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251	THE EXPRESSION AND FUNCTION OF PHOSPHACAN/RPTPβ IN ADAPTIVE SYNAPTOGENESIS AFTER TRAUMATIC BRAIN INJURY Harris, Janna 24 November 2008 (has links) Traumatic brain injury (TBI) affects 1.5 million Americans annually and is a major health concern. Increasing evidence suggests that the brain extracellular environment regulates plasticity and synaptic recovery following TBI. Here we have focused on phosphacan/RPTPβ, an alternatively spliced group of chondroitin sulfate proteoglycans which are prominent within the mature brain extracellular matrix (ECM). Previous studies show that phosphacan/RPTPβ influences neuronal migration, adhesion, neurite outgrowth, and morphogenesis. However, our understanding of how these important ECM components are involved in recovery from brain trauma remains unclear. In the present study, we used unilateral entorhinal cortex lesion (UEC), a model which induces robust hippocampal reactive plasticity, to investigate the role(s) of phosphacan/RPTPβ isoforms in adaptive synaptogenesis after TBI. Using detailed protein and mRNA quantification, immunohistochemistry, and qualitative ultrastructural analyses, we show elevated phosphacan expression in the deafferented hippocampus at the early degenerative phase and during the subsequent period of active sprouting. By contrast, the receptor variant sRPTPβ is persistently elevated in hippocampus over the first two weeks following UEC. We have further characterized a process for validating appropriate reference genes for quantitative real-time RT-PCR studies of plasticity and recovery after TBI. From these studies we conclude that injury model, brain region, survival period and correlative protein expression are critical factors which must be considered for reference gene selection. Finally, we investigated functional implications of sRPTPβ increase during reactive synaptogenesis, showing that the sRPTPβ substrate β-catenin, an important cytoskeletal regulator, is altered in hippocampus during injury-induced plasticity. Together, these results support a role for phosphacan/RPTPβ in both degenerative and regenerative phases of reactive synaptogenesis. Phosphacan may promote adaptive plasticity at earlier post-injury phases through interactions with adhesion molecules or growth factors in the extracellular space. The prolonged increase in sRPTPβ after UEC, along with its localization at postsynaptic profiles, suggests that this isoform may work with intracellular substrates to influence spine morphogenesis and/or stabilization of new synapses. Gaining a better understanding of the roles of ECM components in recovery from TBI will be an essential part of defining the difference between injuries where recovery is successful, and those where recovery fails. Brain injury plasticity extracellular matrix hippocampus Anatomy Medicine and Health Sciences Nervous System
252	TISSUE ENGINEERING CELLULARIZED SILK-BASED LIGAMENT ANALOGUES Sell, Scott 26 June 2009 (has links) The resurgence, and eventual rise to prominence in the field of tissue engineering, that electrospinning has experienced over the last decade speaks to the simplicity and adaptability of the process. Electrospinning has been used for the fabrication of tissue engineering scaffolds intended for use in nearly every part of the human body: blood vessel, cartilage, bone, skin, nerve, connective tissue, etc. Diverse as the aforementioned tissues are in both form and function, electrospinning has found a niche in the repair of each due to its capacity to consistently create non-woven structures of fibers ranging from nano-to-micron size in diameter. These structures have had success in tissue engineering applications because of their ability to mimic the body’s natural structural framework, the extracellular matrix. In this study we examine a number of different techniques for altering scaffold properties (i.e. mechanical strength, degradation rate, permeability, and bioactivity) to create electrospun structures tailored to unique tissue specific applications; the end goal being the creation of a cellularized tissue engineering ligament analogue. To alter the mechanical properties of electrospun structures while maintaining high levels of bioactivity, synthetic polymers such as polydioxanone were blended in solution with naturally occurring proteins like elastin and fibrinogen prior to electrospinning. Cross-linking of electrospun structures, using glutaraldehyde, carbodiimide hydrochloride, and genipin, was also investigated as a means to both improve the mechanical stability and slow the rate of degradation of the structures. Fiber orientation and scaffold anisotropy were controlled through varying fabrication parameters, and proved effective in altering the mechanical properties of the structures. Finally, major changes in the structure of electrospun scaffolds were achieved through the implementation of air-gap electrospinning. Scaffolds created through air-gap electrospinning exhibited higher porosity’s than their traditionally fabricated counterparts, allowing for greater cell penetration into the scaffold. Overall, this collection of results provides insight into the diversity of electrospinning and reveals innumerous options, both pre and post fabrication, for the tissue engineer to create site-specific engineering scaffolds capable of mimicking both the form and function of native tissue. Tissue Engineering Electrospinning Extracellular Matrix Silk Fibroin Ligament Vascular Graft Engineering
253	Scaffold Permeability as a Means to Determine Fiber Diameter and Pore Size of Electrospun Fibrinogen Sell, Scott Allen 01 January 2006 (has links) The purpose of this study was to construct a flowmeter that could accurately measure the hydraulic permeability of electrospun fibrinogen scaffolds, providing insight into the transport properties of electrospun scaffolds while making the measurement of their topographical features (fiber and pore size) more accurate. Three different concentrations of fibrinogen were used (100, 120, and 150mg/ml) to create scaffolds with three different fiber diameters and pore sizes. The fiber diameters and pore sizes of the electrospun scaffolds were analyzed through scanning electron microscopy and image analysis software. The permeability of each scaffold was measured and used to calculate permeability-based fiber diameters and pore sizes, which were compared to values obtained through image analysis. Permeability measurement revealed scaffold permeability to increase linearly with fibrinogen concentration, much like average fiber diameter and pore size. Comparison between the two measurement methods proved the efficacy of the flowmeter as a way to measure scaffold features. tissue engineering extracellular matrix permeability fiber diameter pore size fibrinogen Engineering
254	Determination of the Mechanical Properties of Electrospun Gelatin Based on Polymer Concentration and Fiber Alignment Taylor, Leander, III 01 January 2006 (has links) The process of electrospinning has given the field of tissue engineering insight into many aspects of tissue engineered scaffolds, including how factors such as fiber diameter and porosity are affected by polymer concentration. However, the affects of fiber alignment upon the material properties of electrospun scaffolds remains unclear. The purpose of this study is to determine how the material properties of electrospun gelatin scaffolds are affected by changes in fiber alignment and starting gelatin concentration. Gelatin scaffolds, with starting concentrations of 80, 100, and 130mg/m1, were electrospun onto a target mandrel rotating at various speeds. Samples of each scaffold were taken parallel and perpendicular to the axis of mandrel rotation. Fast Fourier Transform (FFT) analysis was performed on these samples, to determine how fiber alignment is affected by starting polymer concentration and the rotational speed of the target mandrel. Mechanical tests were aiso performed on these samples. Results were analyzed by Three-way ANOVA. It was determined that starting gelatin concentration, mandrel speed, and direction of fiber alignment interact together to produce effects on the mechanical properties of electrospun gelatin scaffolds. electrospinning tissue engineering cell adhesion extracellular matrix Engineering
255	The Role of Matrix Metalloproteinase 9 and Osteopontin in Synaptogenesis and Reinnervation of the Olfactory Bulb Following Brain Injury Powell, Melissa A 01 January 2016 (has links) Traumatic brain injury (TBI) is a serious health concern, causing cognitive, motor, and sensory deficits, including olfactory dysfunction. This dissertation explores the effects of TBI on synaptic plasticity within the olfactory system, seeking to define mechanisms guiding postinjury sensory reinnervation. Physical forces induced by TBI can axotomize olfactory receptor neurons (ORNs), which innervate olfactory bulb (OB). These axons regenerate OB projections after injury, a process involving growth through a complex extracellular matrix (ECM). As such, we investigated a potential molecular mechanism capable of modifying local OB ECM to support postinjury synaptogenesis. Since matrix metalloproteinases (MMPs) and their ECM substrates are recognized for TBI therapeutic potential, we explored the role of MMP9 and its substrate osteopontin (OPN) in promoting ORN reinnervation of the OB after mild fluid percussion injury (FPI). First, we confirmed that FPI deafferented the mouse OB. In Chapter 2, we showed concurrent activation of neuroglia, elevated spectrin proteolysis and reduction in ORN-specific olfactory marker protein (OMP). As OMP normalized during regeneration, growth associated protein-43kD (GAP-43) peaked, marking OB entry of ORN growth cones. Ultrastructural analysis revealed ongoing ORN axon shrinkage and degeneration, glial phagocytosis of cellular debris, and a reorganization of synaptic structure. To explore ECM role in mediating postinjury OB reinnervation, we defined the time course of MMP9 activity and several downstream targets. Chapter 3 reports biphasic MMP9 activity increase during acute/subacute degeneration, accompanied by robust generation of 48kD OPN cell signaling peptide. OPN receptor CD44 also increased during the acute/subacute interval, suggesting potential interaction of the two proteins. Finally, we utilized MMP9 knockout (MMP9KO) mice to confirm MMP9 role in OB synaptogenesis. In Chapter 4, MMP9KO reversed FPI-induced lysis of 49kD OPN and altered postinjury expression of ORN axon degeneration marker OMP. Additional ultrastructural analysis verified delayed recovery of OB synaptic features within the injured MMP9KO. Overall, we demonstrated that mild FPI elicits ORN axotomy to induce OB reactive synaptogenesis, and that MMP9 supports reinnervation by processing OPN for activation of local glia, cells which reorganize the ECM for synapse regeneration. Traumatic Brain Injury Synaptogenesis Olfactory Bulb Matrix Metalloproteinase 9 Osteopontin Extracellular Matrix Neuroscience and Neurobiology
256	Influence de sécrétions ascitiques sur le comportement des cellules cancéreuses ovariennes : identification de cibles moléculaires adhésives. / Influence of ascitic fluids on the behavior of ovarian cancer cells : identification of molecularadhesive targets. Carduner, Ludovic 20 December 2013 (has links) Le cancer de l'ovaire représente la première cause de décès par cancer gynécologique. La survie globale des patientes à 5 ans est inférieure à 30%. Ce sombre pronostic s'explique à la fois par la découverte tardive de la maladie et par le développement d'une chimiorésistance. L'ascite est un fluide exsudatif qui est fréquemment accumulé dans la cavité péritonéale au cours de la progression des cancers de l'ovaire. Ce « microenvironnement tumoral » particulier contribue à la dissémination des cellules cancéreuses et à leurs implantations péritonéales.L'objectif global du travail de thèse a été, d'une part d'évaluer l'influence de l'ascite sur le comportement des cellules cancéreuses ovariennes et d'autre part, d'étudier les mécanismes de résistance à la perte d'ancrage des cellules cancéreuses ovariennes.Nous avons ainsi démontré que l'ascite induit une transition épithélio-mésenchymateuse partielle et que les modifications des comportements cellulaires observées sont dépendantes des intégrines alpha-v.Deux ligands de ces intégrines, la vitronectine et la fibronectine, ont été purifiés selon un protocole original permettant la caractérisation des deux protéines à partir d'une même ascite. Ces protéines ascitiques ont des propriétés différentes selon leur origine, donc selon les patientes dont elles sont issues, et influencent le comportement adhésif des cellules avec un degré variable. L'importance de la signalisation dépendante des intégrines alpha-v et des voies MAP Kinases a également été démontrée dans l'établissement d'une résistance des sphéroïdes tumoraux à l'anoïkis.En perspective, approfondir les connaissances des processus cellulaires et moléculaires conduisant à la dissémination intrapéritonéale et à l'émergence de chimiorésistance ainsi que déterminer le rôle potentiel de protéines ascitiques dans ces processus pourraient permettre la découverte de nouvelles cibles thérapeutiques. / Ovarian cancer is the most lethal gynaecological malignant disease, mainly due to late diagnosis and to acquired chemoresistance. An exudative fluid named ascites is frequently accumulates within the abdominal cavity during ovarian cancer progression. This unique tumor microenvironment contributes to cancer cell dissemination and peritoneal metastasis.The aim of the study was to evaluate the influence of ascites on cancer cell behaviors and to better understand the mechanisms of ovarian cancer cell resistance to the loss of anchorage.We demonstrate that ascites induces a partial epithelial–mesenchymal transition and that the modifications of cell behaviors observed are dependent of alpha-v integrins. A combined purification protocol has been established in order to purify vitronectin and Fibronectin, both ligands of these integrins, from a single pathological sample. These purified ascitic proteins have different molecular features according to the patients and impact the adhesive cell behavior with various degrees.Moreover we showed the importance of alpha-v integrins and MAP Kinases signalling pathways in the anoikis resistance of ovarian cancer spheroids.Our prospects are i) to increase the knowledge of the cellular and molecular processes leading to the intraperitoneal dissemination and to the emergence of chemoresistance and also ii) to determine the potential role of ascitics proteins in these processes. We will expect that these investigations couldlead to the discovery of new therapeutic targets. Cancer ovarien Ascites Comportement cellulaire Sphéroïdes Matrice extracellulaire Ovarian cancer Ascites Cell behavior Spheroids Extracellular matrix
257	Étude prospective pour la recherche et la caractérisation d’éléments desmosomaux et périkératinocytaires dont l’expression est liée à la différenciation épidermique / Prospective study for the research and characterization of epidermal proteins related to differentiation expressed in desmosomes and at the keratinocyte periphery Sandjeu, Yongoua 16 December 2010 (has links) L’épiderme est un tissu épithélial stratifié et kératinisé, majoritairement composé de kératinocytes. La cohésion de l’épiderme, élémentaire à la fonction-barrière et donc à la protection de l’organisme, est assurée grâce à des systèmes de jonctions intercellulaires, notamment les desmosomes. Comme l’indiquent nos résultats d’étude de la desmosealine, un protéoglycanne épidermique présent dans la partie extracellulaire des desmosomes, la composition de ces jonctions n’est pas encore entièrement élucidée. Les éléments matriciels issus des espaces extracellulaires de l’épiderme peuvent être incorporés au sein des desmosomes et participer ainsi à la régulation de la différenciation et la cohésion épidermiques. Nous avons mis au point une méthode permettant d’isoler les desmosomes épidermiques humains utilisables pour créer de nouveaux anticorps et favorisant la caractérisation biochimique de ces structures. Un nouvel anticorps monoclonal reconnaissant un antigène situé à la surface des kératinocytes, dont l’expression varie en fonction du degré de différenciation kératinocytaire, a été crée. A l’aide de cet anticorps, nous avons entrepris la caractérisation biochimique et par spectrométrie de masse de l’antigène associé. Nous avons ainsi développé de nouveaux outils biologiques et techniques utilisables pour l’étude des desmosomes et de leurs éléments issus de la matrice extracellulaire épidermique / Epidermis is a stratified, keratinized epithelial tissue, mostly composed of keratinocytes. Epidermal barrier function provided by epidermis is essential for protection of the organism and largely depends on cell cohesion. Desmosomes constitute the most prominent cell-to-cell junction system involved in this function. As indicated by our results of studies on desmosealin, an epidermal proteoglycan present in the extracellular parts of desmosomes, the composition of these junctions is not yet completely resolved. Elements of the intercellular matrix can be incorporated into desmosomes and thus participate in the regulation of the epidermal differentiation and cohesion. We established a method to isolate human epidermal desmosomes in order to create new antibodies allowing the biochemical characterization of new desmosomal components. A new monoclonal antibody has been generated. It recognizes an antigen located at the keratinocyte surface with an expression pattern depending on the level of keratinocyte differentiation. Using this antibody, we have engaged the biochemical and mass spectrometry characterization of the corresponding antigen. This work contributes to the development of new biological and technical tools useful for studies of desmosomes and of their components issued from the epidermal extracellular matrix Desmosomes Protéoglycannes Matrice extracellulaire épidermique Différenciation Desmosomes Proteoglycans Epidermal extracellular matrix Differentiation 573.5
258	Transcriptional regulation of cardiac extracellular matrix gene expression and fibroblast phenotype by scleraxis Adhikari Bagchi, Rushita 18 April 2016 (has links) Cardiac fibrosis contributes to heart failure by dramatically impairing cardiac function, increasing patient morbidity and mortality. The primary fibrillar collagen expressed in the heart is type I, and increased collagen synthesis is the hallmark of cardiac fibrosis. Our laboratory has shown that the transcription factor scleraxis is sufficient to regulate the gene encoding collagen Iα2. The present thesis identifies and focuses on three key functions of scleraxis in the heart. First, we show that scleraxis is required for production of the cardiac extracellular matrix. Using in vitro and in vivo models, we observed a significant upregulation/reduction of matrix genes in response to induction/loss of scleraxis gene function respectively. In fact, scleraxis overexpression was sufficient to rescue matrix synthesis in scleraxis-null cells. In a murine model of cardiac pressure overload, scleraxis gene deletion blunted the induction of fibrotic collagen gene expression. Second, we provide evidence that scleraxis governs fibroblast-myofibroblast phenotype transition and fibroblast number. Scleraxis gene induction promoted cardiac myofibroblast phenoconversion while knockdown reduced myofibroblast marker gene expression. Scleraxis exerts direct transcriptional control on the a-smooth muscle actin gene-an established marker of myofibroblasts. Scleraxis null mice exhibited a dramatic reduction in cardiac fibroblast numbers- this is attributed to impairment of the epithelial-to-mesenchymal transition program which was marked by a corresponding loss of mesenchymal markers and increased epithelial markers. Loss-of-function experiments using primary cardiac proto-myofibroblasts recapitulated this paradigm, whereas scleraxis gene induction showed a reciprocal effect on mesenchymal markers. Third, data from this study supports the required role of scleraxis in the TGFb/Smad signaling pathway. Scleraxis is strongly upregulated by the potent pro-fibrotic cytokine TGFb, and works synergistically with the canonical Smad signaling pathway to increase Col1a2 expression by cardiac fibroblasts and myofibroblasts. Smad3 induced expression of the fibrillar collagens – an effect that was significantly attenuated following scleraxis knockdown. Smad3 binding to the Col1a2 gene promoter was significantly reduced in scleraxis null hearts. This study involved a comprehensive series of in vitro and in vivo experiments, and is the first to identify scleraxis as a key regulator of multiple fibroblast functions and a potential future target for therapeutic intervention in cardiac fibrosis. / May 2016 fibroblast myofibroblast transcription gene regulation transgenic mice extracellular matrix conditional knockout fibrosis
259	Laminins and alpha11 integrin in the human eye : importance in development and disease Byström, Berit January 2008 (has links) The extracellular matrix (ECM) offers a protective shelter for cells and provides signaling paths important for cell to cell communication. ECM consists of basement membranes (BM) and interstitial matrix. BMs provide mechanical support for parenchymal cells, influence cell proliferation, survival, migration and differentiation. They are also important for tissue integrity. Laminins (LM) are the major non-collagenous component of BMs. Cell-ECM interactions, mediated by receptors, are indispensable during embryonic development, wound healing, remodeling and homeostasis of tissues. The integrins are the major cell-adhesion receptors. The expression of alpha11 integrin chain in the cornea is of great interest, as it is part of the alpha11beta1 integrin receptor for collagen type I, the predominant component of the corneal stroma. The aims were to thoroughly characterize the ECM in the developing and adult human eye, with particular focus on the cornea, LM and alpha11 integrin chains, and to examine alpha11 integrin chain in an animal model of corneal wound healing and remodeling. Human fetal eyes, 9-20 weeks of gestation (wg), and adult human corneas with different diagnosis were treated for immunohistochemistry with specific antibodies against LM and alpha11 integrin chains. Normal and knockout (ko) mice were treated with laser surgery to create a deep wound in the corneal stroma. The wound healing process was followed at different time points. The cellular source of alpha11 integrin chain was studied in cell cultures. In the fetal eyes, the BM of the corneal epithelium, the Descemet’s membrane (DM) and the Bruch’s membrane each had their specific combinations of LM chains and time line of development, whereas the lens capsule and the internal limiting membrane showed constant LM chain patterns. The epithelial BMs of normal and diseased adult corneas contained similar LM chains. The normal morphology of the epithelial BM was altered in the different diseases, particularly when scarring was present. In the scarred keratoconus corneas there were excessive LM chains. The majority of keratoconus corneas also expressed extra LM chains in the DM. At 10-17 wg alpha11 integrin chain was present in the human corneal stroma, especially in the anterior portion, but it was scarce at 20 wg, in normal adult corneas and in Fuchs’ endothelial dystrophy. In contrast, it was increased in the anterior portion of the stroma in keratoconus corneas with scarring. Alpha11 integrin ko mice had a defective healing with subsequent thinner corneas. Alpha11 integrin expression correlated to the presence of alpha-smooth muscle actin in vivo as well as in vitro. The distinct spatial and temporal patterns of distribution for alpha11 integrin and each of the LM chains suggest that they play an important role in human ocular differentiation. The selectively affected LM composition and the novel expression of alpha11 integrin chain in scarred keratoconus corneas as well as the pathologic healing in ko mice, indicate that alpha11 integrin and LM chains also play an important role in the process of corneal healing, remodeling and scarring and might participate in the pathogenesis of corneal disease. This knowledge is of practical importance for future topical therapeutic agents capable of modulating the corneal wound healing processes. basement membranes extracellular matrix laminin integrin cornea development keratoconus wound healing remodeling immunohistochemistry Ophtalmiatrics Oftalmiatrik
260	Propriétés anti-angiogéniques d'un fragment dérivé du collagène V : mécanismes moléculaires et perspectives thérapeutiques / Anti-angiogenic properties of a collagen V-derived peptide : molecular mechanisms and therapeutic perspectives Manuel, Rachel 08 January 2013 (has links) La matrice extracellulaire joue un rôle très important dans la régulation de l’angiogenèse en procurant un support dans la formation des vaisseaux, en délivrant des facteurs endogènes pro- ou anti-angiogéniques. Nous avons montré que l’hypoxie induit une surexpression du gène COL5A1 dans les cellules endothéliales. Le laboratoire a identifié un fragment issu du collagène V, noté HEPV, qui contient un site de liaison à l’héparine, et qui montre des propriétés anti-angiogéniques remarquables. En effet, ce fragment est capable d’inhiber la prolifération et la migration des cellules endothéliales vasculaires et leur maturation en tubes endothéliaux. Les résultats obtenus montrent qu’HEPV est capable d’empêcher la phosphorylation de ERK1/2 et de Akt induite par le FGF-2 et donc la réponse aux stimuli mitogènes induits par FGF-2. De plus, une étude transcriptomique réalisée sur des cellules endothéliales traitées ou non par HEPV a révélé que HEPV est capable d’induire l’expression de COL4A1 et COL18A, gènes codant pour des collagènes qui peuvent aussi être clivés et libérer des facteurs anti-angiogéniques. Finalement, nous avons utilisé un modèle d’angiogenèse murin afin de valider in vivo l’activité anti-angiogénique d’HEPV. Ces expériences montrent que le peptide injecté en intraveineuse s’accumule au site d’angiogenèse en se fixant sur les vaisseaux en formation, et est capable d’inhiber l’angiogenèse induite par le FGF-2, alors qu’un peptide contrôle muté sur le site de liaison à l’héparine n’a aucun effet. Ce peptide est capable également d’inhiber efficacement l’angiogenèse tumorale, une inhibition qui se traduit par un ralentissement de la croissance de la tumeur / The basement membrane plays an important role in angiogenesis by providing support necessary for blood vessel formation and supplying endogenous pro- and anti-angiogenic factors that condition the endothelial cells behavior. CoLV is present at the vicinity of endothelial cell basement membrane? We previously showed that a fragment derived from COLV a1, named HEPV, contains a functional heparin binding site, inhibits specifically endothelial cell proliferation and migration and disrupts endothelial tube formation. Prolonged treatment with HEPV results in the activation of collagen IV a1 and collagene XVIII a1 expression, the parental molecules of the anti-angiogenic fragments arresten and endostatin respectively. Heparin binding sites have been involved in the regulation of FGF2-induced angiogenesis. Soluble HEPV significantly inhibits phosphorylation of ERK1/2 and AKT in FGF2-stimuled endothelial cells. Moreover, in vivo experimentation using the mouse angiogenesis subcutaneous sponge assay shows that HEPV accumulates at angiogenic sites and inhibits FGF-2-induced angiogenesis. HEPV also significantly lowers intra-tumoral angiogenesis and tumor xenograft growth in nude mice. We also showed that hypoxia, the major angiogenesis-inducing factor, induces Collagen V production by endothelial cells and the release of a fragment encompassing HEPV into the culture medium. Finally, the released of HEPV-containing fragments in vivo was attested by the immunodetection of the fragment with specific antibodies in human breast cancer in which collagen V is overexpressed. Collectively, our results qualify HEPV as a new endogenous regulator angiogenesis with possible application in cancer therapy Matrice extracellulaire Collagène V HEPV Angiogenèse Extracellular matrix Collagen V HEPV Angiogenesis 572.6

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