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Helicobacter pylori dans un modèle de carcinogenèse gastrique impliquant les cellules souches mésenchymateusesFerrand, Jonathan 21 December 2009 (has links)
L’infection par Helicobacter pylori touche environ la moitié de la population mondiale et est responsable de plusieurs pathologies gastrointestinales incluant l’adénocarcinome gastrique. Le développement récent d’un modèle d’étude chez l’animal a permis d’identifier la nature des cellules à l’origine de la transformation cancéreuse en réponse à l’infection chronique par Hélicobacter. Les cellules souches mésenchymateuses de la moelle osseuse (MSC) seraient recrutées au niveau de la muqueuse gastrique afin de reconstituer, par un mécanisme de différenciation épithéliale, les glandes lésées par l’infection. L’adénocarcinome gastrique se développerait à partir des glandes reconstituées par les MSC. Les objectifs de ces travaux ont été d’analyser, in vitro par une approche séquentielle, les différentes étapes responsables de l’initiation tumorale incluant le recrutement des MSC au niveau gastrique, leur différenciation en cellules épithéliales et leur transformation tumorale lors de l’infection par H. pylori. Ces travaux ont tout d’abord démontré que les cellules épithéliales infectées par H. pylori peuvent recruter les MSC après sécrétion de certaines chimiokines. Nous avons ensuite montré que les MSC sont capables de fusionner avec les cellules épithéliales gastriques aboutissant à l’obtention de cellules épithéliales dérivées des MSC. Finalement, les interactions entre H. pylori et les MSC ont été étudiées et ont fourni des premiers éléments de compréhension des mécanismes de l’initiation tumorale. Nos résultats permettent de mieux comprendre le mécanisme physiopathologique de l’adénocarcinome gastrique et seront utiles à la compréhension d’autres cancers dans lesquels le rôle des MSC comme cellules initiatrices de tumeur est suggéré. / Helicobacter pylori infection is found in about half of the world population and can induce several gastrointestinal pathologies including gastric adenocarcinoma. An animal model recently led to the hypothesis of a cellular origin for the cancer initiating cells after Helicobacter infection. Bone marrow-derived mesenchymal stem cells (MSC) are believed to be recruited in the gastric mucosa in order to repair the damages due to infection, by an epithelial differentiation. Gastric carcinoma may rise from MSC reconstituted gastric glands. This study aimed to analyze, by sequential in vitro approaches, the different steps allowing tumor initiation including MSC recruitment by infected epithelial cells, epithelial differentiation of MSC, and cancer marker appearance after H. pylori infection. We first demonstrated that H. pylori infected epithelial cells may recruit MSC by a secretion of cytokines. We then showed that MSC fuse with gastric epithelial cells leading to MSC-derived epithelial cells. Finally, we studied the interaction between H. pylori and epithelial cells providing a preliminary explanation for cancer initiation. Our results allow a better understanding of gastric adenocarcinoma pathophysiology and will be helpful for the understanding of other cancers in which the role of MSC as cancer initiating cells is suspected.
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Le CLCF1 inhibe la différenciation des MSC en ostéoblastesNahlé, Sarah 03 1900 (has links)
No description available.
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Studium migrace mesenchymálních kmenových buněk v extracelulárním matrix na principu chemotaxe / Study of mesenchymal stem cell migration in the extracellular matrix based on principles of chemotaxisScholasterová, Viktorie January 2021 (has links)
This thesis engages in a study of mesenchymal stem cell migration in extracellular matrix based on principles of chemotaxis. First, attention is focused on a theoretical part associated with a clarification of basic terms such as extracellular matrix, migration, confocal microscopy, mesenchymal stem cells or chemotaxis. There is also included a list and a description of some basic methods for monitoring cell migration and a more detailed description of a method called transwell assay, which has been chosen for an experiment in a practical part of this thesis. This part includes protocols of individual steps for the preparation of the experiment, the procedure of data processing obtained by scanning cells with a confocal microscope and a description of the resulting confluence values.
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Untersuchungen zur therapeutischen Anwendung mesenchymaler Stammzellen bei chronischen Lebererkrankungen am Beispiel der Nicht-alkoholischen SteatohepatitisWinkler, Sandra 25 November 2014 (has links)
Die Nicht-alkoholische Steatohepatitis (NASH), gehörig zu der Gruppe der chronischen Lebererkrankungen als eine schwere Form der Nicht-alkoholischen Fettleber-erkrankungen (NAFLD), nimmt in ihrer Prävalenz ständig zu. Gründe dafür sind u.a. eine gesteigerte Nahrungsaufnahme sowie Veränderungen der Nahrungszusammen-setzung. Es kommt zur Ausbildung einer Steatose, die sich unter Mitwirkung verschie-dener Einflussfaktoren zur Steatohepatitis weiterentwickeln kann, wobei die Pathoge-nese noch nicht genau verstanden ist. Die Nicht-alkoholische Steatohepatitis geht oft einher mit Insulinresistenz und starkem Übergewicht. Die Folgen für die Leber sind Funktionseinschränkungen und –verlust, hervorgerufen durch eine massive Akkumula-tion von Triglyzeriden in den Hepatozyten, Entzündungsprozesse sowie einem fibro-tischen Umbau der Leber. Im fortgeschritten Stadium wird eine Lebertransplantation unausweichlich, die jedoch aufgrund des zunehmenden Mangels an Spenderorganen oft nicht möglich ist. Eine Alternative bietet die Transplantation mesenchymaler Stammzellen (MSC). MSC können in vitro in leberzellähnliche Zellen differenziert wer-den und weisen dabei essentielle hepatozytäre Eigenschaften auf, wodurch sie als möglicher Ersatz bzw. als Überbrückungstherapie bis zur Lebertransplantation in Frage kommen. Die vorliegende Arbeit beschäftigte sich mit dieser Fragestellung. Dazu wur-de ein Tiermodell der NASH mittels Methionin-Cholin-defizienter Diät (MCD-Diät) etab-liert und die Transplantation von hepatozytär differenzierten MSC durchgeführt. An-hand spezifischer zellulärer und biochemischer Marker der NASH konnte die Wirkung des Zelltransplantats auf die Empfängerleber analysiert werden. Es hat sich gezeigt, dass die MSC einen anti-inflammatorischen, anti-fibrotischen und pro-proliferativen Einfluss auf das Empfängerparenchym hatten und somit zur Verbesserung der Symptomatik der NASH beitrugen.
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Mesenchymální kmenové buňky a jejich regenerační a imunomodulační potenciál / Mesenchymal stem cells and their regenerative and immunomodulatory potentialBrychtová, Michaela January 2016 (has links)
Mesenchymal stem cells and their regenerative and immunomodulatory potential Abstract Mesenchymal stem cells (MSCs) possess multidirectional regenerative ability, which, together with their immunomodulatory potential, makes them promising cell type for therapy of wide variety of diseases. Despite ongoing research, which proved MSCs application to be safe, reported effect of MSCs administration on patients is not convincingly beneficial yet. In our work we focused on elucidation of MSCs role in regeneration of vital organs, heart and liver, where a large damage is life threatening for patients and any improvement in therapy would save many lives. Similar situation is in Graft versus host disease (GVHD), where MSCs immunomodulatory properties could be beneficial. Role of MSCs in heart regeneration was examined in vitro. Primary adult swine cardiomyocytes (CMCs) were co-cultured with or without swine MSCs for 3 days and morphological and functional parameters (contractions, current, respiration) of CMCs were measured. MSCs showed supportive effect on CMCs survival, especially at day 3 of the experiment, where in co-culture was significantly higher number of viable CMCs with physiological morphology and maintained function. Effect of MSCs on liver regeneration was observed in swine model of chronic liver...
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Vliv opioidů na imunoregulační a migrační vlastnosti mesenchymálních kmenových buněk. / The effect of opioids on immunoregulatory and migratory properties of mesenchymal stem cells.Echalar, Barbora January 2020 (has links)
Opioids are one of the oldest analgesics used to relieve pain. Besides their therapeutic properties, they also have negative side effects, which include impaired tissue regeneration. Therefore, it can be assumed that opioids also have a negative effect on stem cells which are responsible for tissue healing. One of stem cell populations involved in wound regeneration are mesenchymal stem cells (MSCs). MSCs are undifferentiated, multipotent cells that could be find in almost all tissues. They have immunoregulatory properties and they can migrate to the site of inflammation or injury where they contribute to healing of tissues. Therefore, the purpose of this thesis was to evaluate the effect of morphine and methadone on properties and migration of MSCs. Their effect on the metabolic activity of MSCs and also on the production of cytokines and growth factors was measured. The effect of these opioids on the immunoregulatory properties of MSCs acting on both innate and adaptive immune cells in vitro was studied. The effect of morphine on expression of adhesive molecules on MSCs was also examined. Furthermore, the effect of morphine on migration properties of systemically administered exogenous MSCs in vivo was investigated in mouse models. Distribution of MSCs to individual organs and to the site of...
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Decellularised extracellular matrices as instructive microenvironments for bone marrow derived stem cellsPrewitz, Marina 19 December 2011 (has links)
The regenerative potential of adult stem cell populations within the human body bears great promises for their use in regenerative medicine. The bone marrow (BM) harbours two different types of adult stem cells, haematopoietic stem and progneitor cells (HSPCs) and multipotent mesenchymal stromal cells (MSCs), which are tightly regulated in their distinct anatomically defined niches by multiple cues such as cytokines, cell-cell contacts, the extracellular matrix (ECM) and the physical microenvironment. The ex vivo expansion of these cells for applications in regenerative therapies is of great interest and several biomaterial approaches attempt to mimic the natural BM niche and its components to control stem cell maintenance and differentiation. However, as of now the complexity of such stem cell niches is hard to recapitulate. Towards this goal, this work was focussing on the ECM environment of BM stem cells and was set out to engineer improved in vitro culture systems. MSC themselves are one of the most important cell types within the BM that secrete and construct ECM-networks and thereby shape the microenvironment of the residing cells. The potential of primary human BM-MSC to secrete ECM in vitro has been exploited to generate niche-like ECM surrogates in a robust and versatile format. Application of decellularisation regimes allowed the fabrication of complex matrices which demonstrated suprastructural, compositional and physicochemical properties compareable to those of the native BM-ECM environment. Reliable stability and reproduciblity was achieved by a dedicated procedure of maleic anhydride co-polymer-mediated covalent binding of fibronectin and subsequent anchorage of cell-secreted ECM molecules. As a result of the high reproducibility, a complete proteomic register of ECM molecules was obtained in combination with determining the complex fibrillar and soft gel-like characteristics of MSC-derived matrices. Based on the established BM niche-like substrate, the impact of extracellular matrices on MSC and HSPC ex vivo behavior has been explored. Both cell types demonstrated strong adhesion to ECM substrates and depicted a changed cellular morphology upon contact with native ECM structures compared to standard culture substrates or simple ECM protein coatings, indicating an intense interplay between the cell and the microenvironment. MSC that re-grew into their own matrices have shown advantageous proliferation and cytokine secretion levels as well as enhanced differentiation intensity (upon differentiation induction) compared to MSC that were cultured on less complex substrates. Similarly, HSPC were also instructed for enhanced expansion on MSC-derived matrices without exhaustion of stem cell-marker expressing progenitor cells. The efficiency of these matrices was related to their ability to mimic the native composite suprastructure, ligand nano-topography, molecular composition and physical properties of natural BM ECM environments. The data obtained within this thesis set the ground for a more rational design of artificial stem cell niches with defined and distinct properties, offering exciting options for the in-depth analysis and understanding of stem cell regulation by exogenous cues.
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Développement d'une thérapie matricielle associée ou non à une thérapie cellulaire pour le traitement des dommages cérébraux et les déficits fonctionnels après une ischémie cérébrale chez le rat / Development of a matrix-based therapy combined to a cellular therapy for the brain neuroprotection and regeneration following ischemic strokeKhelif, Yacine 12 September 2018 (has links)
L’AVC représente la première cause d’handicap acquis chez l’adulte. L’AVC ischémique, représentant 87% des AVCs, est une pathologie complexe dont le premier facteur de risque aggravant est l’hypertension artérielle. À l’heure actuelle les seuls traitements disponibles sont la thrombolyse et la thrombectomie. Cependant, ces traitements présentent de nombreuses contre-indications et effets secondaires limitant leurs applications chez les patients. L’objectif des travaux menés dans cette thèse est l’évaluation d’un traitement pharmacologique, le RGTA (ReGeneraTing Agent), combiné ou non à un traitement cellulaire utilisant les cellules souches mésenchymateuses (CSMs), chez des rats normo- et hyper-tendus. Les résultats obtenus dans cette thèse montrent qu’à la suite d’une ischémie cérébrale, les traitements évalués offrent une neuroprotection et une récupération fonctionnelle persistantes, chez les animaux noromo- et hyper-tendus. Cette récupération est expliquée par la réduction du volume lésionnel, par une meilleure plasticité cérébrale (angiogenèse, neurogenèse), ainsi par la potentialisation de l’effet des CSMs par le RGTA. En conclusion, nos études démontrent l’efficacité d’une thérapie robuste de neurorprotection chez le rongeur à la suite d’une ischémie cérébrale. / Stroke is the leading cause worldwide of adult severe disability. The limited available treatments for ischemic stroke, which accounts for 87% of strokes, makes it necessary to develop new therapeutical approaches. Stroke is a complex pathology and chronic hypertension (CAH) represents the first aggravating risk factor for ischemic stroke. At the present time, the only two available treatments for ischemic stroke, thrombolysis and thrombectomy, present several side effects limiting their clinical use. Here we evaluate the effect of a molecular RGTA (ReGeneraTing Agent) based therapy combined or not to a cellular therapy based on the use of mesenchymal stem cells (MSCs) for the treatment of ischemic stroke in normo- and hyper-tensive rats. The results demonstrate that the evaluated therapies confer a long lasting neuroprotection accompanied by animals’ functional recovery. Further analysis suggest that RGTA enhances brain plasticity (angiogenesis, and neurogenesis), protects the extracellular matrix structure, and potentiates MSCs’ beneficial effects. In conclusion, our studies demonstrate the efficacy of a molecular and cellular combined therapy conferring a persistent neuroprotection and functional recovery for the treatment of ischemic stroke.
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The Role of the Subacromial Bursa in Rotator Cuff Tendon Response to Injury and HealingMarshall, Brittany Paige January 2022 (has links)
Rotator cuff injuries cause pain, disability, and loss of shoulder function in over 17 million individuals in the United States that result in over 500,000 surgeries performed annually, though with alarming failure rates of 20-94% (Colvin et al., 2012; Galatz et al., 2004; Harryman et al., 1991; Jain et al., 2014; Mather et al., 2013; Oh et al., 2007; Vitale et al., 2007; Yamaguchi et al., 2006). These surgeries involve repair or reconstruction of the damaged rotator cuff tendon(s) along with enlargement of the subacromial space by debriding the overlying bone (acromion) and removing the subacromial bursa (Beard et al., 2018; Burkhart et al., 2016; Dines et al., 2006; Lo & Burkhart, 2003; Rossi & Ranalletta, 2020).
The subacromial bursa is a synovial-like tissue that is situated between the acromion and the tendons of the rotator cuff. This tissue has been long understood to serve a primarily mechanical role by providing cushioning and protecting from friction-wear from the acromion on the underlying tendons. More recently, the identification of a robust vascular network within the bursa, a resident population of mesenchymal stem cells, and inflammatory responsiveness to rotator cuff pathology have supported the existence of a biological role of this tissue in addition to its mechanical one (Blevins et al., 1997; Gotoh et al., 1998, 2001; Põldoja et al., 2017; Rathbun & Macnab, 1970; Steinert et al., 2015; Yepes et al., 2007).
These observations make surgical excision of the bursa problematic, given our current lack of understanding of the implications of removing the bursa on the biological response to tendon injury. Therefore, the goals of this dissertation were three-fold: (1) to determine the role of the subacromial bursa in the rotator cuff tendon response to injury and healing, (2) to interrogate patterns of cellular crosstalk between the subacromial bursa and the rotator cuff following injury, and (3) to demonstrate therapeutic potential of targeting the subacromial bursa for modulating inflammation and improving tendon healing.Motivated by clinically observed phenotypic changes in the subacromial bursa with rotator cuff pathology, the profiles of human bursa and rotator cuff tendon tissues were assessed using histology, proteomics, and transcriptomics. This data set, analyzed in the context of patient demographics and diagnoses, revealed distinct bursa proteomes according to tissue phenotype (i.e., fibrous, vascular, or fatty), patient age, and presence of a tear in the underlying rotator cuff. These results suggested the presence of crosstalk between the rotator cuff and the bursa that had not been previously appreciated.
Employing multiple methods of validation, including histology, microcomputed tomography, gene expression, and flow cytometry, the rat bursa was established as an appropriate animal model of the human bursa. Therefore, we used the rat model to investigate the role of the bursa in tendon injury response and healing; tendon injuries were created surgically with or without a subsequent repair to study healing and responses to injury, respectively. The role of the bursa in the response to injury was assessed using gene expression, transcriptomics, and histology. The bursa promoted inflammatory gene expression in the injured supraspinatus but resolved inflammatory gene expression in the intact infraspinatus. The role of the bursa in tendon healing was assessed using gene expression, histology, microcomputed tomography, and tensile mechanical testing of the cuff tendons. Consistent with responses during the inflammatory phase of healing, the bursa promoted expression of genes related to aberrant, scar-mediated healing in the supraspinatus, whereas it promoted tenogenic and tendon extracellular matrix gene expression in the intact infraspinatus. Mechanical testing demonstrated that the bursa protected the infraspinatus from the inflammatory environment caused by the supraspinatus injury but had a limited functional effect on the healing supraspinatus. Microcomputed tomography also indicated bursa-dependence in cortical and trabecular bone remodeling following tendon injury.
Cross-talk between the bursa and the tendon was then studied in a novel tissue explant co-culture platform using gene expression and nitric oxide release as outcome measures. These experiments revealed that the activated bursa engaged in immunomodulation of tendon fibroblast responses to inflammatory stimulus. The in vitro platform also established the glucocorticoid dexamethasone as a viable therapeutic candidate for bursa-targeted treatment based on its capacity to regulate the bursa’s response to an inflammatory stimulus and enhance the bursa’s immunomodulatory potential. Therefore, in the final component of this thesis, dexamethasone was delivered via PLGA microspheres in vivo to the bursa to modulate the post-injury inflammatory response in the supraspinatus and the infraspinatus tendons. Results supported the therapeutic potential of this treatment approach to improve rotator cuff healing outcomes.
This body of work demonstrated a robust involvement of the bursa in rotator cuff responses to injury, with distinct roles in the underlying injured and intact tendons. This work also established, for the first time, the immunomodulatory capacity of the activated bursa and provided strong evidence against the clinical practice of bursectomy. Finally, use of sustained-release dexamethasone to dampen the inflammatory responses to rotator cuff injury offers a new direction for harnessing the inherent properties of the subacromial bursa therapeutically for improved rotator cuff tendon healing.
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Analyse der Genexpression von humanen Stro-1-positiven Zahnkeim- und Beckenkammzellen in DME-Medium und osteogenem Differenzierungsmedium / Analysis of gene expression of human Stro-1 positive cells from dental pulp and iliac crest bone in DME medium and osteogenic differentiation mediumMerten, Charlotte Caroline 25 August 2020 (has links)
No description available.
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