3 resultados para Shake-flask

em Université de Lausanne, Switzerland


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Résumé: Chez les mammifères, les intestins sont les organes ayant le plus haut taux de renouvellement cellulaire dans l'organisme. L'épithélium intestinal se renouvelle complètement en moins d'une semaine. Il se compose de projections (villosités) et d'invaginations (cryptes) qui ont toutes deux des fonctions bien distinctes. Les cellules de l'intestin sont constamment produites à partir de cellules souches, situées dans la crypte, qui se différencient en cellules proliférantes transitoires, puis en cellules caliciformes, de Paneth, entéroendocrine ou en entérocytes. Ces cellules migrent dans leurs lieux spécifiques pour accomplir leur fonction physiologique pour finalement mourir. A cours de mon travail de thèse, j'ai étudié le rôle de la voie de signalisation de Notch dans le renouvellement cellulaire et dans le processus de l'homéostase des cellules de l'intestin marin en utilisant le système Cre-loxP pour induire la délétion des gènes Notch1, Notch2, Jaggedl et RBP-Jk. Bien que l'inactivation de Notch1 avec ou sans Jagged1, ou celle de Notch2, n'aboutissent à aucun phénotype, une déficience pour RBP-Jk, ou pour Notch1 et Notch2 simultanément, conduit au développement d'un impressionnant phénotype. Au niveau de la crypte, une rapide et importante modification des cellules apparaît: les cellules proliférantes sont devenues des cellules caliciformes qui ont perdu la capacité de se renouveler. Ces résultats impliquent la voie Notch en tant que nouvelle clé de voûte dans le maintien des cellules qui s'auto-renouvellent dans l'épithélium intestinal. Un rôle similaire a été proposé pour la voie Wnt, laquelle n'est cependant, pas affectée dans nos souris. C'est pourquoi ces deux voies sont essentielles dans le maintien de la prolifération dans les cryptes intestinales. Ce travail a aussi proposé un mécanisme par lequel la voie Notch contrôlerait l'intégrité du cycle cellulaire dans les cellules de la crypte intestinale, ceci en inhibant la transcription d'un inhibiteur du cycle cellulaire, la protéine p27KIP1. De plus, l'inactivation de RBP-Jk dans les adénomes développés par les souris APCmin induisent la différenciation de cellules tumorales en cellules caliciformes. Comme autre effet, la localisation histologique des cellules de Paneth est également affectée par la délétion de RBP-Jk ou de Notch1/Notch2, suggérant un rôle pour la voie Notch dans le compartiment des cellules de Paneth. Finalement, ce travail démontre que les cellules progénitrices de l'intestin ont besoin d'une convergence fonctionnelle des voie Wnt et Notch. Ces résultats préliminaires peuvent être considérés comme un concept pour l'utilisation d'inhibiteurs de secrétase-γ (inhibiteurs de Notch) à des fins thérapeutiques pour les cancers colorectaux. Summary The mammalian intestine has one of the highest cellular turnover rates in the body. The complete intestinal epithelium is renewed in less than a week. It is divided into spatially distinct compartments in the form of finger-like projections (villi) and flask-shaped invaginations (crypts) that are dedicated to specific functions. Intestinal cells are constantly produced from a stem cell reservoir that gives rise to proliferating transient amplifying cells, which subsequently differentiate and home to their specific compartments before dying after having fulfilled their physiological function. In this thesis project, the physiological role of the Notch signalling cascade in the marine intestine was studied. Inducible tissue specific inactivation of Notch1, Notch2, Jagged1 and RBP-Jk genes was applied to assess their role in the maintenance of intestinal homeostasis and cell fate determination. The analysis unequivocally revealed that Notch1, Notch1 and Jagged1 combined as well as Notch2 are dispensable for intestinal homeostasis and lineage differentiation. However, deficiency of RBP-Jk as well as the simultaneous inactivation of both Notch1 and Notch2 receptors unveiled a striking phenotype. In these mice, a rapid and massive conversion of proliferative crypt cells into post-mitotic goblet cells was observed. These results identify the Notch pathway as a key player for the maintenance of the proliferative crypt compartment. A similar role was implicated for the Wnt cascade, which, however, was not affected in the different tissue specific Notch signalling deficient mice. Thus, the Wnt and Notch signalling pathways are essential for the self-renewal capacity of the intestinal epithelium. Furthermore, our results suggest a molecular mechanism for Notch signalling mediated control of cell cycle regulation within the crypt. The Notch cascade inhibits expression of the cyclin-dependent kinase inhibitor p27KIP1 and thereby maintains proliferation of the intestinal progenitor cells. In addition, the inactivation of RBP-Jk in adenomas developed by APCmin mice resulted in the differentiation of tumour cells into goblet cells. Finally, Notch deficiency affected differentiated Paneth cells, suggesting that Notch may play a role in the Paneth cell compartment. In summary, this work clearly demonstrates that undifferentiated, proliferative cells in intestinal crypts require the concerted activation of the RBP-Jk-mediated Notch signalling and the Wnt cascade. In addition, our preliminary results can be considered as a "proof-of-principle" for the use of γ-secretase inhibitors for therapeutic modalities for colorectal cancer.

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Long-chain alkanes are a major component of crude oil and therefore potentially good indicators of hydrocarbon spills. Here we present a set of new bacterial bioreporters and assays that allow to detect long-chain alkanes. These reporters are based on the regulatory protein AlkS and the alkB1 promoter from Alcanivorax borkumensis SK2, a widespread alkane degrader in marine habitats. Escherichia coli cells with the reporter construct reacted strongly to octane in short-term (6 h) aqueous suspension assays but very slightly only to tetradecane, in line with what is expected from its low water solubility. In contrast, long-term assays (up to 5 days) with A. borkumensis bioreporters showed strong induction with tetradecane and crude oil. Gel-immobilized A. borkumensis reporter cells were used to demonstrate tetradecane and crude oil bioavailability at a distance from a source. Alcanivorax borkumensis bioreporters induced fivefold more rapid and more strongly when allowed physical contact with the oil phase in standing flask assays, suggesting a major contribution of adhered cells to the overall reporter signal. Using the flask assays we further demonstrated the effect of oleophilic nutrients and biosurfactants on oil availability and degradation by A. borkumensis. The fluorescence signal from flask assays could easily be captured with a normal digital camera, making such tests feasible to be carried out on, e.g. marine oil responder vessels in case of oil accidents.

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OBJECTIVE: To assess porcine urothelial cell cultures and the in vitro induction of urothelial stratification in long-term cultures, to study their morphological, functional and genetic behaviour, and thus provide potential autologous urothelium for tissue-engineered substitutes for demucosalized gastric or colonic tissue. MATERIALS AND METHODS: Primary cultures of porcine urothelium were established and the cells passaged thereafter. Cell specificity was confirmed by cytokeratin analysis, cell membrane stability assessed using lactate dehydrogenase leakage, cell de-differentiation by gamma-glutamyl transferase activity and genomic stability by karyotype investigations. Histology and scanning electron microscopy were performed to study the cultured cells and the stratified constructs. Furthermore, collagen matrices were tested as cell scaffolds. RESULTS: The cells were cultured for 180 days; 10 subcultures were established during this period. Stratification was induced in a culture flask and on a collagen matrix. Cytokeratins 7, 8, 17 and 18 were expressed in all cultures, and cell membranes were stable, with no evident de-differentiation. The cultures were stable in their genotype and no chromosomal aberrations were found. The histology and immunohistochemistry of the stratified porcine constructs, and cell membrane stability and cell de-differentiation, were compared with those in the human system. CONCLUSION: Pig and human urothelial cells can be cultured over a long period with no signs of senescence. Urothelial stratification can be induced in vitro. The collagen matrix seems to be an excellent scaffold, allowing cell adherence and growth.