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41	La périostine, un nouveau biomarqueur des métastases osseuses : développement d’un immunodosage et évaluation préclinique / Periostin, a new biomarker of bone metastases : immunoassay development and preclinical assessment Contié, Sylvain 16 November 2010 (has links) La périostine est une protéine matricellulaire préférentiellement exprimée aux sites de contraintes mécaniques, notamment le périoste, et dans le stroma associé à de nombreux types de cancers. En premier lieu, nous nous sommes attachés à évaluer la pertinence de cette protéine en tant que biomarqueur du métabolisme osseux et de la réaction stromale dans les métastases osseuses. Nous avons développé le premier dosage ELISA de la périostine circulante chez la souris présentant des caractéristiques analytiques (spécificité, précision) conformes aux exigences réglementaires. Ce dosage nous a permis de préciser l’implication de la périostine dans le métabolisme osseux et les métastases osseuses de cancer du sein. Nos données in vitro et in vivo suggèrent que la périostine n’est pas un indice direct du remodelage osseux, contrairement aux marqueurs biologiques conventionnels, mais une composante de l’ossification primaire. Nous avons aussi montré dans les métastases osseuses d’origine mammaire que la périostine est surexprimée par les cellules stromales de la métastase, comme cela a pu être observé au niveau des tumeurs primaires. Enfin, nous avons confirmé par une approche bioinformatique la relation étroite entre périostine et réaction stromale dans la plupart des tumeurs chez l’Homme. La périostine et d’autres protéines conjointement exprimées pourraient donc constituer un panel de marqueurs biologiques de la progression tumorale, certains pouvant se révéler comme nouvelles cibles thérapeutiques en oncologie. / Periostin is a matricellular protein preferentially expressed at sites subjected to mechanical constraints, including the periosteum, and in the stroma associated to several tumor types. We first aimed to evaluate the relevance of periostin as a biomarker of bone metabolism or stromal reaction in bone metastases. We developed the first ELISA for serum periostin in mouse with analytical characteristics (specificity, precision) that are in accordance with regulatory standards. This ELISA allowed us to specify further the involvement of periostin in bone metabolism and breast cancer bone metastases. Our in vitro and in vivo data suggested that periostin is a component of primary ossification rather than a direct index of bone remodeling, unlike conventional bone markers. In breast cancer bone metastases, we also showed that periostin is overexpressed by stromal cells associated with bone metastasis, in agreement with its localization in the stroma of primary tumors. Finally, using bioinformatics analyses of large datasets from various tumors in human, we confirmed the close relationship between periostin and the stromal reaction. Periostin and other co-expressed proteins could therefore constitute a set of biological markers of cancer progression, and/or appear as potential therapeutic targets. Périostine Cancer Métastases osseuses Réaction stromale Périoste ELISA Marqueurs osseux Ossification ontogénique Periostin Cancer Bone metastasis Stromal reaction Periosteum ELISA Bone markers Ontogenetic ossification 616.994
42	Utilisation de bactéries lactiques probiotiques pour prémunir les poissons d'élevage contre des vibrions pathogènes / The use of lactic acid bacteria to protect the fish farmed against pathogenic Vibrio Lamari, Faouzi 22 April 2014 (has links) Les élevages des poissons sont soumis à des épisodes de mortalité anormale. Les bactéries du genre Vibrio sont connues comme des pathogènes opportunistes et ont été associées à ces épisodes de mortalité. Pour faire face à ces problèmes d’épizooties, les pisciculteurs ont le plus souvent recours à l’utilisation des antibiotiques. Néanmoins, des abus dans son utilisation ont malheureusement conduit à l’apparition des souches résistantes et à des fréquents échecs de traitement. Actuellement, les traitements par des bactéries lactiques probiotiques permettent d’améliorer la qualité des alevins produits pour les besoins de l’aquaculture, tout en limitant le recours aux antibiotiques. Pour qu’un micro-organisme soit reconnu comme étant potentiellement probiotique, une évaluation de ce produit basée sur plusieurs critères doit être établie. Dans une première étape, nous avons sélectionné et caractérisé 55 souches de bactéries lactiques isolées en écloserie. Le premier critère de sélection a porté sur l’inhibition de souches de vibrions pathogènes in vitro. Les bactéries lactiques ayant un effet anti Vibrio ont subi des tests de formation de biofilms et des tests de caractérisations phénotypiques, enzymatiques, physiologiques et génétiques, afin de procéder à leur identification. Puis des tests de compétition avec V. aligonlyticus ont été pratiqués in vivo sur des larves d’Artemia. Ce travail nous a permis de sélectionner la souche Lactobacillus casei (X2), car elle présentait la meilleure combinaison de propriétés requises pour un probiotique. Elle possède en effet une bonne activité antagoniste, elle n’est pas hémolytique, elle présente une forte adhérence sur plaque polystyrène et elle offre la meilleure protection contre V. alginolyticus lors du test de challenge avec Artemia. Dans une deuxième étape, la souche retenue (La. casei X2) et une autre déjà commercialisée sous le nom de Bactocell (Pediococcus acidilactici) ont été testées sur des larves de bar, afin d'évaluer les effets sur la qualité des alevins, leur réponse immunitaire et la microflore associée. Nous avons vérifié que les deux probiotiques (La. Casei et P. acidilactici) diminuaient la charge en vibrions et en microflore totale chez les larves de bar. La souche P. acidilactici a également affecté les profils de la communauté bactérienne intestinale des larves de bar. Par contre, La. casei n’a pas affecté la structure de la communauté bactérienne, bien que la souche soit présente chez les larves au jour 40 à une concentration élevée. Ces deux bactéries ont pu améliorer la croissance en longueur des larves aux jours 30 et 45 et la croissance en poids au jour 20. L’étude de l’influence des deux probiotiques sur des marqueurs de la physiologie des larves a montré qu’au jour 41, P. acidilactici était plus efficace que La. casei dans la régulation du stress oxydatif. Néanmoins, P. acidilactici a engendré des effets inflammatoires chez les larves à j20, et elle a induit un retard dans le développement osseux. Bien que La. casei ait accéléré le processus d’ossification chez les larves à j20, l’étude histopathologique a révélé une forte incidence des malformations vertébrales avec les larves à j62. A l’inverse, les larves alimentées avec P. acidilactici ont présenté un taux supérieur d’ossification normale et complète. / Diseases cause major production losses in fish farms. Bacteria of the genus Vibrio are known as opportunistic pathogens, and have been associated with mass-mortality episodes. To cope with these disease outbreaks, fish farmers often resort to the use of antibiotics. However, preventive overuse has led to the emergence of resistant strains and frequent treatment failures. Probiotic lactic acid bacteria are increasingly used to improve the quality of seed production in aquaculture, while limiting antibiotic treatments. Microbial strains must fulfil several criteria to be evaluated as potential probiotics.In a first step, we selected and characterized 55 strains of lactic acid bacteria isolated from fish hatchery. The first selection criterion focused on the in-vitro inhibition of pathogenic Vibrio strains. Lactic acid bacteria with antagonistic properties were tested for biofilm formation. The strains were characterised with the phenotypes, based on enzymatic and physiological tests, and identified by genotyping. In-vivo challenges with Vibrio aligonlyticus were then performed on Artemia. Lactobacillus casei X2 was thus selected, due to the best combination of the attributes that are required for probiotics. The strain showed antagonistic activity, adhered strongly to polystyrene plate, and secured Artemia with the best protection against V. alginolyticus. In a second step, La. casei X2 and a commercial strain of probiotics (Bactocell, Pediococcus acidilactici) were tested on European sea bass larvae, with a view to assess the effects on alevin quality, immune response and associated microbiota. Both of the lactic acid bacteria, La. casei and P. acidilactici, decreased the bacterial load and Vibrio in sea bass larvae. P. acidilactici changed significantly the profile of the bacterial community associated with fish larvae, compared to the control group. La. casei did not affect the structure of the bacterial community, although the strain was detected at high concentration in the larvae at 40 day post hatch (dph). Both probiotic treatments increased fish larval growth in body mass at 20 dph, and in length at 30 and 45 dph. Two physiological markers for gene expression suggested that P. acidilactici was more efficient than La. casei for the regulation of oxidative stress in sea bass at 41 dph. P. acidilactici induced some delay in bone development, and inflammatory signs were observed in the larvae at 20 dph. Though La. casei accelerated the early ossification process in the larvae by 20 dph, the histopathological study revealed a high incidence of vertebral malformations at 62 dph. In contrast, the treatment with P. acidilactici produced the highest proportion of fish with normal and complete ossification. Dicentrarchus labrax Artemia Vibrio Probiotiques Microflore intestinale Réponse immunitaire Stress oxydatif Malformations vertébrales Ossification Dicentrarchus labrax Artemia Vibrio Probiotic Intestinal microflora Immune response Oxidative stress Vertebral malformations Ossification
43	Homéostasie phosphocalcique et vitamine D : effets sur le cartilage de croissance par la mesure des paramètres physiques, biochimiques et géniques liés à la croissance osseuse Desrosiers, Mélissa January 2007 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Cartilage de croissance Growth plate Vitamine D Deficiency Vitamin D Calcium Calcium Phosphore Phosphorus Rat Rat Ratio Ratio Expression génique Gene expression Chondrocytes Chondrocytes Ossification endochondrale Endochondral ossification
44	Expression and Functional Analysis of pthrp1 and ihha in the Regeneration of Bones in Zebrafish Caudal Fin Al-Rewashdy, Ali 18 September 2013 (has links) The parathyroid hormone related protein (PTHrP) and Indian Hedgehog (IHH) are two secreted molecules, acting as paracrine factors during embryonic development and post-natal growth of endochondral bones. PTHrP and IHH are essential factors for the regulation of chondrocyte proliferation and differentiation. However, it has previously been shown that PTHrP and IHH are also expressed in the chick and mouse embryos intramembranous bones, which do not form through a cartilage intermediate and in which chondrocytes are absent. Similarly, the zebrafish orthologs, pthrp1 and ihha, are also expressed during the regeneration of the intramembranous bones of the fin rays of the zebrafish caudal fin. This surprising observation led us to further analyze the expression and function of pthrp1 and ihha in the regenerating fin rays. Gene expression analysis using in situ hybridization shows that pthrp1 is expressed in a stripe of cells located within the domain of expression of ihha in the newly differentiating osteoblasts in the regenerating fin rays. Also, pthrp1 expression is observed at the level of the joints between the bone segments forming the rays and co-localizes with the expression domain of evx1, a transcription factor that has been implicated in the formation of joints in the caudal fin. Furthermore, RT-PCR analyses show that pthrp2 and the pthrp receptors mRNA (pth1r, pth2r and pth3r) are also present in the fin regenerate. Finally, functional analysis shows that the knockdown of pthrp1 or ihha expression by electroporation of morpholinos induces a delay of the regenerative outgrowth of the fin. These results suggest that pthrp1 and ihha may be involved in the regulation of proliferation and differentiation of chondrocyte-like osteoblasts in the fin rays, playing a role similar to that described in the mammalian growth plate of endochondral bones. In addition, pthrp1 is possibly an important factor involved in the formation and maintenance of joints of the dermal bones of the fin rays. Indian Hedgehog (IHH) Bone Zebrafish Regeneration Endochondral ossification Intramembranous ossification Morpholino knockdown In situ hybridization RT-PCR EVX1 Pthrp1 Ihha
45	Rôle du facteur de transcription PITX1 dans la pathogenèse de l'arthrose. Picard, Cynthia 06 1900 (has links) L'arthrose ou ostéoarthrite (OA) est la plus commune des maladies chroniques associées au vieillissement. La multiplicité des loci et des polymorphismes associés à l'OA suggère l'implication de nombreuses voies de signalisation. La plupart des voies empruntées partagent des points en commun avec le processus d'ossification endochondrale. Dans l'arthrose, la réinitiation de ce processus pourrait être responsable de la dégradation du cartilage et de la présence d'ostéophytes. Un des gènes ayant fait surface autant dans l'OA que dans le développement musculosquelettique est PITX1. Contrairement à ce que son nom l'indique, PITX1 n'est pas seulement exprimé dans la glande pituitaire mais également dans l'os, le cartilage, les muscles et les fibroblastes. Pitx1 joue un rôle clé dans l'identité des membres inférieurs et son inactivation complète chez la souris mène à un phénotype ressemblant aux membres supérieurs. Moins sévère, son inactivation partielle provoque des symptômes apparentés à l'arthrose précoce chez la souris vieillissante. Chez l'humain, une perte d'expression de PITX1 est observée dans le cartilage OA de concert avec une augmentation des protéines EXTL3, REG1 et PARP1. Ces dernières pourraient favoriser la phase initiale de régénération associée à l'arthrose. Pour induire la prolifération des chondrocytes, de bas niveaux de PITX1 sont nécessaires. À l'inverse, de hauts niveaux de PITX1 pourraient prévenir la prolifération et être responsables du statut différencié des chondrocytes articulaires normaux. L'étude des mécanismes de régulation du gène PITX1 a mené à l'identification d'un co-répresseur, nommé prohibitine (PHB1), lié sur une région promotrice distale. PHB1 est normalement retrouvé au niveau des mitochondries mais son accumulation nucléaire semble corréler avec la perte de PITX1 et l'initiation de l'OA. Cette découverte pourrait avoir un impact sur le diagnostic et d'éventuels traitements visant à prévenir l'apparition de l'arthrose. / Osteoarthritis (OA) is one of the most common age-related chronic disorders. The multiplicity of loci identified in OA linkage studies and the large number of associated SNPs suggests that many molecular pathways are involved in OA pathogenesis. Most of these pathways share common features with the process of endochondral ossification, normally occuring during embryogenesis. Cartilage degradation and the presence of osteophytes, hallmarks of OA, could be attributable to the reinitiation of this process. One gene that has surfaced both in OA and in musculoskeletal development is PITX1. Contrary to its original moniker, PITX1 is expressed in many tissues beyond the pituitary gland, including bone, cartilage, muscle and fibroblast cells. Pitx1 is considered as a master regulator of hindlimb identity and its complete inactivation in mice leads to a forelimb-like phenotype. Less severe, its partial inactivation results in early OA symptoms in aging mice. In humans, loss of PITX1 expression is observed in OA cartilage concomitantly with the upregulation of EXTL3, REG1 and PARP1. The association between these proteins and tissue regeneration is consistent with the biosynthesis phase initially taking place in OA cartilage. The dose-dependent relationship between PITX1 and cell proliferation supports the view that low PITX1 expression levels are necessary for chondrocytes to proliferate. Conversely, high levels of PITX1 would prevent proliferation and be required to maintain a differentiated state in normal articular chondrocytes. The regulation of PITX1 gene is of particular interest since it could help to better understand its role in osteoarthritis pathogenesis and in the process of endochondral ossification. Search for mechanisms responsible for the downregulation of PITX1 in OA led to the identification of prohibitin (PHB1) bound to its distal promoter region. PHB1 is a mitochondrial marker but its presence in chondrocytes nuclei seems to correlate with the initiation stage of OA. This discovery could impact diagnosis as well as possible treatments for osteoarthritis. Arthrose PITX1 Cartilage Ossification endochondrale PHB1 Prohibitine Osteoarthritis Pituitary homebox transcription factor Endochondral ossification Prohibitin
46	Rôle du facteur de transcription PITX1 dans la pathogenèse de l'arthrose Picard, Cynthia 06 1900 (has links) No description available. Arthrose PITX1 Cartilage Ossification endochondrale PHB1 Prohibitine Osteoarthritis Pituitary homebox transcription factor Endochondral ossification Prohibitin
47	Expression and Functional Analysis of pthrp1 and ihha in the Regeneration of Bones in Zebrafish Caudal Fin Al-Rewashdy, Ali January 2013 (has links) The parathyroid hormone related protein (PTHrP) and Indian Hedgehog (IHH) are two secreted molecules, acting as paracrine factors during embryonic development and post-natal growth of endochondral bones. PTHrP and IHH are essential factors for the regulation of chondrocyte proliferation and differentiation. However, it has previously been shown that PTHrP and IHH are also expressed in the chick and mouse embryos intramembranous bones, which do not form through a cartilage intermediate and in which chondrocytes are absent. Similarly, the zebrafish orthologs, pthrp1 and ihha, are also expressed during the regeneration of the intramembranous bones of the fin rays of the zebrafish caudal fin. This surprising observation led us to further analyze the expression and function of pthrp1 and ihha in the regenerating fin rays. Gene expression analysis using in situ hybridization shows that pthrp1 is expressed in a stripe of cells located within the domain of expression of ihha in the newly differentiating osteoblasts in the regenerating fin rays. Also, pthrp1 expression is observed at the level of the joints between the bone segments forming the rays and co-localizes with the expression domain of evx1, a transcription factor that has been implicated in the formation of joints in the caudal fin. Furthermore, RT-PCR analyses show that pthrp2 and the pthrp receptors mRNA (pth1r, pth2r and pth3r) are also present in the fin regenerate. Finally, functional analysis shows that the knockdown of pthrp1 or ihha expression by electroporation of morpholinos induces a delay of the regenerative outgrowth of the fin. These results suggest that pthrp1 and ihha may be involved in the regulation of proliferation and differentiation of chondrocyte-like osteoblasts in the fin rays, playing a role similar to that described in the mammalian growth plate of endochondral bones. In addition, pthrp1 is possibly an important factor involved in the formation and maintenance of joints of the dermal bones of the fin rays. Indian Hedgehog (IHH) Bone Zebrafish Regeneration Endochondral ossification Intramembranous ossification Morpholino knockdown In situ hybridization RT-PCR EVX1 Pthrp1 Ihha
48	READILY IMPLANTABLE HIGH DENSITY STEM CELL SYSTEMS WITH CONTROLLED GROWTH FACTOR PRESENTATION FROM BIOACTIVE MICROPARTICLES FOR BONE REGENERATION VIA ENDOCHONDRAL OSSIFICATION Dang, Phuong Ngoc 03 June 2015 (has links) No description available. Biomedical Engineering
49	Indian hedgehog stimulates chondrocyte hypertrophic differentiation inendochondral bone formation Li, Jun January 2007 (has links) published_or_final_version / abstract / Biochemistry / Doctoral / Doctor of Philosophy Cartilage cells. Endochondral ossification. Bone - Hypertrophy. Genes. Mice as laboratory animals.
50	Estudo dos efeitos da irradiação pulsada de baixa intensidade sobre o desenvolvimento de segmentos de coluna vertebral implantados em camundongos isogênicos / Low-intensity pulsed ultrasonic irradiation effects on development of vertebral column segments implanted in isogenics mice Cruz, Andrezza Furquim da 15 April 2005 (has links) Estudo dos efeitos da irradiação ultra-sônica pulsada de baixa intensidade sobre o desenvolvimento de segmentos da coluna vertebral implantados em camundongos isogênicos / The aim of the present research was evaluate the action of low-intensity pulsed ultrasonic irradiation on development and ossification of vertebral column blastemas, through mice new born tail segments implants in adult receptor isogenic mice lineages C57BL/6 and Balb/C. New born tail segments were implanted in subcutaneous tissues of adults isogenics mice C57BL/6 and intramuscularly in adults isogenics mice Balb/C. After 24 hours the implant, the animals in both groups, were stimulated with the low-intensity pulsed ultrasound (LIPUS), 10 minutes per day. After 5 days of stimulus, the receptors animals were death and had the implanted tails removed for histopathology, trhrough Periodic Acid Schiff plus Alcian Blue (PAS/AB), Masson's tricomico and hem lumen-eosin (HE). The group of animals stimulated which received subcutaneous implant presented the implant with accelerated in inter-vertebral diks, faces to chondrocytes organization and chondroblastes findings in cartilaginous matrix, showing maturity in fiber cartilages arrangements. It was observed too, a collagen fibers enlargement in the disks fibro cartilage which show more dense next the pulposo nucleus in the segments implanted and stimulated, compared with the controls segments. The areas of the segments were available by Fisher's test and Student's t. It didn't watch significant differences in the vertebral bodies' areas sizes in the animals which implant was subcutaneous (p'< OU = '0.05). In the intramuscular implants animals group, it was observed a major velocity in the hialuronic acid matrix formation in the intervertebral disks after LIPUS stimulus. Moreover, the fibrous ring fiber cartilages' were better organized with large number of cells inside the cartilaginous matrix compared with the controls segments. With regard to the vertebral bodies in the intramuscular implants, it's not verifies significant increases in the areas (p'< OU =' 0,05). The findings allow conclude that LIPUS should promote the ontogenetic differentation of the structural components of the mice vertebral column more quickly, trhough vertebras endochondral ossification microscopic evaluation and the inter-vertebral disks components differentiation, follow the methodology employed. endochondral ossification low-intensity pulsed ultrasound ossificação endocondral ultra-som pulsado de baixa intensidade

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