specific inhibitor PD98059 markedly reduced CCN2-promoted keratinocyte migration. In vitro, CCN2 expression was induced by TGF-β1. Compared with inhibiting the SMAD pathway, blocking MAPK was more effective in reducing TGF-β1-induced CCN2 mRNA and protein expression. In addition, CCN2-induced keratinocyte spreading required FAK. Treatment with CCN2 led to actin disassembly and altered the activity of the Rho proteins and p190RhoGAP in keratinocytes. Furthermore, Cdc42 mediated CCN2-induced cell polarity. In conclusion, using in vivo and in vitro models, CCN2 was shown to regulate keratinocyte function by promoting keratinocyte adhesion, spreading and migration. A complete understanding of CCN2 expression in keratinocytes is crucial in order to develop novel therapies for wound healing. CCN2 connective tissue growth factor keratinocytes re-epithelialization cell migration cell signaling

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