Global ETD Search

51	Rôle de BMP2 sur la différenciation vasculaire des cellules souches mésenchymateuses issues de la moëlle osseuse / Role of BMP2 on vascular differentiation of mesenchymal stem cells from bone marrow Belmokhtar, Karim 22 November 2011 (has links) Nous avons déterminé la capacité de régénération du tissu vasculaire in vivo des CSM traitées avec BMP2 à la dose de [100 ng.mL-1] dans un modèle rat. Nous avons ainsi rapporté qu’une prothèse revêtue de CSM traitée par BMP2 pendant 1 semaine et implantée 14 jours chez le rat permettait la reconstitution des trois tuniques de la paroi mimant la structure de l’aorte. La capacité proangiogénique des CSM était augmentée par BMP2 grâce à la mise en jeu de voies intracellulaires impliquant le facteur induit par l’hypoxie (HIF-1α) via JAK/STATs. Nous avons montré que les CSM migraient sous l’influence de BMP2 par stimulation de l’activité du complexe enzymatique NADPH oxydase via l’augmentation de l’expression des protéines PAK1, Vav2 et RAC1 GTPase/PI3K. Ce travail a confirmé l’intérêt de l’utilisation de CSM conjointement à rh-BMP2, une protéine impliquée dans l’embryogénèse vasculaire, pour la bioingénierie de la régénération vasculaire. / We determined the capacity to regenerate vascular tissue in vivo, of MSC treated with BMP2 at a dose of [100 ng.mL-1] in a rat model. We have reported that a prosthesis coated with CSM treated 1 week with BMP2 and implanted in rats 14 days allowed the reconstruction of the three tunics of the wall that mimic the structure of the aorta. The proangiogenic capacity of MSCs was increased by BMP2 through the intracellular pathways involving hypoxia inducible factor (HIF-1α) via JAK / STAT. We have shown that MSCs migrated under the influence of BMP2 by stimulating the activity of the enzyme complex NADPH oxidase via the increased expression of PAK1 protein, Vav2 and RAC1 GTPase/PI3K. This work confirmed the interest of the use of MSC in conjunction with rh-BMP2, a protein involved in vascular embryogenesis for bioengineering for vascular regeneration. Cellules souches mésenchymateuses Angiogenèse Migration Bone morphogenetic protein 2 Régénération tissulaire vasculaire Mesenchymal stem cells Vascular smooth muscle differentiation Angiogenesis Migration Bone morphogenetic protein 2 Vascular tissue regeneration
52	Plasmodium falciparum Histidine-rich Protein 2 Gene Variation and Malaria Detection in Madagascar and Papua New Guinea Willie, Nigani 04 June 2018 (has links) No description available. Biology Genetics Epidemiology Parasitology Molecular Biology histidine-rich protein 2 HRP2 malaria in Madagascar malaria in Papua New Guinea rapid diagnostic test RDT malaria detection pfhrp2 gene variation HRP2 gene variation
53	THE DYNAMIC NATURE OF CHROMATIN Riedmann, Caitlyn M. 01 January 2017 (has links) Eukaryotic organisms contain their entire genome in the nucleus of their cells. In order to fit within the nucleus, genomic DNA wraps into nucleosomes, the basic, repeating unit of chromatin. Nucleosomes wrap around each other to form higher order chromatin structures. Here we study many factors that affect, or are effected by, chromatin structure including: (1) how low-dose inorganic arsenic (iAs) changes chromatin structures and their relation to global transcription and splicing patterns, and (2) how chromatin architectural proteins (CAPs) bind to and change nucleosome dynamics and DNA target site accessibility. Despite iAs’s non-mutagenic nature, chronic exposure to low doses of iAs is associated with a higher risk of skin, lung, and bladder cancers. We sought to identify the genome-wide changes to chromatin structure and splicing profiles behind the cell’s adaptive response to iAs and its removal. Furthermore, we extended our investigation into cells that had the iAs insult removed. Our results show that the iAs-induced epithelial to mesenchymal transition and changes to the transcriptome are coupled with changes to the higher order chromatin structure and CAP binding patterns. We hypothesize that CAPs, which bind the entry/exit and linker DNA of nucleosomes, regulate DNA target site accessibility by altering of the rate of spontaneous dissociation of DNA from nucleosome. Therefore, we investigated the effects of the repressive CAP histone H1, the activating CAP high mobility group D1 (HMGD1), and the neural CAP methyl CpG binding protein 2 (MeCP2) on the dynamics of short chromatin arrays and mononucleosomes and their effect on nucleosomal DNA accessibility. Using biochemical and biophysical analyses we show that all CAP-chromatin structures tested were susceptible to chromatin remodeling by ISWI and created more stable higher order structures than if CAPs were absent. Additionally, histone H1 and MeCP2 hinder model transcription factor Gal4 from binding its cognate DNA site within nucleosomal DNA. Overall, we show that chromatin structure is dynamic and changes in response to environmental signals and that CAPs change nucleosome dynamics that help to regulate chromatin structures and impact transcriptional profiles. Genome Compaction Nucleosome Dynamics Chromatin Dynamics Chromatin Architectural Proteins Inorganic Arsenic Methyl CpG Binding Protein 2 Genetic Structures
54	The role of high mobility group protein B2 and methyl-CpG-binding protein 2 in the regulation of epigenetic events during neonatal myocardial development. / CUHK electronic theses & dissertations collection January 2004 (has links) Kou Ying Chuck. / "July 2004." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2004. / Includes bibliographical references (p. 186-199). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese. High Mobility Group Proteins--genetics Methyl-CpG-Binding Protein 2--genetics Epigenesis, Genetic Heart--growth & development
55	Biochemical Characterization of SBIP-470 and its role in SA-mediated Signaling in Plants Chapagai, Danda P 01 December 2014 (has links) Salicylic acid binding protein 2 (SABP2) is known to play a key role in Salicylic acid mediated defense pathway. SBIP-470 is SABP2 interacting protein that might be putatively involved in transfer of lipids. SBIP-470 was cloned without the signal peptide and expressed in E. coli. In vitro lipid binding assay using recombinant SBIP-470 failed to detect lipid binding. In vitro lipid transfer assay showed recombinant SBIP-470 does not transfer phospholipid. Study has shown that SBIP-470 is highly inducible upon infection with viral as well as bacterial pathogens. Induction of SBIP-470 expression upon the TMV infection most likely depends upon the SABP2 while its expression upon non-host bacterial pathogens is most probably inhibited by the SABP2. A study of Arabidopsis knockout mutants (ltp12 mutant and ltp2 mutant) lacking the SBIP-470 homolog genes showed defects in growth phenotype, and they were found susceptible to bacterial pathogens. Plant Defense Salicylic Acid Systemic Acquired Resistance Salicylic Acid Binding Protein 2 Lipid Transfer Protein Lipid binding Biology
56	Analyse des interactions ADN lésé / protéines : Optimisations méthodologiques et applications aux dommages de l'ADN engendrés par les dérivés du platine Bounaix Morand Du Puch, Christophe 21 October 2010 (has links) (PDF) La présence de lésions sur l'ADN contribue à déstabiliser sa structure, bloquant certains processus vitaux pour la cellule. Ces altérations peuvent cependant avoir un intérêt thérapeutique, par exemple dans le cas de l'utilisation d'anticancéreux tels que les dérivés du platine. Les adduits volumineux qu'ils génèrent, s'ils ne sont pas réparés, entraînent la cellule vers l'apoptose. La compréhension de la réponse à ces anticancéreux passe par l'étude des protéines qui interagissent directement avec les dommages, et dont l'ensemble constitue l'interactome des lésions de l'ADN. Ce travail de thèse présente le développement d'outils destinés à compléter la liste des protéines associées aux adduits du platine. Dans un premier temps, nous avons utilisé un piège à protéines (ligand fishing) constitué de plasmides lésés fixés sur des billes magnétiques. Trois dérivés du platine ont été sélectionnés pour générer les lésions : le cisplatine (molécule princeps), l'oxaliplatine, et le satraplatine. Ce piège a permis d'obtenir, à partir d'extraits nucléaires issus de cellules cancéreuses HeLa et grâce à une identification par protéomique, une liste de candidats comprenant des protéines déjà connues (HMGB1, hUBF, complexe FACT), mais aussi 29 nouveaux membres de l'interactome. Parmi ceux-ci, nous avons relevé PNUTS, TOX4 et WDR82, qui constituent les sous-unités du complexe PTW/PP, très récemment découvert. La présence de ce complexe a été également validée sur un modèle d'adénocarcinome mammaire MDA MB 231, et les conséquences biologiques de son interaction avec les adduits du platine devront maintenant être précisées. Dans un second temps, nous avons mis au point une biopuce permettant d'étudier les interactions ADN lésé/protéine par SPRi. Les affinités respectives d'HMGB1 et du nouveau candidat TOX4 pour les adduits des trois dérivés du platine ont pu être ainsi confirmées. Dans un dernier temps, nous avons étudié le rôle de DDB2 (acteur de la reconnaissance des photoproduits UV) dans la prise en charge des adduits platinés. Les expérimentations menées sur les cellules MDA MB 231 exprimant DDB2 de façon différentielle nous ont permis de vérifier que cette protéine ne participe pas à la réparation des adduits du cisplatine, contribuant plutôt à potentialiser l'action cytotoxique de cet agent. Dans le futur, nos microsystèmes pourront être adaptés à l'étude de l'interactome d'autres lésions de l'ADN. [SDV] Life Sciences lésions de l'ADN cisplatine oxaliplatine satraplatine protéines à boîte HMG DNA damage binding protein 2 (DDB2) TOX4 SPRi
57	The Role of Mitochondrial Uncoupling in the Development of Diabetic Nephropathy Friederich Persson, Malou January 2012 (has links) Diabetes is closely associated with increased oxidative stress, especially originating from the mitochondria. A mechanism to reduce increased mitochondria superoxide production is to reduce the mitochondria membrane potential by releasing protons across the mitochondria membrane. This phenomenon is referred to as mitochondria uncoupling since oxygen is consumed independently of ATP being produced and can be mediated by Uncoupling Proteins (UCPs). However, increased oxygen consumption is potentially detrimental for the kidney since it can cause tissue hypoxia. Therefore, this thesis aimed to investigate the role of mitochondria uncoupling for development of diabetic nephropathy. UCP-2 was demonstrated to be the only isoform expressed in the kidney, and localized to tubular segments performing the majority of tubular electrolyte transport. Streptozotocin-induced diabetes in rats increased UCP-2 protein expression and correlated to increased non-transport dependent oxygen consumption in isolated proximal tubular cells. These effects were prevented by intense insulin treatment to the diabetic animals demonstrating a pivotal role of hyperglycemia. Importantly, elevated UCP-2 protein expression increased mitochondria uncoupling in mitochondria isolated from diabetic kidneys. Mitochondria uncoupling and altered morphology was also evident in kidneys from db/db-mice, a model of type-2 diabetes, together with proteinuria and glomerular hyperfiltration which are both clinical manifestations of diabetic nephropathy. Treatment with the antioxidant coenzyme Q10 prevented mitochondria uncoupling as well as morphological and functional alterations in these kidneys. Acute knockdown of UCP-2 paradoxically increased mitochondria uncoupling in a mechanism involving the adenosine nucleotide transporter. Increased uncoupling via adenosine nucleotide transporter decreased mitochondria membrane potential and kidney oxidative stress but did not affect glomerular filtration rate, renal blood flow, total kidney oxygen consumption or intrarenal tissue oxygen tension. The role of increased mitochondria oxygen consumption was investigated by administering the chemical uncoupler dinitrophenol to healthy rats. Importantly, increased mitochondria oxygen consumption resulted in kidney tissue hypoxia, proteinuria and increased staining of the tubular injury marker vimentin, demonstrating a crucial role of increased oxygen consumption per se and the resulting kidney tissue hypoxia for the development of nephropathy. Taken together, the data presented in this thesis establishes an important role of mitochondria uncoupling for the development of diabetic nephropathy. Kidney mitochondria Uncoupling Protein-2 Adenosine Nucleotide Transporter uncoupling diabetes diabetic nephropathy db/db dinitrophenol Coenzyme Q10 oxygen rats mice
58	Characterization of the induction and regulation of early B cell development Thal, Melissa Ann. January 2009 (has links) (PDF) Thesis (Ph.D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed on Feb. 3, 2010). Includes bibliographical references.
59	Biomaterials for Promoting Self-Healing of Bone Tissue Piskounova, Sonya January 2011 (has links) The present work addresses poor bone/implant integration and severe bone defects. In both conditions external stimuli is required for new bone to form. A multilayered functional implant coating, comprised of an inner layer of crystalline titanium dioxide (TiO2) and an outer layer of hydroxyapatite (HAP), loaded with bone morphogenetic protein-2 (BMP-2), was proposed as a tool for providing both improved initial bone formation and long-term osseointegration. The in vitro characterization of the implant coatings showed that TiO2 and HAP were more favorable for cell viability, cell morphology and initial cell differentiation, compared to native titanium oxide. Furthermore, significantly higher cell differentiation was observed on surfaces with BMP-2, indicating that a simple soaking process can be used for incorporating bioactive molecules. Moreover, the results suggest that there could be a direct interaction between BMP-2 and HAP, which prolongs the retention of the growth factor, improving its therapeutic effect. For treating severe bone defects a strategy involving BMP-2 delivery from hyaluronan hydrogels was explored. The hydrogels were prepared from two reactive polymers – an aldehyde-modified hyaluronan and a hydrazide-modified poly(vinyl alcohol). Upon mixing, the two components formed a chemically crosslinked hydrogel. In this work the mixing of the hydrogel components was optimized by rheological measurements. Furthermore, an appropriate buffer was selected for in vitro experiments by studying the swelling of hydrogels in PBS and in cell culture medium. A detection method, based on radioactive labeling of BMP-2 with 125I was used to monitor growth factor release both in vitro and in vivo. The results showed a biphasic release profile of BMP-2, where approximately 16 % and 3 % of the growth factor remained inside the hydrogel after 4 weeks in vitro and in vivo, respectively. The initial fast release phase corresponded to the early ectopic bone formation observed 8 d after injection of the hydrogel formulation in the thigh muscle of rats. The hydrogel formulation could be improved by incorporation of HAP powder into the hydrogel formulation. Furthermore, bone formation could be increased by pre-incubation of the premixed hydrogel components inside the syringe prior to injection. Crushed hydrogels were also observed to induce more bone formation compared to solid hydrogels, when implanted subcutaneously in rats. This was thought to be due to increased surface area of the hydrogel, which allowed for improved cell infiltration. Osseointegration implant coating hyaluronan hydrogel bone morphogenetic protein-2 hydroxyapatite bone delivery system injectable mixing radioactive labeling
60	Intracellular trafficking of influenza hemagglutinin and members of the low density lipoprotein receptor family Tall, Renee Danielle. January 2004 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 150-177.

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