Global ETD Search

51	Nucleosides Rescue Replication-Mediated Genome Instability of Human Pluripotent Stem Cells Ivana, Barbaric,, Peter W, Andrews,, Halliwell, J.A., Frith, T.J.R., Laing, O., Price, C.J., Bower, O.J., Stavish, T., Gokhale, P.J., Hewitt, Z., El-Khamisy, Sherif 25 August 2020 (has links) Yes / Human pluripotent stem cells (PSCs) are subject to the appearance of recurrent genetic variants on prolonged culture. We have now found that, compared with isogenic differentiated cells, PSCs exhibit evidence of considerably more DNA damage during the S phase of the cell cycle, apparently as a consequence of DNA replication stress marked by slower progression of DNA replication, activation of latent origins of replication, and collapse of replication forks. As in many cancers, which, like PSCs, exhibit a shortened G1 phase and DNA replication stress, the resulting DNA damage may underlie the higher incidence of abnormal and abortive mitoses in PSCs, resulting in chromosomal non-dysjunction or cell death. However, we have found that the extent of DNA replication stress, DNA damage, and consequent aberrant mitoses can be substantially reduced by culturing PSCs in the presence of exogenous nucleosides, resulting in improved survival, clonogenicity, and population growth. Pluripotent DNA Damage Replication Stress Nucleosides Mitotic Errors Human
52	The function and regulation of myosin-interacting guanine nucleotide exchange factor (MYOGEF) and centrosome/spindle pole associated protein (CSPP) during mitotic progression and cytokinesis Asiedu, Michael Kwabena January 1900 (has links) Doctor of Philosophy / Biochemistry Interdepartmental Program / Qize Wei / This dissertation describes the role of myosin-interacting guanine nucleotide exchange factor (MyoGEF) and centrosome/spindle pole associated protein (CSPP) in mitotic progression and cytokinesis. We have identified three mouse isoforms of CSPP, all of which interact and colocalize with MyoGEF to the central spindle in anaphase cells. The N-terminus of MyoGEF interacts with myosin whereas the C terminus interacts with the N-terminus of CSPP, forming a complex. The N-terminus of CSPP appears to be important for both localization and interaction with MyoGEF. CSPP plays a role in mitotic progression since its depletion by RNAi resulted in metaphase arrest. MyoGEF is required for completion of cytokinesis. Both MyoGEF and CSPP are phosphorylated by mitotic kinases including Plk1 and Aurora. Importantly, MyoGEF is phosphorylated at Thr-574 in mitosis by Polo-like kinase 1, and this phosphorylation is required for activation of RhoA. Thr-543 of MyoGEF is required for Plk1 binding in mitosis and phosphorylation of MyoGEF by Cdk1/cyclinB, possibly at Thr-543 may generate a Plk1 docking site, i.e., Cdk1 can phosphorylate MyoGEF at Thr-543, thereby allowing Plk1 to bind and phosphorylate MyoGEF at Thr-574. Finally, MyoGEF and CSPP are also phosphorylated by Aurora-B kinase in vitro. Taken together, we propose that Aurora-B may phosphorylate and recruit MyoGEF and CSPP to the central spindle, where phosphorylation of MyoGEF at Thr-543 promotes Polo kinase binding and additional phosphorylation of MyoGEF, leading to the activation of RhoA at the cleavage furrow. Guanine nucleotide exchange factor MyoGEF Centrosome proteins Cytokinesis Mitotic kinases Mitotic progression Biology, Cell (0379) Chemistry, Biochemistry (0487)
53	Mécanismes Moléculaires de la Condensation Mitotique des Chromosomes chez la levure Schizosaccharomyces pombe / Molecular mechanism of mitotic chromosome in the fission yeast Schizosaccharamyces pombe Fauque, Lydia 24 September 2014 (has links) La condensation mitotique des chromosomes est l'un des mécanismes assurant la transmission fidèle de l'information génétique. Les complexes condensines et leur association à la chromatine sont nécessaires à cette condensation. Cependant, les mécanismes par lesquels ces complexes s'associent aux chromosomes et contribuent à leur condensation sont mal compris. L'objectif de ma thèse était d'identifier et de caractériser des facteurs de condensation encore inconnus collaborant avec le complexe condensine présent chez S. pombe. Par un crible génétique, nous avons recherché des mutants viables lorsque le complexe condensine est complètement fonctionnel mais morts lorsque ce complexe est partiellement défectif. Nous avons ainsi identifié 7 protéines jusqu'alors jamais impliquées dans la condensation mitotique. Parmi ces dernières, nous avons identifié des protéines impliquées dans le remodelage de la chromatine et des facteurs de transcription comme Gcn5, une HAT très conservée, connue pour son rôle de coactivateur de la transcription ; suggérant un lien entre la condensation et la machinerie transcriptionnelle. Gcn5 s'associe à la chromatine au niveau des promoteurs des gènes où elle acétyle principalement H3K9, H3K14 et H3K18. Sa présence au niveau des promoteurs est directement corrélée avec le niveau de transcription des gènes correspondants. Bien que la majorité de la chromatine soit dé-acétylée et que la présence de Gcn5 soit réduite au niveau des chromosomes en mitose, des traces de H3K9 acétylée persistent au niveau de certains promoteurs. Nos résultats suggèrent que cette acétylation persistante pourrait être liée au recrutement du complexe condensine à la chromatine / From yeasts to human, Condensin is essential for mitotic chromosome condensation. However, how Condensin binds to chromatin and, in this context, shapes mitotic chromosome remain poorly understood. Mappings performed from yeasts to mouse have revealed that condensin is enriched near highly expressed genes along chromosome arms, suggesting that as yet identified features associated with transcription take part in condensin binding to chromatin. To identify factors that collaborate with Condensin we performed a synthetically lethal genetic screen in fission yeast. We searched for mutants that are alive when Condensin is fully functional but dead when Condensin is partly defective. We identified 7 proteins never known for their roles in the mitotic condensation, such as some chromatin remodelling and some transcription factors. All these results were consistent with a link between condensation and transcription. Among theses 7 proteins, we found Gcn5, which encodes a conserved HAT, well known for the role it plays as a transcriptional co-activator. Gcn5 binds to gene promoters where it acetylates mainly H3K9, K14 and K18, and its occupancy correlates with transcription rates. Remarkably, although the bulk of chromatin is de-acetylated and Gcn5 reduced from chromatin upon mitosis entry, traces of Gcn5 dependant H3K9 acetylated persist at condensin binding sites. Here, we provide evidence that Gcn5-mediated histone H3 K9 acetylation could assist the binding of Condensin to chromatin Conensation mitotique Condensine Chromosome mitotique Gcn5 Acétylation Levure S. pombe Mitotic condensation Condensin Mitotic chromosome Gcn5 Acetylation Yeast Schizosaccharamyces pombe 572.8
54	Création et caractérisation des modèles animaux pré-clinique de CMTX / Creation and characterization of pre-clinic CMTX animal models Mones, Saleh 05 May 2014 (has links) La maladie de Charcot-Marie-Tooth liée à l'X (CMTX), deuxième cause, en fréquence, de neuropathies héréditaire, est due à des mutations dans le gène Gjb1 codant pour la connexine 32. Afin de les utiliser comme modèle pré clinique, nous avons créé 5 lignées de souris transgéniques, ayant intégré un BAC humain portant une mutation observée dans plusieurs familles indépendantes. L'exploration de ces modèles a montré que la connexine 32 (Cx32) est impliquée dans le contrôle de la stabilité mitotique. Nous avons ensuite montré que cette instabilité implique l'activité des CaMKII et, peut être, de la kinase Pim1. Cette instabilité est corrigée par des inhibiteurs des CaMKII (KN62 et KN93). Nous avons retrouvé le même phénomène dans des cellules de malades CMTX. Nous avons également pu montrer que les animaux transgéniques montrent des anomalies du comportement locomoteur, corrigées par un traitement par des inhibiteurs de CaMKII. Finalement, nous proposons des pistes pour améliorer ces molécules, en synthétisant des analogues de KN93 / X-linked Charcot -Marie -Tooth (CMTX) disease, the second cause, in frequency, of hereditary neuropathies, is caused by mutations in the gene GJB1 encoding connexin 32. As a preclinical model, we created five lines of transgenic mice, which have integrated a human BAC contain mutation observed in several independent families. The exploration of models showed that the connexin 32 (Cx32) is involved in the control of mitotic stability. We then showed that this instability involves the activity of CaMKII and, perhaps, kinase Pim1. This instability is corrected by inhibitors of CaMKII (KN62 and KN93). We found the same phenomenon occuring in cells of CMTX patients. We also showed that transgenic animals show abnormal locomotor behavior corrected by treatment with inhibitors of CaMKII. Finally, we propose strategies to improve efficiency of these molecules by synthesizing analogues of KN93 Cmtx Connexine32 CaMKII Souris transgéniques Instabilité mitotiques Cmtx Connexin32 CaMKII Transgenic mice Mitotic instability
55	Efeitos da Inibição de Genes Associados ao Controle do Ciclo Celular em Glioblastoma / Cell-Cycle Genes Inhibition Effects in Glioblastoma Morales, Andressa Gois 17 July 2012 (has links) Os tumores astrocíticos são originados a partir dos astrócitos e classificados de acordo com a Organização Mundial de Saúde em astrocitoma pilocítico (grau I), astrocitoma subependimal de células gigantes (grau I), xantoastrocitoma pleomórfico (grau II), astrocitoma difuso (grau II), astrocitoma anaplásico (grau III) e glioblastoma (GBM) (grau IV). Este último é o tumor cerebral mais frequente em adultos, possuindo uns dos piores prognósticos, devido principalmente à radioresistência do tumor, com uma sobrevida média de 14 meses. Vários estudos têm procurado encontrar novos alvos terapêuticos e os genes da família BUB são candidatos promissores, devido ao seu papel no controle do ciclo celular. Estes genes participam do mecanismo do ponto de checagem do fuso mitótico, prevenindo a separação prematura das cromátides irmãs. Os objetivos deste trabalho foram avaliar a expressão de BUB1, BUB3 e BUBR1 em amostras de pacientes portadores de gliomas de baixo grau (I e II) e glioblastoma, relacionar as expressões destes genes à sobrevida e estudar os efeitos da inibição dos genes BUB1 e BUBR1, por RNAi, na linhagem pediátrica SF188. Nossos resultados mostraram que tanto BUB1 quanto BUBR1 foram hiperexpressos nos glioblastomas e nos gliomas de baixo grau em relação à substância branca (p<0,05). A análise da expressão destes genes em amostras de glioblastomas em relação a amostras de grau I e II demonstrou uma hiperexpressão dos genes BUB1 e BUBR1 e uma hipoexpressão do BUB3 em glioblastoma (p<0,05). Em relação à sobrevida, os baixos níveis de expressão dos genes BUB1 e BUBR1 foram relacionados a uma melhor sobrevida quando analisado o total de todos os pacientes. Paralelamente, a inibição dos genes BUB1 e BUBR1 na linhagem SF188 resultou em uma diminuição da proliferação e também da capacidade clonogênica, além de um aumento na apoptose quando combinado com temozolomida (TMZ). Também foram realizados experimentos com inibições dos genes com ou sem a presença de irradiação. Esta combinação resultou em uma diminuição tanto da proliferação quanto da capacidade clonogênica. Estes resultados sugerem que o BUB1 e o BUBR1 podem ser considerados alvos interessantes para o tratamento de glioblastoma, porém estudos adicionais são necessários para confirmar tal potencial. / Astrocytic tumors are originated from astrocitytes and classified according to the World Health Organization into pilocytic astrocytoma (grade I), subependymal giant cell astrocytoma (grade I), pleomorphic xanthoastrocytoma (grade II), diffuse astrocytoma (grade II), anaplastic astrocytoma (grade III) and Glioblastoma (GBM) (grade IV). Glioblastoma is the most common brain tumor in adults with a very poor prognosis and a median survival of 14 months. Because their role in cell cycle control, several authors have previously ponited the BUB gene family as new therapeutic target candidates. These genes participate in the mitotic checkpoint by preventing the premature separation of sister chromatids. The aims of this study were to study the expression of BUB1, BUB3 e BUBR1 in samples of patients with low-grade gliomas (I and II) and glioblastoma, evaluate any association of gene expression with patient survival and analyze BUB1 e BUBR1 inhibition (by iRNA) effects, on SF188, a pediatric cell line. BUB1 and BUBR1 were found hyperexpressed in glioblastoma samples and in low-grade gliomas when compared with white matter samples (p<0.05). The analysis of the expression of these genes in glioblastoma samples compared with grade I and II samples showed a hyperexpression of BUB1 and BUBR1, while BUB3 was hipoexpressed in glioblastoma (p<0.05). In the survival analysis, the hipoexpression of BUB1 and BUBR1 genes were related with a better survival when all patients were considered. The BUB1 and BUBR1 inhibition resulted in decreased proliferation and colony formation, along with increased apoptosis when combined with temozolomide. Experiments with the inhibition of genes also were performed in association with irradiation. This combination demonstrated decreased proliferation and colony formation. Our results suggest that BUB1 and BUBR1 might be interesting targets for future treatment of glioblastoma, nonetheless further studies are necessary to confirm this potencial. Cell cycle Ciclo celular Genes do checkpoint mitótico Glioblastoma Glioblastoma Interference RNA Mitotic checkpoint genes RNA de interferência
56	Caracterização genético-molecular de linhagens com duplicação cromossômica em Aspergillus nidulans. / Characterization genetic-molecular of strains with chromosomes duplication in Aspergillus nidulans. Giancoli, Ágata Cristiane Huppert 13 August 2004 (has links) A pesquisa de linhagens com duplicação cromossômica, como a linhagem A de Aspergillus nidulans, teve oseu início no final da década de 1970. Durante este período foram isolados da linhagem A, diversos variantes deteriorados, que foram caracterizados genética e citologicamente. Neste trabalho de pesquisa, as analises genéticas demonstraram que os determinantes de deterioração ou segmentos de inserção de V5, V101, V102, V103 e V104 estão localizados nos grupos de ligação VIII, III, IV, VII e I respectivamente. As análises citogenéticas revelaram diversas alterações no ciclo celular e migração nucleares nas fases iniciais de desenvolvimento. A duplicação cromossômica da linhagem A e os variantes deteriorados foram investigados a nível molecular, por técnica de PCR. Os resultados mostraram que o segmento de inserção consiste de um provável Elemento de Transposição, denominado de MATE, o qual é característico do fungo Aspergillus nidulans. Os segmentos de inserção analisados apresentam características típicas de MATE, como o motivo "Spe" que é encontrado por toda seqüência dos Elementos MATE. / The research with chromosome duplication strains, as strain A of Aspergillus nidulans, began during the 70's, with isolation of several deteriorates variants of strain A and characterization by genetic and cytological analysis. In this work the genetic analysis has demonstrated that the deterioration determinant or insertion sequence in V5, V101, V102, V103 and V104 deteriorates variants are located in the linkages groups VIII, III, IV, VII and I, respectively. The cytological analyses have demonstrated changes in cellular cycle and nuclear migration in initial phases of development. The chromosome duplication of strain A and the deteriorated variants were investigated by PCR with designed primers to mobile elements, what have resulted in the identification of the transposable element MATE, mainly by great similarity with "Spe" motif sequence that is described as essential in activity of these elements. aspergillus - strains aspergillus linhagens filamentous fungi fungos filamentosos genética molecular instabilidade mitótica mitotic - instabilyt molecular genetic
57	Caracterização citogenética e molecular de espécies e variedades do gênero Manihot SILVA, Kaliny Veiga Pessoa da 17 February 2011 (has links) Submitted by (ana.araujo@ufrpe.br) on 2017-02-17T16:39:46Z No. of bitstreams: 1 Kaliny Veiga Pessoa da Silva.pdf: 1359915 bytes, checksum: de61e5532d3cfedb773fa796979687fb (MD5) / Made available in DSpace on 2017-02-17T16:39:46Z (GMT). No. of bitstreams: 1 Kaliny Veiga Pessoa da Silva.pdf: 1359915 bytes, checksum: de61e5532d3cfedb773fa796979687fb (MD5) Previous issue date: 2011-02-17 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / The Manihot genus belongs to Euphorbiaceae family, has about 98 species and native to tropical regions of the Americas, with greatest diversity center in Brazil, with 80% of Manihot species, showing a large vegetative polymorphism and a potential source for cassava breeding programs. Cassava (Manihot esculenta Crantz) is the only commercially cultivated species, with the shoots and the tuber roots used for both human food and animal feed. Cassava roots are also used in the manufacture of flour or in the composition of other products. Karyotypic analysis in mitotic or meiotic cells concerning to chromosomal homology, numerical and structural variations, polyploidy and evolution mechanisms of the karyotypes can provide useful information for breeding programs aimed at achieving improved cultivars. In addition, a karyotype study in many cases contributes to the increase cytogenetic markers that while certain aspects related to horticultural assist in the cultivars characterization. Manihot species are considered allotetraploid, with 2n=36 chromosome and x=9 as basic number. Natural interspecific crosses can be found frequently, making in some cases infertile hybrids. Infertility is not easily detected using phenotypic analysis. However, it is believed that these species undergone diploidization process along the evolution, now showing a meiotic behavior of a diploid. This work aimed the mitotic and meiotic analysis in nine species of the genus Manihot in order to confirm the karyotypic stability described at literature data. Three varieties of cassava and eight wild species were analised. The analysis revealed strong mitotic stability among species regarding the number and chromosome morphology, average size of chromosomes of 1.75 and maximum of two pairs of satellites. The meiosis was regular in wild species and irregular in varieties of M. esculenta 'manipeba', showing univalent, bivalent and trivalent at metaphase-anaphase I, showing typical behavior of a triploid and partly irregular meiosis in 'pornunça', producing polyads in microsporogenesis. An additional study was performed with molecular marker ISSR (Inter simple sequence repeat). Polymorphism was observed in 89.7% among the locus of the species, but as expected, there was a great genetic similarity between varieties of M. esculenta cultivated for the wild species. / O gênero Manihot pertence a família Euphorbiaceae, possui cerca de 98 espécies e é nativo das regiões tropicais das Américas, apresentando um grande centro de diversidade genética no Brasil. Cerca de 80% das espécies de Manihot ocorrem no país, exibindo amplo polimorfismo vegetativo e reunindo potencial para utilização em programas de melhoramento genético do gênero. A mandioca (M. esculenta Crantz) é a única espécie comercialmente cultivada, e dela se aproveita tanto a parte aérea como suas raízes reserva para consumo humano e animal, sendo utilizada na fabricação de farinha ou como parte da composição de diversos outros produtos e subprodutos. Análise cariotípica em células mitóticas ou meióticas em relação a homologia cromossômica, variações numéricas e estruturais, poliploidia e mecanismos evolutivos dos cariótipos podem fornecer informações úteis aos programas de melhoramento que visam a obtenção de cultivares melhoradas. Além disso, um estudo cariotípico em muitos casos contribui para o aumento no número de marcadores citológicos que quando relacionados a determinados aspectos horticulturais auxiliam na caracterização de cultivares. As espécies de Manihot são consideradas alotetraplóides, com 2n=36 e um número básico x=9. Cruzamentos interespecíficos naturais podem ocorrer com certa freqüência produzindo híbridos férteis ou não e, que, nos casos de infertilidade, essa característica pode não ser facilmente detectada por análise fenotípica. No entanto, acredita-se que estas espécies sofreram processo de diploidização ao longo da evolução, apresentando hoje um comportamento meiótico típico de diplóide. Este trabalho realizou a análise mitótica e meiótica em nove espécies do gênero Manihot, a fim de confirmar a estabilidade cariotípica descrita na literatura. Para isso, três variedades de mandioca e oito espécies silvestres foram analisadas. O estudo revelou uma forte estabilidade do cariótipo mitótico entre as espécies quanto ao número e morfologia cromossômica, o tamanho médio dos cromossomos de 1,75 e máximo de dois pares de satélites. A meiose foi regular em espécies selvagens e irregular em variedades de 'manipeba‟ M. esculenta, mostrando univalentes, bivalentes e trivalentes na metáfase, anáfase I, mostrando o comportamento típico de uma meiose triplóides e parcialmente irregular em ' pornunça", produzindo políades na microsporogênese. Adicionalmente foi realizado um estudo molecular com marcador ISSR (Simples sequência interna). Foram observados polimorfismos da ordem de 89,7% entre os lócus das espécies estudadas mostrando uma ampla variabilidade genética entre as espécies do gênero que podem ser fontes importantes de genes a serem empregados em programas de melhoramento da espécie cultivada. Entretanto, como esperado, houve uma grande similaridade genética entre as variedades da espécie M. esculenta em relação as espécies silvestres. Manihot Cromossomo mitótico Poliploidia Meiose Mitotic chromosome Polyploidy Meiosis FITOTECNIA::MELHORAMENTO VEGETAL
58	Experimental radioimmunotherapy and effector mechanisms Eriksson, David January 2006 (has links) Radioimmunotherapy is becoming important as a new therapeutic strategy for treatment of tumour diseases. Lately monoclonal antibodies tagged with radionuclides have demonstrated encouraging results in treatment of hematological malignancies. The progress in treatment of solid tumours using radioimmunotherapy, however, has been slow. New strategies to improve the treatment response need to be evaluated. Such new strategies include the combination of radioimmunotherapy with other treatment modalities but also elucidation and exploration of the death effector mechanisms involved in tumour eradication. As the combination of radioimmunotherapy and radiotherapy provides several potential synergistic effects, we started out by optimising a treatment schedule to detect benefits combining these treatment modalities. An anti-cytokeratin antibody labelled with 125I administered before, after, or simultaneously with radiotherapy, indicated that the highest dose to the tumour was delivered when radiotherapy was given prior to the antibody administration. The optimised treatment schedule was then applied therapeutically in an experimental study on HeLa Hep2 tumour bearing nude mice given radiotherapy prior to administration of 131I-labelled monoclonal antibodies. Combining these treatment regimes enhanced the effect of either of the treatment modalities given alone, and a significant reduction in tumour volumes could be demonstrated. This treatment caused a dramatic change in tumour morphology, with increased amounts of connective tissue, giant cells and cysts. Furthermore cellular alterations like heterogeneity of nuclear and cytoplasmic size and shape were observed, and at least a fraction of the tumour cells presented some characteristics of apoptosis. The induced sequential events in Hela Hep2 cells exposed to 2.5-10 Gy of ionizing radiation were studied further, with special emphasis on cell cycle arrest, mitotic aberrations and finally cell death. Following radiation HeLa Hep2 cells initiated a transient G2/M arrest trying to repair cellular damage. This arrest was followed by a sequence of disturbed mitoses with anaphase bridges, lagging chromosomal material, hyperamplification of centrosomes and multipolar mitotic spindles. These mitotic disturbances produced multinuclear polyploid cells and cells with multiple micronuclei, cells that were destined to die via mitotic catastrophes and delayed apoptosis. Induction of apoptosis in HeLa Hep2 cells following radiation doses and dose-rates equivalent to those delivered at radioimmunotherapy was concurrently studied in vitro. Significant induction of apoptosis was obtained and found to be induced relatively slowly, peaking 72-168 hours post irradiation. Caspases from the intrinsic pathway as well as the extrinsic pathway were found to be activated in response to ionizing radiation. Furthermore caspase-2, which has recently been acknowledged for its role as an initiator caspase was found to be activated following radiation and seems to play an important role in this delayed apoptosis. radioimmunotherapy apoptosis mitotic catastrophe caspases cell cycle disturbances combination treatment. Immunology Immunologi
59	Regulation of tubulin heterodimer partitioning during interphase and mitosis Holmfeldt, Per January 2008 (has links) The microtubule cytoskeleton, which consists of dynamic polymers of alpha/beta tubulin heterodimers, organizes the cytoplasm and is essential for chromosome segregation during mitosis. My thesis addresses the significance and potential interplay between four distinct microtubule-regulatory proteins. The experimental approach included the development of a replicating vector system directing either constitutive expression of short hairpin RNAs or inducible ectopic expression, which allows stable depletion and/or conditional exchange of gene-products. Based on the originally observed activities in frog egg extracts, MCAK and TOGp have been viewed as major antagonistic proteins that regulate microtubule-dynamics throughout the cell cycle. Surprisingly, while my thesis work confirmed an essential role of these proteins to ensure mitotic fidelity, tubulin subunits partitioning is not controlled by the endogenous levels of MCAK and TOGp in human somatic cells. Our major discovery in these studies is that the activities of both CaMKII and TOGp are essential for spindle bipolarity through a mechanism involving protection of spindle microtubules against MCAK activity at the centrosome. In our search for the major antagonistic activities that regulates microtubule-dynamics in interphase cells, we found that the microtubule-destabilizing activity of Op18 is counteracted by MAP4. These studies also established Op18 and MAP4 as the predominant regulators of tubulin subunit partitioning in all three human cell model systems studied. Moreover, consistent with phosphorylation-inactivation of these two proteins during mitosis, we found that the microtubule-regulatory activities of both MAP4 and Op18 were only evident in interphase cells. Importantly, by employing a system for inducible gene product replacement, we found that site-specific phosphorylation-inactivation of Op18 is the direct cause of the demonstrated hyper-polymerization in response to T-cell antigen receptor triggering. This provides the first formally proven example of a signal transduction pathway for regulation of interphase microtubules. Op18 is frequently upregulated in various types of human malignancies. In addition, a somatic mutation of Op18 has recently been identified in an adenocarcinoma. This thesis work revealed that the mutant Op18 protein exerts increased microtubule-destabilizing activity. The mutant Op18 protein was also shown to be partially resistant to phosphorylation-inactivation during mitosis, which was associated with increased chromosome segregation aberrancies. Interestingly, we also observed the same phenotype by overexpressing the wild type Op18 protein. Thus, either excessive levels of wild type Op18 or normal levels of mutated hyper-active Op18 seems likely to contribute to tumor progression by exacerbating chromosomal instability. microtubule mitotic spindle signal transduction phosphorylation cancer Cell and molecular biology Cell- och molekylärbiologi
60	Effects of Macrophage-conditioned Medium on Preadipocyte Cyclin-dependent Kinase Regulation During Adipogenesis Ide, Jennifer C. 08 February 2011 (has links) Macrophage-conditioned medium (MacCM) inhibits the differentiation of rodent and human preadipocytes. Previous studies report that murine J774A.1-MacCM inhibits clonal expansion (early required phase of adipogenesis), including Rb phosphorylation. I hypothesized that MacCM induced alterations in cyclins and/or cyclin-dependent kinases (CDKs) were responsible for impairing Rb phosphorylation. My first objective was to assess the effect of J774A.1-MacCM on CDK4, CDK2, and their regulatory cyclins. Murine 3T3-L1 preadipocytes were differentiated with control medium or J774A.1-MacCM. Expression of cyclin D and A was inhibited by J774A.1-MacCM. Inhibition of cyclin A expression was associated with reduced differentiation-induced CDK2 activity. My second objective was to assess the expression patterns of cell cycle proteins in differentiating human abdominal subcutaneous preadipocytes, which do not undergo clonal expansion in culture. Cyclin E expression increased with differentiation. THP-1-MacCM (a human macrophage cell line) further enhanced this increase. My studies suggest MacCM leads to alterations in cyclin/CDK regulation during adipogenesis in murine and human preadipocyte models. preadipocyte adipocyte differentiation macrophage cyclin cyclin-dependent kinase mitotic clonal expansion

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