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Nové regulační mechanismy nukleace mikrotubulů / New regulatory mechanisms of microtubule nucleationČernohorská, Markéta January 2016 (has links)
MT nucleation from γ-tubulin complexes, located at centrosome, is an essential step in the formation of MT cytoskeleton. In mammalian cells, -tubulin is encoded by two genes. We functionally characterized two γ-tubulin proteins and have found that both are functionally equivalent. γ-Tubulin 2 is able to substitute for γ-tubulin 1 in MT nucleation. However, we revealed that unlike TUBG1, TUBG2 expression is downregulated in mouse preimplantation development. Mast cells represent effectors of the allergy reaction. Their activation by antigen induces number of cellular processes such as degranulation, proliferation and cytoskeleton rearrangements. The regulatory mechanisms of MT reorganization during mast cell activation are unknown. We identified new signaling proteins, GIT1 and PIX that interact with - tubulin. Depletion of GIT1 or PIX leads to changes in MT nucleation. GIT1 is phosphorylated on tyrosine and associates with γ-tubulin in a Ca2+ -dependent manner. Our data suggested a novel signaling pathway for MT rearrangement in mast cells where tyrosine kinase-activated GIT1 and βPIX work in concert with Ca2+ signaling to regulate MT nucleation. We tested the capability of GIT1 and PIX to influence -tubulin function in more cell types. We found out that GIT1/βPIX signaling proteins together...
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Analyse du rôle des dérivés de polysulfanes de l’ail dans le réseau microtubulaire et l'autophagie : l’effet anticancéreux dans le cancer colorectal / Analysis of the role of garlic-derived polysulfanes on the microtubular network and autophagy : anticancer effect in colorectal cancerYagdi Efe, Esma 18 December 2017 (has links)
Le cancer colorectal est une cause majeure de morbidité et de mortalité dans le monde entier. Des études épidémiologiques révèlent une corrélation inverse entre le risque de développer un cancer du côlon et un régime alimentaire riche en ail. De nombreux travaux scientifiques rapportent l'activité anti-cancéreuse des polysulfures de diallyle (PSDA) dérivés de l'ail dans divers types de cancer in vitro et in vivo. Le mécanisme d'action le mieux connu repose sur l'induction de l'arrêt mitotique suivi de l'apoptose. La tubuline est identifiée comme nouvelle cible thérapeutique des PSDA. La tubuline est fondamental dans la progression de l'autophagie, source nutritionnelle essentielle pour le développement du cancer au stade avancé, et l'activation de l'autophagie joue un rôle de chimiorésistance dans le traitement du cancer du côlon. L'hypothèse de ce projet est que les PSDA dérivés de l'ail interagissent avec la tubuline pour altérer l'organisation du réseau microtubulaire responsable de l'inhibition de la prolifération cellulaire et de la modulation de l'autophagie dans le cancer du côlon. Dans un premier temps, nous avons analysé l'impact du TTSDA/TTSDB sur le réseau microtubulaire. Nous avons montré que le TTSDA/TTSDB interagissait avec la tubuline par spectrométrie en masse. Nous avons montré que l'organisation microtubulaire est altérée dans les trois lignées cellulaires : HT-29 (mutées BRAF), SW480 (mutées KRAS) et SW620 (mutées KRAS, métastatiques), plus sensibles au TTSDB que le TTSDA. Dans un deuxième temps, nous avons étudié le rôle anticancéreux du TTSDB dans le cancer du côlon. Nous avons montré que le TTSDB induisait un arrêt mitotique suivi de la mort cellulaire dans toutes lignées confondues. Son activité antiproliférative est validée dans un système de culture 3D et in vivo. Nous avons aussi montré que l'effet du TTSDB est comparable aux agents altérant les microtubules. Dans un troisième temps, nous avons évalué l'impact du TTSDB dans l'autophagie. L'inhibition de l'autophagie est accompagnée par l'accumulation de la protéine p62, qui joue un rôle de survie dans les cellules HT-29 uniquement. Ensemble, nous avons identifié l'autophagie comme mécanisme de survie lors de l'arrêt mitotique prolongé en fonction du type cellulaire. Cette étude permettra d'envisager un ciblage thérapeutique selon le profil génétique du cancer du côlon / Colorectal cancer is a major cause of morbidity and mortality worldwide. Epidemiological studies reveal an inverse correlation between the risk of developing colon cancer and a garlic-rich diet. Many scientific studies reported the anti-cancer activity of diallyl polysulfides (DAPS) derived from garlic in various types of cancer in vitro and in vivo. The best-known mechanism of action is the induction of mitotic arrest followed by apoptosis. Here tubulin is identified as a new therapeutic target for DAPS. Tubulin is fundamental in the progression of autophagy, an essential energy source for the development of advanced cancer, and autophagy activation plays a role of chemoresistance against the treatment of colon cancer.The hypothesis of this project is that garlic-derived DAPS interact with tubulin to alter the microtubule network organization responsible for the inhibition of cell proliferation and modulation of autophagy in colon cancer.First, we analyzed the impact of DATTS/DBTTS on the microtubular network. We have shown that DATTS/DBTTS interacts with tubulin by mass spectrometry. We have shown that the microtubule organization is altered in the three cell lines: HT-29 (BRAF mutated), SW480 (KRAS mutated) and SW620 (metastatic, KRAS mutated), which were more sensitive to DBTTS than DATTS. In a second step, we studied the anticancer activity of DBTTS in colon cancer. We showed that DBTTS induced mitotic arrest followed by cell death in all cell lines. Its anti-proliferative activity is validated in a 3D culture system and in vivo. We have also shown that the effect of DBTTS is comparable to microtubule altering agents. In a third step, we evaluated the impact of DBTTS in autophagy. Inhibition of autophagy is accompanied by accumulation of the p62 protein, which plays a survival role in HT-29 cells only.Altogether, we identified here autophagy as a survival mechanism during prolonged mitotic arrest depending the cell type. This study will allow us to consider targeted therapy according to the genetic profile of colon cancer
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Evaluation préclinique de trois nouvelles stratégies de radiosensibilisation pharmacologique : modulation de p53/Mdm2, perturbation de la dynamique des microtubules et ciblage de MET/Aurora B / Preclinical assessment of three novel strategies for radiosensitization : modulation of p53/Mdm2, disruption of microtubules dynamics, and targeting of MET/Aurora BChargari, Cyrus 24 March 2014 (has links)
Les résultats insuffisants de la radiochimiothérapie conventionnelle ont motivé l’évaluation de nouvelles cibles afin de moduler la radiosensibilité tumorale: voies intrinsèques impliquées dans la réponse aux rayonnements ionisants, vascularisation tumorale, stroma non vasculaire. A travers cette thèse, nous avons évalué trois nouvelles stratégies de radiosensibilisation pharmacologique. Nous avons d’abord étudié en association à la radiothérapie l’intérêt de la modulation de l’axe p53/Mdm2 par le JNJ26854165, un inhibiteur de la dégradation de p53 par le protéasome. Les résultats in vitro et in vivo dans des xénogreffes sous-cutanées de cancers bronchiques non à petites cellules (CBNPC) montrent que cette stratégie permet d’améliorer significativement l’efficacité de la radiothérapie. Nous avons également rapporté des résultats encourageants in vitro dans plusieurs lignées cellulaires tumorales avec un nouvel agent antivasculaire ciblant la tubuline, l’EHT 6706. Cette stratégie augmentait l’efficacité de l’irradiation et potentialisait l’effet antiprolifératif de certains agents de chimiothérapie conventionnelle. Enfin, le développement le plus abouti a consisté en l’évaluation de l’association d’un triple inhibiteur de MET/AXL/FGFR en association à l’irradiation in vitro et dans des modèles de CBNPC implantés en xénogreffes sous-cutanées, mais également sous forme de tumeurs pulmonaires orthotopiques. Cet agent pharmacologique potentialisait l’efficacité de la radiothérapie dans des lignées ne surexprimant pas MET. Il est apparu que l’activité de la drogue faisait intervenir, au moins partiellement, l’inhibition de l’activité d’acteurs de la cytocinèse. Ces trois évaluations, qui s’inscrivent dans la recherche translationnelle, montrent l’importance de la recherche préclinique pour les études d’association aux rayonnements ionisants. Seul un développement préclinique rationnel permettra de faire émerger de nouveaux standards dans le domaine de la biomodulation pharmacologique de la radiosensibilité tumorale. / Insufficient results of conventional chemoradiation have encouraged assessment of new targets for radiosensitization: intrinsic cellular pathways involved in radiation response, tumor angiogenesis, and nonvascular stroma. We have investigated these three strategies for pharmacological radiosensitization. First, we examined the usefulness of targeting p53/Mdm2 pathway in combination with irradiation. In vitro and in vivo results obtained in non-small cell lung carcinoma (NCSLC) showed that this strategy was promising for enhancing radiation efficacy. We also found encouraging results within several cell lines with a novel vascular disrupting agent targeting tubulin. This strategy enhanced radiation effects and also increased the antiproliferative effects of various chemotherapeutics. Finally, the most advanced preclinical development was obtained with a novel MET/AXL/FGFR inhibitor, which improved effectiveness of radiation therapy in vitro and in subcutaneous and orthotopic models of non MET-dependent cell cancer lines. This effect was not only related to an inhibition of stroma/cancer cell interactions, as it probably involved activity toward actors of cytocinesis. These studies, which are part of translational research, highlight the importance of preclinical investigations in the area of radiation research. Only rationale preclinical development will allow new standards to emerge for pharmacological modulation of tumor radiosensitivity.
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Rôle des alpha-tubulines fongiques dans la symbiose ectomycorhizienne et dans les interactions champignons plantes / Role of fungal alpha-tubulins in ectomycorrhizal symbiosis and in fungi plants interactionsPerrin, Aurélie 07 February 2013 (has links)
Les champignons ont développé diverses interactions avec les végétaux. Ces interactions peuvent être bénéfiques pour la plante dans le cas des champignons établissant des symbioses mutualistes ou néfastes si le champignon est pathogène. Elles reposent sur des mécanismes moléculaires mal élucidés. Des études réalisées sur le champignon mutualiste Hebeloma cylindrosporum associé au pin Pinus pinaster ont permis de créer une collection de mutants affectés dans leur capacité à interagir avec les plantes et à former l’organe mixte de la symbiose, l’ectomycorhize. L’objectif de ma thèse a été d’étudier un mutant affecté dans le gène codant une alpha-tubuline Hctubα2. Les tubulines sont des protéines présentes chez tous les Eucaryotes et permettent la formation des microtubules, des éléments clés du cytosquelette. Chez les champignons, on trouve une ou deux alpha tubuline(s). H. cylindrosporum en possède deux. J’ai étudié l’expression de ces deux tubulines lors l’établissement de l’interaction avec les racines de l’hôte. Les résultats indiquent que ces deux gènes sont différentiellement exprimés lors de l’interaction. J’ai étudié au niveau protéomique l’impact de la mutation en comparant les protéomes intracellulaires des deux souches. On retrouve deux alpha-tubulines chez certains champignons phytopathogènes comme Botrytis cinerea. L’hypothèse de l’implication de l’alpha-tubuline 2 dans l’établissement de la pathogénie a été émise. J’ai donc construit des mutants de Botrytis cinerea dans lesquels ce gène a été inactivé. J’ai également tenté de localiser à l’aide de fusions traductionnelles chacune des alpha-tubulines chez le champignon mycorhizien et chez le pathogène / In all terrestrial ecosystems, plants live in close interaction with numerous fungi. The interaction has a negative or positive effect on host plant depending upon the pathogenic or symbiotic status of the fungus. The establishment of these interactions is based on a tightly regulated molecular dialog between symbiotic partners. Previous studies on the ectomycorrhizal fungi, Hebeloma cylindrosporum associated with maritime pine (Pinus pinaster), created a collection of mutants affected in their mycorrhizal abilitiy. The aim of my thesis was to characterize one of these mutants affected in a gene, Hctubα2, encoding an alpha tubulin. Tubulins are eukaryotic cytoskeletal proteins involved in microtubules formation. Fungi have one or two alpha-tubulin. For example, H.cylindrosporum has two alpha-tubulin. The site of mutagenic DNA insertion in fungal genome was characterized. I studied the expression of both alpha-tubulins during the establishement of mycorrhizal interaction. Results showed that the two genes are differentially expressed during the interaction with host plant. At proteomic level, I studied the impact of the mutation comparing the two strains using 2D gel electrophoresis and sequencing differentially accumulated spots. Pathogenic fungi also bear two alpha-tubulins, as Botrytis cinerea. The hypothesis of the involvement of the alpha-tubulin 2 in pathogenesis was investigated. I created Botrytis cinerea mutants deleted for this gene. I also created translational fusions in order to visualize both alpha-tubulins in Hebeloma cylindrosporum and in Botrytis cinerea
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The C-Phycocyanin/Beta Protein Inhibits Cancer Cell ProliferationWang, Haizhen 22 April 2008 (has links)
C-Phycocyanin (C-PC) from blue-green algae has been reported to have various pharmacological characteristics, including anti-inflammatory and anti-cancer activities. In this study, the beta-subunit of C-PC (ref to as C-PC/beta) was expressed and purified from bacteria E. coli BL-21. The recombinant C-PC/beta has been demonstrated to have anticancer properties. Under the treatment of 5 microM of the recombinant C-PC/beta, four different cancer cell lines accrued a high proliferation inhibition and apoptotic induction. The C-PC/beta interacts with membrane-associated beta-tubulin and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) has been found. Under the treatment of the C-PC/beta, depolymerization of microtubulin and actin-filament was observed. The cells underwent apoptosis with increase of Caspase-3 and Caspase-8 activities. Cell cycle was arrested at G0/G1 phase under the treatment of C-PC/beta. In addition, the nuclear level of GAPDH decreased significantly. Inhibition of cancer cell proliferation and induction of apoptosis may potentate C-PC/beta as a promising cancer prevention or therapy agent.
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Multiple tasks of Glycogen synthase kinase-3beta (GSK-3£] ) and its partnersLin, Ching-chih 10 September 2007 (has links)
Glycogen synthase kinase-3 (GSK-3) is a serine/threonine protein kinase which plays a key role in several signaling pathways and its homologues have been identified in most eukaryotes. Since GSK3£]is an essential protein kinase that regulates numerous functions within the cell, an effort to survey possible GSK3£]- interacting proteins from a human testis cDNA library using the yeast two-hybrid system is made. Two interesting candidates are chosen to characterize their functions in this study. One is a centrosomal protein, hNinein, and the other is a novel inhibitor of GSK3£], designated as GSKIP (GSK3£] interaction protein).
In the first part of the present thesis we describe the identification of four diverse CCII-termini of human hNinein isoforms, including a novel isoform 6, by differential expression in a tissue-specific manner. In a kinase assay, the CCII region of hNinein isoforms provides a differential phosphorylation site by GSK3£]. In addition, either N-terminal or CCIIZ domain disruption may cause hNinein conformational change which recruits £^-tubulin to centrosomal or non-centrosomal hNinein-containing sites. Further, depletion of all hNinein isoforms caused a significant decrease in the £^-tubulin signal in the centrosome. In domain swapping, it clearly shows that the CCIIX-CCIIY region provides docking sites for £^-tubulin. Moreover, nucleation of microtubules from the centrosome is significantly affected by the overexpression of either the full-length hNinein or CCIIX-CCIIY region. Taken together, these results show that the centrosomal targeting signals of hNinein have a role not only in regulating hNinein conformation, resulting in localization change, but also provide docking sites to recruit £^-tubulin at centrosomal and non-centrosomal sites.
In the second part of the thesis we describe another candidate, GSK3£]interaction protein (GSKIP), to characterize its functions in neuron differentiation. We use human neuroblastoma SH-SY5Y cells as a model of neuronal cell differentiation. When overexpression of GSKIP prevents neurite outgrowth from RA-mediated differentiation, this result is similar to the presence of LiCl or SB415286, an inhibitor of GSK3£]. Further, GSKIP regulates the activity of GSK3£] through protein-protein interactions rather than post-modulation and GSKIP may affect GSK3£] on neurite outgrowth via inhibiting the specific phosphorylation site of tau. In addition to inhibition of neurite outgrowth, GSKIP overexpressed in SH-SY5Y cells also promotes cell cycle progression by analyzing cell proliferation with cell growth and MTT assay. Furthermore, GSKIP raises the level of £]-catenin and cyclin D1 through inhibition of GSK3£] activity in RA-mediated differentiation SH-SY5Y cells. Taken together, the data suggest that GSKIP, a dual functional molecule, is able to inhibit neurite outgrowth and promote cell proliferation via negative regulation of GSK3£] activity in RA-mediated differentiation of SH-SY5Y cells.
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Development of the avian inner ear and acoustic-vestibular ganglion and their connection to the primary auditory brainstem nuclei /Molea, David. January 2002 (has links)
Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (leaves 118-136).
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The C-Phycocyanin/Beta Protein Inhibits Cancer Cell ProliferationWang, Haizhen 22 April 2008 (has links)
C-Phycocyanin (C-PC) from blue-green algae has been reported to have various pharmacological characteristics, including anti-inflammatory and anti-cancer activities. In this study, the beta-subunit of C-PC (ref to as C-PC/beta) was expressed and purified from bacteria E. coli BL-21. The recombinant C-PC/beta has been demonstrated to have anticancer properties. Under the treatment of 5 microM of the recombinant C-PC/beta, four different cancer cell lines accrued a high proliferation inhibition and apoptotic induction. The C-PC/beta interacts with membrane-associated beta-tubulin and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) has been found. Under the treatment of the C-PC/beta, depolymerization of microtubulin and actin-filament was observed. The cells underwent apoptosis with increase of Caspase-3 and Caspase-8 activities. Cell cycle was arrested at G0/G1 phase under the treatment of C-PC/beta. In addition, the nuclear level of GAPDH decreased significantly. Inhibition of cancer cell proliferation and induction of apoptosis may potentate C-PC/beta as a promising cancer prevention or therapy agent.
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Biologically plausible models of neurite outgrowthKiddie, Gregor A. C. January 2011 (has links)
The growth of a neuronal dendritic tree depends on the neuron’s internal state and the environment within which it is situated. Different types of neuron develop dendritic trees with specific characteristics, such as the average number of terminal branches and the average length of terminal and intermediate segments. A key aspect of the growth process is the construction of the microtubule cytoskeleton within the dendritic tree. Neurite elongation requires assembly of microtubules from free tubulin at the growth cone. The stability of microtubule bundles is an important factor in determining how likely it is for a growth cone to split to form new daughter branches. Microtubule assembly rates and bundle stability are controlled by microtubule-associated proteins, principally MAP2 in dendrites. Extending previous work (Hely et al, J. Theor. Biol. 210:375-384, 2001) I have developed a mathematical model of neurite outgrowth in which elongation and branching rates are determined by the phosphorylation state of MAP2 at the tips of each terminal branch. Tubulin and MAP2 are produced in the cell body and transported along the neurite by a combination of diffusion and active transport. Microtubule (dis)assembly at neurite tips is a function of tubulin concentration. The rate of assembly depends on the amount of unphosphorylated MAP2 bound to the microtubules and linking them together. Phosphorylation of MAP2 destroys its linking capability and destabilises the microtubule bundles. Each terminal has a probability of branching that depends on the phosphorylation of MAP2 which, in turn, is a function of calcium concentration. Results from this model show that changes in the (de)phosphorylation rates of MAP2 affect the topology of the final dendritic tree. Higher phosphorylation promotes branching and results in trees with many short terminal branches and relatively long intermediate segments. Reducing phosphorylation promotes elongation and inhibits branching.
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Host/guest chemistry: from rings and metals to proteins and drugsGajewski, Melissa May Unknown Date
No description available.
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