Citoesqueleto e Alterações Nucleares em Celulas Tumorais: Uma Abordagem Tridimensional ao Microscópio Confocal. / Cytoskeleton and nuclear aberrations in tumor cells: a confocal microscope 3D approach.

Oliveira, Renata Manelli de

14 April 2000

O mecanismo de formação e origem das alterações nucleares ainda é pouco conhecido, sendo o micronúcleo a mais estudada. As células tumorais geralmente apresentam vários tipos de alterações nucleares que estariam associadas à instabilidade genética. O objetivo deste trabalho foi analisar as possíveis associações entre alterações nucleares e citoesqueleto em células HK2 e A549, derivadas de carcinoma de pulmão humano. Otimizamos a metodologia de uso do MCVL para redefinir as alterações nucleares e caracterizar os principais filamentos do citoesqueleto em preparações coradas por Feulgen ou imunofluorescência. As células da linhagem HK2 apresentaram fibras de actina dispostas concentricamente e em "clusters" e os filamentos de tubulina apareceram de forma radial, enquanto que o padrão de distribuição em A549 foi mais semelhante ao das células normais (BRL3A). Os filamentos de lamina B foram os mais importantes para evidenciar as alterações nucleares, porém essas alterações não puderam ser relacionadas com alterações do citoesqueleto. / The origin and mechanism of formation of the nuclear alterations is largely unknown, with the micronucleus being the most well studied alteration. Tumor cells generally present various types of nuclear alterations witch can be associated with genetic instability. The propose of this study was to analyze the possible association between nuclear alterations and the cytoskeleton in the human lung carcinoma cells HK2 and 549. The method of LSM was optimized to redefine the nuclear alterations and to characterize the principal cytoskeletal filaments in preparations stained with Feulgen’s reagent or submitted to imunofluorescent methods. The HK2 cells presented actin fibres arranged either concentrically or in clusters and tubulin filaments arranged radially, while in the A549 cells the distribution pattern was similar to that of normal cells (BRL3A). The lamin B filaments were the most important to identify nuclear alterations, as these alterations could not be related to cytoskeletal alterations.

alterações nucleares

célula tumoral

citoesqueleto

confocal microscope

cytoskeleton

immunoflorescence

imunofluorescência

micronúcleo

micronucleus

microscópio confocal

nuclear aberrations

tumor cells

Avaliação do citoesqueleto e da barreira endotelial pulmonar na malária experimental / Evaluation of the cytoskeleton and pulmonary endothelial barrier in experimental malaria

Debone, Daniela

20 April 2017

Infecções por Plasmodium sp. podem levar a um quadro respiratório grave, com complicações pulmonares denominadas lesão pulmonar aguda e síndrome do desconforto respiratório agudo (LPA/SDRA). Inflamação aguda, lesão do endotélio alveolar e do parênquima pulmonar, disfunção e aumento da permeabilidade da barreira alvéolo-capilar e, consequente, formação de edema, caracterizam esta síndrome. O modelo experimental, que utiliza o parasita murino Plasmodium berghei ANKA e camundongos da linhagem DBA/2, é empregado no estudo de mediadores imunológicos e fatores que propiciam o estabelecimento das lesões pulmonares associados à LPA/SDRA. Diversos estímulos podem atuar diretamente no aumento da permeabilidade endotelial por meio da desestabilização dos microtúbulos, rearranjo dos microfilamentos de actina e contração das células endoteliais, via sinalização de Rho-GTPases, causando disfunção da barreira endotelial. Desta forma, este trabalho tem como objetivo avaliar as alterações do citoesqueleto em células endoteliais primárias pulmonares de camundongos DBA/2 (CEPP-DBA/2), as vias de sinalização das principais Rho-GTPases e o estresse oxidativo, causados pela presença de eritrócitos parasitados com esquizontes de P. berghei ANKA (EP-PbA). As CEPP-DBA/2 foram estimuladas com TNF, VEGF ou IFNγ, em diferentes tempos de exposição, seguido da incubação com EP-PbA. Assim, foram realizados ensaios de imunofluorescência para análise do rearranjo de microfilamentos de actina e da desestabilização de microtúbulos. As vias de sinalização das Rho-GTPases foram avaliadas por Western blot, para as expressões proteicas de RhoA, Cdc42 e MLC. Além disso, ensaio fluorométrico foi realizado para detectar a produção de espécies reativas de oxigênio, resultantes do estímulo com eritrócitos parasitados. CEPP-DBA/2 estimuladas por EP-PbA, VEGF, TNF ou IFNγ, em associação ou não, apresentaram alterações morfológicas nos microfilamentos de actina e aumento dos espaços interendoteliais. Imagens de imunofluorescência também mostram desestabilização de microtúbulos e desfosforilação de FAK, causadas por EP-PbA. Os ensaios de permeabilidade validam que os eritrócitos parasitados com formas maduras de P. berghei induziram aumento da permeabilidade microvascular nas CEPP-DBA/2. Além disso, estas células, estimuladas com EP-PbA, demonstraram elevada produção de espécies reativas de oxigênio (EROs), o que pode estar contribuindo com o desenvolvimento de estresse oxidativo e com a injúria endotelial, assim como, com o aumento da permeabilidade vascular. O mais interessante é que estas alterações endoteliais podem estar relacionadas ao aumento da razão RhoA/Cdc42, da expressão proteica de MLC fosforilada e do sinal de ativação de RhoA. Em conjunto, estes resultados mostram envolvimento dos eritrócitos parasitados com esquizontes de Plasmodium berghei ANKA na desorganização do citoesqueleto e na disfunção da barreira alvéolo-capilar, via RhoA/Rho-kinase, o que pode estar contribuindo com a patogênese da LPA/SDRA associada à malária. / Infections by Plasmodium sp. can lead to a serious respiratory condition with pulmonary complications, named acute lung injury and acute respiratory distress syndrome (ALI/ARDS). Acute inflammation, alveolar endothelium and lung parenchyma injuries, dysfunction and increased permeability of the pulmonary alveolar-capillary barrier and consequent formation of edema characterize this syndrome. Several stimuli can directly increase endothelial permeability through actin microfilaments rearrangement, via Rho- GTPases signaling, leading to endothelial barrier dysfunction. DBA/2 mice infected with Plasmodium berghei ANKA develop ALI/ARDS similar to that observed in humans. The purpose of this research was to assess cytoskeletal changes in DBA/2 mice primary microvascular lung endothelial cells (PMLEC), verify the signaling pathways of the Rho- GTPases and analyze the oxidative stress on these cells in the presence of P. berghei ANKA-infected red blood cells (PbA-iRBC). PMLEC were stimulated by TNF, VEGF or IFNγ followed by incubation with PbA-iRBC. Immunofluorescence assays were performed to analyze actin microfilaments rearrangement and microtubules destabilization. Western blot for RhoA, Cdc42 and MLC proteins were conducted to assess alterations in signaling pathways of Rho-GTPases. In addition, a fluorimetric assay was performed to detect the production of reactive oxygen species resulting from PbA-iRBC stimulus. P. berghei ANKA, VEGF, TNF and IFNγ stimuli, in association or not, caused morphological disturbances in actin microfilaments of PMLEC and an increase of intercellular spaces. Moreover, immunofluorescence images showed microtubules destabilization and FAK dephosphorylation in these cells, caused by PbA-iRBC. The permeability assay showed that PbA-iRBC induced an increase of microvascular permeability in PMLEC. In addition, PMLEC stimulated by PbA-iRBC, showed elevated production of ROS, which may be contributing to oxidative stress and increasing the damage of endothelial cells, as well as an increase of vascular permeability. Interestingly, these endothelial changes may be related to the increased RhoA/Cdc42 protein expressions ratio, augmented protein expression of phosphorylated MLC and RhoA activation signal. Taken together, these data demonstrate the involvement of P. berghei ANKA-infected red blood cells in cytoskeleton disorganization and alveolar-capillary barrier dysfunction, through of RhoA / Rho-kinase signaling pathway, which may contribute to ALI/ARDS pathogenesis.

ALI/ARDS

Células endoteliais

Citoesqueleto

Cytoskeleton

Endothelial cells

Malaria

Malária

Permeabilidade vascular

RhoA/Rho-kinase

RhoA/Rho-kinase

Vascular permeability

O hormônio tiroideano induz reorganização do citoesqueleto dos somatotrofos de ratos hipotiroideos: potencial efeito sobre a estabilidade e tradução do mRNA do GH e secreção de GH. / Acute T3 administration induces reorganization of somatotroph\'s cytoskeleton of hypothyroid rats: potential effect on 6H mRNA stability and translation and 6H secretion.

Silva, Francemilson Goulart da

03 April 2008

O T3 aumenta a poliadenilação e estabilidade do GH mRNA. O citoesqueleto (Cy) participa da estabilidade e tradução de mRNAs, pois fatores, como o EF 1a, ligam alguns transcritos a ele, aumentando sua estabilidade e tradução. Cy também participa dos processos secretores celulares. Observamos que no hipotiroidismo (Tx), há um desarranjo do Cy nos somatotrofos que é revertido pela administração aguda de T3. Neste estudo avaliamos a ligação do EF 1a e do GH mRNA ao Cy e, deste aos polissomos, na hipófise, e a expressão do IGF-I mRNA hepático, em ratos controle e Tx tratados com T3 ou salina, e sacrificados após 30 min. Observamos redução da F-actina, da ligação do EF 1a e GH mRNA a ela, do GH mRNA nos polissomos, e da expressão de IGF-I mRNA hepático, nos ratos Tx, o que indicou redução da síntese e secreção do GH. A administração de T3 estimulou esses processos, aumentando a estabilidade, tradução do GH mRNA e a secreção de GH, o que ocorreu em paralelo ao rearranjo do Cy, indicando uma ação não genômica do T3. / T3 increases GH mRNA poly-A tail and stability. Cytoskeleton (Cy) plays a part on mRNA stability and translation, since factors, like EF 1a, can bind some transcripts to it, improving stability and translation efficiency. Cy is also involved in cellular secretory process. We showed that somatotropes Cy is disrupted in hypothyroidism (Tx), and rearranged by acute T3 treatment. In this study we investigated the binding of EF 1a and GH mRNA to Cy and of GH mRNA to polysomes in pituitary, as well as the liver IGF-I mRNA content, in control and Tx rats treated with T3 or saline, and killed 30 min thereafter. We observed that Tx reduced F-actin content, EF 1a and GH mRNA binding to it, GH mRNA recruitment to polysomes, in pituitary, and IGF-I mRNA expression in liver, which indicates that GH synthesis and secretion are impaired. Acute T3 treatment stimulated all these process, indicating that stability, translation of GH mRNA and GH secretion were restored. These events occurred in parallel to the Cy rearrangement, which strongly indicates a non genomic effect of T3.

Citoesqueleto

Cytoskeleton

EF 1a

EF1

Estabilidade

Hormônio tiroideano

Perfil polissomal

Polysome profile

Stability

Thyroid hormone

Tradução

Translation

Expressão das proteínas citoesqueléticas actina e tubulina em células osteogênicas cultivadas sobre vidro e vitrocerâmica bioativos / Expression of the cytoskeletal proteins actin and tubulin in osteogenic cells cultured on bioactive glass-based surfaces

Martins, Carolina Scanavez

03 August 2012

A implantação de materiais vítreos e vitrocerâmicos bioativos representa estratégia terapêutica importante para se promover a formação de matriz extracelular mineralizada em defeitos ósseos críticos. Quando expostos a fluidos biológicos, estes biomateriais sofrem alterações químicas e topográficas de superfície que afetam as interações de células com sua superfície, reduzindo o espraiamento celular e alterando o padrão de marcação de proteínas do citoesqueleto. O objetivo deste estudo foi avaliar se as alterações no padrão de marcação para as proteínas citoesqueléticas actina e tubulina observadas in vitro em células osteogênicas sobre superfícies do vidro Bioglass® 45S5 e da vitrocerâmica Biosilicato®, são decorrentes de redução quantitativa na expressão do RNAm e das proteínas correspondentes. Células osteogênicas foram obtidas a partir da digestão enzimática de calvárias de ratos Wistar recémnascidos e plaqueadas sobre superfícies de Bioglass® 45S5, Biosilicato® e borosilicato (controle bioinerte) para a avaliação dos seguintes parâmetros: 1) detecção de actina e tubulina por microscopia de fluorescência; 2) expressão de RNAm para actina e tubulina por reação em cadeia da polimerase em tempo real (Real time PCR); 3) quantificação de actina e tubulina por ensaio imunoenzimático direto (ELISA), e 4) análise da morfologia celular por microscopia eletrônica de varredura (MEV). Aos 3 e 7 dias, células crescidas sobre borosilicato exibiam padrões de marcação para actina e tubulina típicos de células aderidas e espraiadas sobre substratos planos in vitro, enquanto que sobre Bioglass® 45S5 e Biosilicato® as células apresentavam áreas circulares destituídas de marcação para essas proteínas. Nos mesmos períodos, culturas crescidas sobre os materiais bioativos apresentavam alterações significantes da expressão de RNAm para actina e tubulina, embora fossem observadas apenas discretas variações na quantidade das proteínas correspondentes em relação ao borosilicato. Além disso, apenas para culturas crescidas sobre borosilicato observava-se correlação positiva entre RNAm e proteína e correspondência entre as observações por epifluorescência e os dados quantitativos. Aos 3 dias, imagens de MEV revelaram células aderidas e espraiadas sobre os materiais bioativos, parcial ou totalmente recobertas por acúmulos de material de aspecto semelhante ao da topografia do substrato, por vezes impedindo a visualização dos limites celulares. Com base nos resultados obtidos, conclui-se que as superfícies bioativas de Bioglass® 45S5 e Biosilicato® afetam a expressão de RNAm para actina e tubulina, mas não de proteína. Assim, as alterações nos padrões de marcação por fluorescência para essas proteínas devem ser atribuídas, pelo menos em parte, a acúmulos de material sobre as células, possivelmente decorrentes das reações de superfície a que estão submetidos Bioglass® 45S5 e Biosilicato® quando em contato com fluidos biológicos. / Bioactive glasses and glass-ceramics have been successfully applied in various therapeutic strategies to promote the formation of mineralized matrix in bone defects. The exposure of these materials to biological fluids results in chemical and topographical modifications that may affect the interactions of cells with the biomaterial surface, with potential effects on cytoskeletal protein expression and/or organization and cell spreading. The aim of the present study was to evaluate whether changes in the labelling pattern for the cytoskeletal proteins actin and tubulin in osteogenic cells cultured on bioactive Bioglass® 45S5 and Biosilicate® are due to altered mRNA and protein expression levels. Osteogenic cells were obtained by enzymatic digestion of newborn Wistar rat calvarial bone and plated on Bioglass® 45S5, Biosilicate® and borosilicate (bioinert control) for periods of up to 7 days. The following parameters were assayed: i) qualitative epifluorescence analysis of actin and tubulin distribution; ii) quantitative mRNA expression for actin and tubulin by real time polymerase chain reaction (real time PCR); iii) quantitative actin and tubulin expression by enzymelinked immunoabsorbent assay (ELISA), and iv) qualitative analysis of cell morphology by scanning electron microscopy (SEM). At days 3 and 7, cells grown on borosilicate showed typical actin and tubulin labeling patterns of adherent and spread cells on flat, rigid substrates, whereas those on Bioglass® 45S5 and Biosilicate® showed dark areas devoid of fluorescent signals for the cytoskeletal proteins. At the same time points, cultures grown on the bioactive materials showed significant changes in mRNA expression for actin and tubulin, although only slight differences in the amount of actin and tubulin were detected compared with borosilicate. Moreover, a positive correlation between mRNA and protein expression levels as well as a correspondence between epifluorescence imaging and the quantitative data were only detected for cultures grown on borosilicate. SEM analysis revealed that cells cultured on bioactive surfaces were partly or totally covered with material accumulations, whose characteristics resembled the ones for the substrate topography, and which, in some cases, prevented the visualization of the cell limits. In conclusion, Bioglass® 45S5 and Biosilicate® affect actin and tubulin mRNA levels, but not the corresponding protein expression, in osteogenic cell cultures. Thus, the observed changes in the labeling pattern for these proteins should be attributed, at least in part, to the accumulation of materials on the cell surface, likely due to substrate reactions that take place on Bioglass® 45S5 and Biosilicate® when exposed to the cell culture medium.

bioactive materials

biomateriais

biomaterials

cell culture

citoesqueleto

cultura de células

cytoskeleton

glass-ceramics

materiais bioativos

osteogênese

osteogenesis

vitrocerâmicas

O papel do jaspamídeo na dinâmica do citoesqueleto de actina das células de melanoma: relação com migração e invasão. / The role of jaspamide in the actin cytoskeleton of melanoma cells: the relation between migration and invasion.

Menezes, Michelle dos Santos

17 November 2011

No processo de metástase os movimentos de migração e invasão tem um papel essencial e em ambos a função dos microfilamentos é de grande importância. Neste contexto, o presente trabalho buscoui analisar os efeitos da droga jaspamídeo e após a determinação das concentrações de IC50 para as linhagens HT144 e NGM foram estudados os efeitos da droga. Os tratamentos mostraram que o fármaco atua desorganizando o citoesqueleto de modo dependente de sua concentração. Os ensaios de ferida mostraram diminuição da taxa de fechamento da área livre após os tratamentos e os ensaios de migração com placas de transwell mostraram que os grupos tratados sofrem aumento desse parâmetro. Nos ensaios de invasão com câmara de Boyden o tratamento mostrou-se efetivo apenas para a célula NGM quando tratadas com 75 nM de jaspamídeo e 30 <font face=\"Symbol\">mM de Y-27632. Quanto à migração, a linhagem NGM não completava este processo quando tratada com as concentrações do IC50 e do IC50/2 acrescido de Y-27632 e a linhagem HT144 apresenta aumento deste parâmetro quando tratado com jaspamídeo e 200 <font face=\"Symbol\">mM de NSC23766. / Many signaling ways are involved in metastasis and the cellular migration and invasion are important in this context. The role of microfilaments is essential in mesenchymal and amoeboid migration. In this context, the present work aimed to analyze the effects of the drug jaspamide and. after the determination of the IC50 concentrations for the HT144 and NGM cell lines, the effects of the treatment with jaspamide were studied. The wound assays indicated a decrease in the free area after the treatments, and the migration assays with transwell showed that, after the inoculation with the drug, the cells increased the process of migration. In the invasion assays with Boydens chamber, the treatment with jaspamide was effective only in NGM cells, when they are treated with 75 nM of the drug plus 30 <font face=\"Symbol\">mM of Y-27632. Regarding the migration process, the NGM cell line did not show movement when treated with the IC50 concentration and the IC50/2 concentration plus Y-27632, and the HT144 cell line increases this parameter when treated with jaspamide and 200 <font face=\"Symbol\">mM of NSC23766.

Actinas

Actins

Células cultivadas de tumor

Citoesqueleto

Cultured tumor cells

Cytoskeleton

Drugs

Fármacos

Melanoma

Melanoma

Metástase neoplásica

Neoplasm metastasis

Untersuchungen zum Rekrutierungsmechanismus und zur funktionellen Rolle des atypischen Myr5 bei der Epithelzellinvasion durch Shigella flexneri

Böwe, Christian

23 April 2004

Shigellen sind die Erreger der bakteriellen Ruhr beim Menschen, ihrem einzigen bisher bekannten Wirt. Ein wesentlicher Virulenzfaktor von Shigellen ist ihre Fähigkeit, in Epithelzellen des Intestinaltraktes einzudringen. Dabei induziert Shigella in der Wirtszelle Zytoskelettrearrangements, die zur Ausbildung einer blütenartigen Membranstruktur um das Bakterium herum führen, die schließlich über dem eindringenden Bakterium konfluiert und damit den Mikroorganismus internalisiert. Die Zytoskelettveränderungen sind essenziell für den Internalisierungsmechanismus und werden von der kleinen GTPase Rho gesteuert, wobei die Rho-Aktivität zeitlich und räumlich streng reguliert wird, um eine überschießende Bildung von F-Aktin auf Kosten des zellulären G-Aktin-pools zu verhindern. Myr5, ein atypisches Myosin der Klasse IX, ist das erste beschriebene Myosin mit einem Rho inaktivierenden GAP-Modul. Deshalb vermuteten wir, dass der Rho-Antagonist Myr5 während der Shigelleninvasion funktionell von Bedeutung sein könnte. Wir konnten zeigen, dass Myr5 bei der Shigelleninvasion in die zellulären Protrusionen rekrutiert wird. Dort kolokalisierte Myr5 mit F-Aktin und den Rho-Isoformen B und C, nicht jedoch mit RhoA. Die Rekrutierung von Myr5 in die Invasionszone erfolgte unabhängig von der Myosin-Kopf- und der GAP-Funktion. Die Resultate funktioneller quantitativer Untersuchungen zu einer möglichen Rolle während der bakteriellen Invasion sind kompatibel mit der Hypothese, dass sowohl die GAP-Funktion als auch die Myosin-Kopf-Funktion von Myr5 während unterschiedlicher Phasen der Shigelleninvasion von Bedeutung sind. / Shigella causes bacillary dysentery in humans, the only known host. A major feature of its pathogenic potential is the capacity to invade intestinal epithelial cells. Shigella entry into epithelial cells is considered a parasite induced internalization process requiring cytoskeletal rearrangements. Shigella induces a blossom-like membrane structure consisting of membrane sheaths that coalesce above and thus internalize the invasive microorganism. Cytoskeletal remodeling is an essential part of the entry process and is regulated by the small GTPase rho. Temporal and special regulation of rho activity is important to prevent excessive generation of F-actin in depense of the cellular G-actin pool. The class IX myosin myr5 is characterized by a GTPase activating protein (GAP)-module in the tail region. The GAP-module of myr5 is able to inactivate rho. We therefore hypothesized a potential role of myr5 in the regulation of rho activity during Shigella entry into epithelial cells. We could show that myr5 is recruited into bacterial entry spot. Myr5 colocalized with F-actin, rhoB and rhoC but not rhoA. Shigella-induced recruitment of myr5 did not require a functional myosin head or GAP-domain. The results of quantitative functional studies of a potential role of myr5 during bacterial entry suggest a dual role of the myosin head function and the GAP module of myr5 during different steps of the internalization process.

Shigella

Zytoskelett

Myosin

Myr5

Rho

Shigella

cytoskeleton

myosin

myr5

rho

610 Medizin

33 Medizin

YD 3204

YD 3256

ddc:610

Organização do fuso mitótico em células normais e tumorais: associação de drogas que atuam sobre os microtúbulos e a agressividade tumoral. / Mitotic spindle organization in normal and tumoral cells: interation of drug effects on microtubules and tumoral agressiveness.

Lima, Beatriz Brandão Vaz de

26 November 2008

Muitas evidências indicam que a tumorigênese em humanos é um processo com várias etapas. A progressão de um tumor em direção a malignidade ocorre de maneiras muito distintas entre os diferentes tipos de câncer. Entender os processos celulares que levam a tumorigênese é importante para se delinear tratamentos mais adequados contra os diversos tipos de câncer. Drogas antimitóticas (ou venenos de fuso) são utilizadas no tratamento de alguns cânceres, e entre eles está o câncer de mama. A ação dessas drogas reside sobre a mitose, e têm como alvo os fusos mitóticos, estruturas essenciais que dirigem o ciclo celular na divisão das células. Recentemente, pesquisadores têm delineado possíveis respostas da célula aos venenos de fuso, e essas respostas são dependentes da concentração da droga. Baixas concentrações de venenos de fuso provocam o aparecimento de populações celulares aneuplóides, que ocorrem quando a célula sai do bloqueio mitótico. O presente trabalho utilizou as drogas vincristina e paclitaxel sobre linhagens celulares de mama humana (células normais e tumorais) para pesquisar se as drogas são capazes de induzir células aneuplóides. Os resultados obtidos no presente trabalho indicam que baixa concentração de vincristina e paclitaxel pode induzir o aparecimento de população aneuplóide através de mitoses aberrantes. Os venenos de fuso induzem a formação de mitoses contendo múltiplos fusos mitóticos, e essas mitoses não ficam bloqueadas, dando origem a células aneuplóides. O papel da aneuploidia na tumorigênese não foi ainda estabelecido, mas indiferente da sua importância no desenvolvimento do tumor, encontrar maneiras de inibir sua formação ou de super induzir seu aparecimento podem ter implicações significativas para as terapias contra o câncer. / Several lines of evidence indicate that tumorigenesis in humans is a multistep process and that these steps reflect genetic alterations that drive the progressive transformation of normal cells into highly malignant derivatives. Understanding the cellular processes that lead to tumorigenesis is important to devise more appropriate treatments against various types of cancer. Antimitotic drugs are used in the treatment of some cancers, and among them is breast cancer. The action of these drugs lies on the mitotic spindles, essential structures that drive the cell cycle in the division of cells. Recently, researchers have outlined possible responses to the antimitotic drugs on cells, and these responses are dependent on the concentration of the drug. Low concentrations of drugs can cause the appearance of aneuploid population, which occur when a cell leaves the mitotic block. This study used the drug vincristine and paclitaxel on human breast cancer cell lines (normal and tumoral cells) to find if the drugs are capable of inducing cell aneuploidy. The results of this study indicate that low concentration of vincristine and paclitaxel can induce the emergence of aneuploidy population through aberrant mitosis. The drugs induce the formation of mitosis containing multiple mitotic spindles, resulting in aneuploidy population of cells. The role of aneuploidy in tumorigenesis has not yet been established, but indifferent to this is important find ways to inhibit its formation or the super-induce their appearance. These questions may have significant implications for therapies against cancer.

Aneuploidia

Aneuploidy

Breast cancer

Citoesqueleto

Citometria de fluxo

Cultura de células animais

Culture of animal cells

Cytoskeleton

Flow cytometry

Microtubules

Microtúbulos

Neoplasias mamárias

Turnover and localization of the actin-binding protein Drebrin in neurons

Puente, Eugenia Rojas

31 August 2016

Die vorliegende Arbeit erforscht die Regulation der Expression von Drebrin; DBN (Developmentally Regulated Brain Protein) in Neuronen. DBN ist ein Protein das Actin bindet und Actin-Filamente bündeln kann. Änderungen der Morphologie der Spines verändern die synaptische Aktivität und Plastizität – wichtigen Prozessen bei der Gedächtnisbildung und Alterung des Gehirns, sowie bei geistigen Störungen bzw. Behinderungen. DBN-Expression im Alter und in einigen neurodegenerativen Krankheiten reduziert ist. Eine schwächere Expression von DBN in Spines geht außerdem mit einem Verlust an synaptischen Verbindungen einher, einem gemeinsamen Merkmal von Alterung und neurologischen Störungen wie der Alzheimer Krankheit. Diese Befunde bildeten die Motivation und Grundlage für meine Erforschung der Produktion und Lokalisierung von DBN. In meinem Projekt, habe ich den Effekt der sequenzspezifischen S647-Phosphorylierung von DBN untersucht. Die Arbeit zeigt, dass diese post-translatorische Modifikation die Stabilität von DBN reguliert. Ich habe FUNCAT-PLA und Puro-PLA für die Visualisierung von de novo synthetisierten Proteinen in situ benutzt. Mittels hochauflösender Fluoreszenz-Hybridisierung konnte ich zeigen, dass DBN nicht nur im Zellkörper sondern auch lokal in den Spines translatiert wird. Meine Resultate bieten eine Grundlage für das Verständnis der Regulierung de DBN-Konzentration in Zellen und ermöglichen die weitere Erforschung der Rolle der S647-Phosphorylierung von DBN für die Morphologie von Spines. Die Arbeit bildet außerdem eine experimentelle Plattform für weitere Studien der Rolle von DBN für Spines, sowohl in Bezug auf Stabilität als auch der synaptischen Funktion und Stabilität. / This thesis studies the abundance of the protein Drebrin; DBN (Developmentally Regulated Brain Protein) in neurons, which is an actin-binding protein capable of bundling actin filaments. Synapses in the mammalian brain are formed on tiny protrusions, called dendritic spines. Changes in spine morphology affect synaptic activity and plasticity, which are processes underlying memory formation. DBN abundance plays an important role in regulating dendritic spine morphology. Cognitive decline and neurodegenerative conditions have been shown to be linked with a decrease in DBN levels. A weakening in the expression of this protein in spines is associated with the loss of synaptic connections, a common feature of ageing and neurological disorders such as Alzheimer''s disease. This evidence was the underlying motivation for studying the localization and turnover of DBN. I studied the effect of the site-specific S647 phosphorylation of DBN and found that such post-translational modification regulates protein stability. For the project, I established several novel techniques in our laboratory, including state-of-the-art methods such as FUNCAT-PLA and Puro-PLA for the visualization of de novo synthesized proteins in situ. My results show that DBN translation occurs not only in somata but also locally in the dendrites and spines. The same observation is true for DBN transcripts, which are present both in the soma and dendrites of neurons. These observations suggest that DBN could play an important role during synaptic plasticity. My results allow the future investigation of the potential role of site-specific phosphorylation of DBN in spine morphology. This PhD thesis represents a contribution to better understanding the regulation of DBN abundance. It also provides an experimental platform for additional investigation about the role of DBN in spine morphology, regarding its stability and its correlation with synaptic maintenance and function.

Neuronen

drebrin

actin

cytoskelett

cytoskeleton

actin

Neurons

drebrin

570 Biowissenschaften, Biologie

32 Biologie

WW 2201

YG 4013

ddc:570

Transformation, Growth, and the Cytoskeleton: Tools to Study Oil Producing Algae

Collatos, Angelo Robert

10 January 2013

With the current state of climate change and world peak oil on the horizon, it is important to focus our research efforts on alternative sources of energy. Ethanol obtained from the digestion of biomass (bioethanol) and oil harvesting from algae (biodiesel) are two promising fields of study for transportation fuel production. However, in their current state of development, neither option is capable of reasonably replacing the transportation fuel demand for this country. The land demand needed is too large for either process to become a viable option, albeit the land demand for biodiesel is considerably smaller than that of bioethanol. Therefore, when moving forward with alternative transportation fuel, harvesting oil from algae is a more promising option. Therefore, I investigated oil producing green algae to better understand algal growth, the algal cytoskeleton, and tried to establish a methodology to genetically manipulate algae. I developed a microgrowth assay in order to investigate algal growth and proliferation, while at the same time using considerably less material and space. This assay can directly monitor algal growth in response to media contents, and overcomes many of the limitations of existing microassays due to its use of solid media agar and fluorescent imaging. I also investigated algal genetic manipulation with the intention of creating a standard operating procedure, which could lead to further investigation of how to increase lipid output and increase lipid harvesting cycles through studying lipid production and cell division. Electroporation and PEG mediated transformation were the two chief methods investigated for nuclear transformation. Lastly, I performed an algal kinesin phylogenetic study to characterize the currently available algal kinesin superfamily, providing insight to proteins that are important for cell division as well as other functions within this superfamily. Kinesins 5, Kinesin 7s Class II and Class V, and Kinesin 14 Class I were identified to be important for algal cell division, while Kinesin 8, 12, 11, and some orphan kinesins will require further investigation due to their unknown plant function. Overall, this research provides a foundation for future algal studies required for optimal oil production necessary for a more sustainable future.

microalgae

biodiesel

toxicity assay

microgrowth assay

growth assay

protoplasting

protoplast

electroporation

transformation

kinesin

cytoskeleton

oil producing algae

Toca-1 driven actin polymerisation at membranes

Fox, Helen Mary

January 2018

Regulation of the actin cytoskeleton is key to cellular function and underlies processes including cell migration, mitosis and endocytosis. Motile cells send out dynamic actin protrusions that enable them to sense and interact with their environment, as well as generating physical forces. Linking of the actin cytoskeleton to the cell membrane is essential for the formation of these protrusions. The proteins that are thought to fulfil such a role have a membrane interacting domain (such as the PH domain in lamellipodin, or I-BAR protein in IRSp53) and a domain which interacts with actin regulatory proteins (such as the SH3 domain of IRSp53, which binds Ena and VASP). I investigated the contribution of the F-BAR protein Toca-1 in linking actin polymerisation to membranes, by characterising a new protein-protein interaction and the interaction of Toca-1 with giant unilamellar vesicles. FBP17, a homologue of Toca-1, can oligomerise to form 2D flat lattices and 3D tubules on membranes. Proteins of the Toca-1 family have previously been implicated in actin polymerisation in cell-free systems and during endocytosis. However, there is emerging evidence that Toca-1 family proteins could also be involved in the formation of outward facing protrusions, lamellipodia and filopodia. In an in vitro system that recapitulates the formation of filopodia-like structures (FLS) on supported lipid bilayers, Toca-1 is recruited early, suggesting a Toca-1 scaffolding mechanism could precede the recruitment of other actin regulators. One prediction of this model is that Toca-1 would bind proteins previously implicated in filopodia formation, such as formins. I found that extracts depleted of Toca-1 binding partners no longer forms filopodia-like structures and subsequently optimised pull-down assays to identify Toca-1 binding partners by mass-spectrometry. I identified four formins, Diaph1, Diaph3, FHOD1 and INF2, and as well as the actin elongation factors and filopodia proteins, Ena and VASP. I further characterised these interactions and found that Toca-1 binds Ena and VASP via its SH3 domain. The interaction is direct and is strongly reduced if the proline-rich region in Ena is deleted. VASP was still able to bind without its proline rich region, suggesting there could be additional binding sites. I discovered that the binding of Ena and VASP was dependent on the clustering state of Toca-1, whilst the binding of the previously identified Toca-1 binding partner N-WASP was not. This further supports the importance of Toca-1 oligomerisation in actin polymerisation. I tested these interactions in the FLS system and found that increasing Toca-1 concentration leads to increased recruitment of N-WASP, as well as the novel binding partner Ena to the structures, whereas an increase in VASP was not observed. SH3-domain mediated interactions are required for Toca-1 recruitment to FLS, suggesting that its membrane and protein binding activities act cooperatively. I showed that unlike N-WASP, which promotes the formation of branched actin, Ena and VASP are not required for actin polymerisation on supported lipid bilayers, suggesting that they are redundant with other factors in the elongation step of FLS formation. Ena and VASP are known to be important for the formation of neuronal filopodia and so I began to further test the role of these interactions in a cellular context using a neuronal cell culture system. As well as recruiting protein binding partners, F-BAR family proteins are implicated in stabilising lipid microdomains and can induce the clustering of phosphoinositides. I investigated the role of Toca-1 in actin polymerisation on PI(4,5)P2-rich giant unilamellar vesicles (GUVs). Actin-rich tails formed on the GUVs only when excess Toca-1 was supplemented into the extracts, and I propose that this is due to lipid organisation by Toca-1. In summary, my work suggests a model in which Toca-1 clusters, stabilises the membrane lipids and recruits regulators of actin polymerisation, such as Ena. This mechanism could be used to link actin polymerisation to the membrane in cellular protrusions, such as filopodia.