Úloha translačních elongačních faktorů v dynamice stresových granulí / Role of translational elongation factors in dynamics of stress granules.

Hlaváček, Adam

January 2015

eIF5A seems to be involved in both, translation initiation and elongation. It was also reported to affect assembly of P-bodies. Given similarities of P-bodies with stress granules (SGs) we decided to test the role of eIF5A in dynamics of heat-induced SGs and its implications for the cell recovery. For the evaluation of eIF5A function in SGs formation was used the temperature- sensitive (ts) mutant eIF5A-3 (C39Y/G118D) cultivated under permissive temperature 25řC and Rpg1-GFP fusion protein as a marker of SGs. The cells were exposed to robust heat shock at 46řC for 10 minutes. The ability of the mutant cells to recover was tested by propidium iodine staining and colony forming units plating. We found that the eIF5A-3 mutant forms heat-induced SGs more loosely aggregated, indicating that the fully functional eIF5A is necessary for SGs assembly. However, it does not seem to affect the rate of SGs dissolution. Survival tests indicate that eIF5A-3 mutant cells are susceptible to dying in a similar way as WT cells; nevertheless, their ability to resume proliferation is significantly better. We also observed a loss of the ts phenotype of the eIF5A-3 mutant. This loss cannot be explained by reversion of mutated eIF5A sequence into normal. Probable cause lies in the adaptive evolution. Our results indicate role of...

Caractérisation des RhoGTPases et des voies de signalisation impliquées dans l'assemblage du virus HIV-1 / Characterisation of RhoGTPases and signaling pathways involved in HIV-1 Gag assembly and particle release

Thomas, Audrey

19 April 2013

Le cycle réplicatif du HIV-1 aboutit à la formation de virions qui s’assemblent dans des microdomaines spécifiques localisés à la membrane plasmique ou sur des compartiments intracellulaires particuliers, nommés VCC pour « Virus-Containing Compartments ». Selon les cas, ces virions sont ensuite relâchés par bourgeonnement ou exocytose. Ces étapes nécessitent un remodelage membranaire via le cytosquelette d’actine, ce qui est régulé par des voies de signalisation contrôlées par les RhoGTPases. Certains résultats suggèrent l’implication de ces protéines dans la biogénèse du HIV-1. Cependant, il reste à caractériser les mécanismes moléculaires spécifiquement impliqués dans la régulation cellulaire de l’assemblage viral.L’objectif de cette thèse consistait donc à identifier les RhoGTPases et les effecteurs des voies de signalisation spécifiquement requis durant la biogénèse virale. Cette étude a porté sur les GTPases Rac1, Cdc42 et RhoA car elles ont un rôle majeur dans la régulation du cytosquelette d’actine et de la dynamique membranaire. Elle a été réalisée sur les lymphocytes T (LT) Jurkat, cellules modèles pour l’infection HIV-1 où les virions s’assemblent à la membrane plasmique ; et les cellules adhérentes HeLa où les virions peuvent aussi s’assembler au niveau des VCC. Nos résultats ont révélé le rôle de la voie de signalisation Rac1-IRSp53-Wave2 dans l’assemblage de Gag à la membrane plasmique des LT Jurkat, et un rôle pour RhoA dans la régulation de l’assemblage viral suggéré au niveau des VCC. Ce travail améliore la compréhension des voies de signalisation cellulaires sollicitées lors de l’assemblage du HIV-1, en particulier dans les lymphocytes T, cibles du virus. / During the last steps of HIV-1 replication cycle, the Gag proteins come together in particular microdomains located at the plasma membrane or in some intracellular compartments, named “Virus-containing compartments”. Then, the viral particles are released by budding or exocytosis. All these steps involve membrane and actin cytoskeleton remodeling which is regulated by the RhoGTPases. In fact, some data suggest the implication of such proteins in HIV-1 biogenesis, but molecular mechanisms underlying this effect is not yet understood. During this thesis, our aim was to characterize the RhoGTPases and the effectors of cell signaling pathways which are specifically required during HIV-1 particle biogenesis. We focused our study on the GTPases Rac1, Cdc42 and RhoA because their influence on membrane and actin cytoskeleton was essential. Moreover, this work was accomplished on Jurkat T lymphocytes which are model cells to HIV-1 infection where the Gag proteins assemble at the plasma membrane, and on HeLa cells where the Gag proteins can also assemble on virus-containing compartments. Our results showed the requirement of the Rac1-IRSp53-Wave2 signaling pathway for HIV-1 Gag assembly at the plasma membrane of Jurkat T cells, and a role for RhoA GTPase in the regulation of viral particle assembly on virus-containing compartments in HeLa cells. This study improved understanding of cell signaling pathways required during the HIV-1 particle biogenesis and release, particularly in T cells which are the main host cell for HIV-1.

HIV-1

Assemblage

RhoGTPases

Cytosquelette d’actine

HIV assembly

RhoGTPases

Cell signaling

Actin remodeling

Expression and comparison of tropomyosin isoform actin-binding properties and their resolution within the thin-filament proteome

Dudekula, Khadar B.

January 2015

Tropomyosins(Tm) are a group of proteins that regulate the actin filaments in both muscle and non-muscle cells. In mammalian cells four Tm species are found: α-Tm (fast) encoded by α-Tm /TPM1 gene, β-Tm, encoded by β-Tm/ TPM2 gene, α-Tm (slow) encoded by γTm gene/ TPM3 and δ-Tm encoded by δTm / TPM4gene. Mutations in Tm are linked to many cardiac and skeletal diseases like hypertrophic cardiac myopathy (TPM1 and TPM2), familial cardiac myopathy (TPM1) and skeletal diseases like nemaline myopathy (TPM2 and TPM3) along with other sarcomere proteins. The hypothesis on which this study is based is, the isoform composition in both muscle and non-muscle cells adapts in response to disease and physiological changes. A significant part of that adaptation is changes in the thin filament protein isoforms expressed and the post translational modifications of these proteins. In this study Tpm3.12st isoform of γTm and other striated muscle tropomyosin isoforms (Tpm1 and Tpm2) and a non-muscle Tmp4 were characterised using a variety of techniques. The aim was to enhance our understanding of the role of tropomyosin interactions in regards to its efficiency of actin binding capacity as well as its effect on actin polymerisation. Human tropomyosin 3 (Tpm3.12st) was expressed in E. coli to produce recombinant protein with three N-terminal sequence variants (Met, MM and (M)ASM). The proteins were characterised for their binding affinity with actin as this isoform has not been well characterised so far. Its properties are compared with other striated muscle tropomyosin Tpm1.1st and Tpm2.2st and non-muscle Tpm4.1cy. The proteins were purified through ion exchange chromatography and the purity was checked by using SDS-PAGE and UV spectrometry. The molecular weights of the recombinant proteins produced were confirmed by mass spectrometry. Cosedimentation assays were performed for their actin binding affinity using ultracentrifugation. The variant of Tpm3.12st with AS N-terminal extension was found to have similar actin affinity to Tpm1.1st in the range of 0.1-0.8 μM (half saturation). However the variants with Met and MM N-termini bound to actin weakly with high half saturation concentration of ~ 6 μM and ~8 μM tropomyosin respectively. Measurement of actin polymerisation kinetics showed it is affected in presence of tropomyosin. From this study it is shown that tropomyosin accelerates the initiation step in actin polymerisation with varying differences within the isoforms in contrast to several previous studies. There have been very few studies of the effect of tropomyosin on actin polymerisation in the last two decades. This work shows that tropomyosin isoforms have a large and variable role in controlling actin polymerisation and understanding tropomyosin function will need further investigation in this area. This study also developed an ELISA screening method using monoclonal antibodies for identification and quantification of Tpm3.12st which was tested against all the four tropomyosin isoforms. None of the twelve antibodies studied showed reactivity only with Tpm3.12st. From the data analysed it is deduced the amino acid residues in the region of 24-43 shows the prospect of designing a monoclonal antibody specific to Tpm3.12st isoform. Accurate quantification of tropomyosin isoforms is key to understanding their function and the effects of modulation of isoform composition in health and disease. A reverse phase liquid chromatography method was developed which is compatible with the analysis of the thin filament proteome using top-down mass spectrometry. Reverse phase liquid chromatography (RPLC) is one of the most popular methods used in mass spectrometry analysis where proteins are separated based on their hydrophobicity. The RPLC method developed in this study gives an efficient separation of major thin filament proteins along with small soluble proteins that is compatible to use for top down mass spectrometry for identification and quantification of proteins, PTMs and isoform composition. With a minimum amount of 2 mg of tissue using chicken and mouse heart and skeletal muscle samples a buffer system was optimized to extract thin filament proteins. With the optimized RPLC method actin, tropomyosin and troponin complex subunits (TnC, TnI and TnI) were successfully separated and the proteins were identified using SDS-page by comparison with the previous research results. This novel method of extraction and the optimised RPLC method will provide a “bird’s eye view” of thin filament proteome providing information of PTMs of all the proteins together within one single extraction, reducing the time for analysis and the sample size. This has the potential to give insight into tissue, muscle and heart adaptations that could act as a prognostic indicator.

572

Cytoskeletal reorganization in human blood platelets during spreading

Paknikar, Aishwarya Kishore

19 January 2017

No description available.

570

platelets

cytoskeleton

spreading

real-time F-actin and microtubule

Biologie (PPN619462639)

Funktionelle Analyse von bakteriellen W-xxx-E Rho GTPasen GEF Mimetika mittels Typ 3 Sekretionssystems von Yersinia enterocolitica / Functional analysis of bacterial W-xxx-E Rho GTPase GEF mimetics using the type 3 secretion system of Yersinia enterocolotica

Wölke, Stefan

January 2010

Die zellulären Rho GTPasen kontrollieren und regulieren zentrale elementare Zellvorgänge wie Phagozytose, Migration und epitheliale Integrität. Aufgrund ihrer zentralen Stellung, interagiert eine Vielzahl von bakteriellen Cytotoxinen und Modulinen mit den Rho GTPasen und wirken so als Pathogenitätsfaktoren. Die zur W-xxx-E Familie gehörenden Effektoren IpgB1 und IpgB2 von Shigella und Map von E. coli (Pathotypen EHEC und EPEC) werden über ein Typ 3 Sekretionssystem (T3SS) in Wirtszellen injiziert und wirken als Rac1, RhoA bzw. Cdc42 GEF Mimetikum. In der vorliegenden Arbeit wurden die Effektor Funktionen von IpgB1 IpgB2 und Map mit Hilfe des Yersinia (Ysc)-T3SS untersucht, was zur Etablierung der „Yersinia-Toolbox“ führte. Damit können heterologe Effektoren isoliert im physiologischen Kontext der Erreger-Zell-Interaktion zellbiologisch untersucht werden unter Vermeidung von simultaner Injektion redundanter oder unbekannter Effektoren. Zur Etablierung der Yersinia-Toolbox wurden zunächst die Gene für die Rho GTPasen modulierenden Shigella Effektoren IpgB1 und IpgB2 sowie der E. coli (EHEC)-Effektor Map mit unterschiedlich langen Gensequenzen der N-terminalen Bereiche des Yersinia-Effektorproteins YopE fusioniert (Hybridproteine: YopEi-X:i = 18, 53 bzw. 138 Aminosäurereste, X = IpgB1, IpgB2 bzw. Map). In der vorliegenden Arbeit wird gezeigt, dass die Hybridproteine YopE53-X und YopE138-X (X=IpgB1, IpgB2, Map) in den Kulturüberstand sezerniert bzw. in Zielzellen injiziert wurden. In einem weiteren Schritt konnte die zellbiologische Aktivität der heterologen Proteine fluoreszenzmikroskopisch durch Aktinzytoskelettumlagerungen gezeigt werden. So wurden „Membrane Ruffles“ (Rac1-Aktivierung) durch YopE138-IpgB1, Stressfasern (RhoA-Aktivierung) durch E138-IpgB2 und „Mikrospikes“ (Cdc42-Aktivierung) durch YopE138-Map nachgewiesen. Invasionstudien zeigten, dass YopEi-IpgB1 (i = 53, 138) die Yersinia-Invasion induzierte, wohingegen YopEi-IpgB2 die Invasionsrate der Stämme WA (pT3SS, pEi-IpgB2) (i=53, 138) verglichen mit dem Stamm WA (pT3SS) reduziert war. Durch Kombination verschiedener Yersinia-Toolbox-Stämme konnte im Co-Infektionsmodell mit HeLa-Zellen gezeigt werden, dass (1) die YopE138-IpgB1 vermittelte Invasion durch YopE138-IpgB2 signifikant inhibiert werden kann, was auf eine antagonistische Wirkung zwischen IpgB1 und IpgB2 schließen lässt, dass (2) YopT ebenfalls die IpgB1 vermittelte Invasionsrate reduziert (inhibitorische Wirkung auf Rac1), und dass (3) YopE als GAP für RhoG/Rac1 (bevorzugt RhoG) praktisch nicht die IpgB1-vermittelte Invasion hemmt. Durch Klonierung der YopE138-IpgB1 und YopE138-IpgB2 kodierenden Fusionsgene in zwei kompatible Plasmidvektoren konnten die Hybridproteine simultan transloziert werden und die Co-Infektionsergebnisse bestätigt werden. In der Literatur ist beschrieben, dass die Ysc-Translokationspore YopB/YopD Rho-abhängig Membranporen-bedingte Zellschädigungen verursacht (LDH-Freisetzung, PI-Kernfärbung). Mit der Yersinia-Toolbox konnte mit dem Stamm WA (pT3SS) Zytoplasmamembranschädigung / Zytotoxizität nachgewiesen werden, nicht aber mit den Stämmen WA (pE138-X) X = IpgB1, IpgB2 oder Map. Co-Infektionen jedoch zeigen, dass vermehrt LDH bei der Infektion mit WA (pT3SS) + WA (pT3SS, pE138-IpgB1) detektiert wurde, wohingegen dieser Effekt von YopE138-IpgB2 in einer Co-Infektion von WA (pT3SS) + WA (pT3SS, pE138-IpgB2) inhibiert wurde. Auch hier wurde der Antagonismus zwischen IpgB1 und IpgB2 erneut sichtbar. Diese Befunde widersprechen publizierten Daten, die eine RhoA-Aktivierung/Aktinpolymerisierung mit verstärkter Porenbildung in einen Zusammenhang bringen. Rho GTPasen sind beteiligt an der Erhaltung der polarisierten Eipthelzellschichtintegrität über Adhäsionskomplexbildung. Mittels Infektion von polarisierten MDCK-Zellschichten mit verschiedenen Yersinia-Stämmen und Messung des transepithelialen elektrischen Widerstandes/Resistenz (TER) konnte gezeigt werden, dass die Ysc-T3SS vermittelte Injektion von YopE138-IpgB1 (Rac1-Aktivierung) oder YopE138-Map (Cdc42-Aktivierung) zur Abnahme der TER und damit Schädigung der Zellschichtintegrität führt, wogegen bei YopE138-IpgB2-Injektion der TER-Wert unverändert blieb. Um bakterielle Rho GTPasen-modulierende Effektorproteine detailliert untersuchen zu können und um die Rolle von Rho GTPasen im Mausinfektionsmodell mit Yersinia enterocolitica und Salmonellen zu bestimmen, wurden Mäuse mit deletierten Genen für RhoA, Rac1 bzw. Cdc42 in Makrophagen hergestellt. / Phagocytosis, migration and regulation of epithelial integrity are central cellular aspects that are controlled by the cellular Rho GTPases. In this regard, Rac1, RhoA and Cdc42 have important regulatory roles mediating various cytoskeletal rearrangements in many cell types including epithelial cells as well as professional phagocytes. Because of the central role of the Rho GTPases in cellular integrity and function, bacterial cytotoxins and modulins targeting these cellular switches are very efficient pathogenicity factors. Recently, the T3SS effectors, IpgB1, IpgB2 of Shigella and Map of E. coli (pathotype EHEC/EPEC) were assembled in one protein family sharing the common motif W-xxx-E. Members of this protein family are described to act as GEF mimics for the cellular Rho GTPases. In this study the effector functions of IpgB1, IpgB2 and Map were analyzed with the Yersinia (Ysc)-T3SS which led to the development of the “Yersinia-Toolbox”. Yersinia enterocolitica is very suitable to be used as “T3SS-Toolbox” because (1) a plasmid solely carrying the DNA fragment encoding the Ysc-T3SS without T3SS-effectors is available, (2) in difference to Salmonella and E. coli (EPEC/EHECH) the Ysc-T3SS-effector genes of Yersinia are not localized on the chromosome and (3) heterologous proteins fused to the Ysc-T3SS-effector YopE are secreted and translocated into cells. This allows the analysis of single heterologous effectors without simultanous injection of other (unknown/redundant) T3SS-effectors in a physiological context during the interaction of Yersinia with cells. To develop the Yersinia-Toolbox, the genes of the GTPase modulating effectors IpgB1, IpgB2 of Shigella and Map of E. coli (EHEC) were fused to different long sections of the N-Terminus of the Yersinia-Ysc-T3SS-effector YopE (hybrid proteins: YopEi-X: i = 18, 53 or 138 amino acid residues, X = IpgB1, IpgB2 or Map). This study demonstrates the secretion to the culture supernatent and the injection into target cells of the hybrid proteins YopE53-X and YopE138-X (X = IpgB1, IpgB2 and Map). Furthermore, cell biologic activity was detected for the YopE-X hybrid proteins by fluorescence microscopy as membrane ruffles (Rac1 activation), stress fibres (RhoA activation) and micro spikes (Cdc42 activation) occurred after injection of YopE138-IpgB1,.YopE138-IpgB2 and YopE138-Map, in respective. Invasion studies showed that YopEi-IpgB1 (i = 53, 138) induced invasion of Yersinia, whereas YopEi-IpgB2 reduced invasion of the strains WA (pT3SS, pEi-IpgB2) (i = 53, 138) compared to the strain WA (pT3SS). Combination of different Yersinia-Toolbox strains in the co-infection model with HeLa cells showed that (1) YopE138-IpgB2 reduced the YopE138-IpgB1 induced invasion suggesting an antagonism between IpgB1 and IpgB2, (2) YopT also reduced the YopE138-IpgB1 induced invasion (inhibitory function on Rac1) and (3) that YopE as GAP for RhoG/Rac1 (predominantly RhoG) did not inhibit the YopE138-IpgB1 induced invasion. Because of the construction of two different compatible plasmids carrying the genes for either YopE138-IpgB1 or YopE138-IpgB2, simultanous translocation of the hybrid proteins of one single strain was possible. These studies confirmed the results of the co-infection studies. It has been reported that the Ysc translocation pore YopB/YopD induces Rho dependent membrane pores in cells which leads to cellular damage (LDH release, PI-staining of the nucleus). In this study cellular damage / cytotoxicity was detected after an infection of HeLa cells with the Yersinia-Toolbox strain WA (pT3SS). In contrast to that no cytotoxicity was detected after an infection of HeLa cells with the Yersinia-Toolbox strains WA (pT3SS, pE138-X) X = IpgB1, IpgB2 and Map. Additionally, co-infections with the strains WA (pT3SS) and WA (pT3SS, pE138-IpgB1) resulted in an increased LDH release whereas a co-infection with the strains WA (pT3SS) and WA (pT3SS, pE138-IpgB2) led to the decrease of LDH release compared to single infections with WA (pT3SS), again suggesting an antagonism between IpgB1 and IpgB2. These results are contrary to published data, which suggest a correlation between RhoA activation dependent actin polymerisation and pore formation. The cellular Rho GTPases are involved in the maintenance of epithelial integrity of polarized cells. Infections of polarized MDCK cell layers with different Yersinia-Toolbox strains resulted in a decrease of the transepithelial electric resistance (TER) indicating a damage of the epithelial integrity after injection of YopE138-IpgB1 or YopE138-Map. The TER value was not altered after injection of YopE138-IpgB2 indicating an intact epithelial integrity. To study bacterial Rho GTPase modulating proteins in more detail and to get a deeper insight to the role of Rho GTPases in the murine infection model with Yersinia enterocolitica and Salmonella, mice with gene deletions for RhoA, Rac1 or Cdc42 in macrophages were constructed.

Actin

Yersinia enterocolitica

Shigella flexneri

EHEC

CRE

Knockout <Molekulargenetik>

Guanosintriphosphatasen

ddc:570

Cofilin / Cofilin

Lee, Kyeong-Hee

January 1999

This study has identified cofilin, an actin binding protein, as a control element in the reorganization of the actin cytoskeleton which is highly relevant for T lymphocyte activation. Cofilin is regulated in its activity by reversible phosphorylation which is inducible by stimulation through accessory receptors such as CD2 and CD28. First it could be demonstrated that accessory receptor triggering induces the transient association of cofilin with the actin cytoskeleton and that only the dephosphorylated form of cofilin possesses the capacity to bind cytoskeletal actin in vivo. PI3-kinase inhibitors block both the dephosphorylation of cofilin and its association with the actin cytoskeleton. Importantly, cofilin, actin, PI3-kinase and one of its substrates, namely phosphatidylinositol 4,5-bisphosphate (PtdIns(4,5)P2) which can bind to cofilin, co-localize within CD2-receptor caps. The cofilin/F-actin interaction has been identified as a crucial regulatory element for receptor cap formation and the strength of signal transduction. To this end, appropriately designed cell permeable non-toxic peptides that are homologous to actin binding motifs of the human cofilin sequence were introduced into untransformed human peripheral blood T lymphocytes. These peptides competitively and dose dependently inhibit the activation induced interaction of cofilin with the actin cytoskeleton in vivo. By this approach it was possible to study, for the first time, the functional consequences of this interaction in immunocompetent T cells. The present data demonstrate that inhibition of the actin/cofilin interaction in human T lymphocytes by means of these cofilin derived peptides abolishes receptor cap formation and strongly modulates functional T cell responses such as T cell proliferation, interleukin-2 production, cell surface expression of CD69, gIFN production, and CD95L expression. Importantly, receptor independent activation by PMA and calcium ionophore circumvents these peptide produced inhibitory effects on lymphocyte stimulation and places the cofilin/actin interaction to a proximal step in the cascade of signaling events following T cell activation via surface signals. The present results are novel since as yet no information existed regarding the molecular elements which link cell surface receptor stimulation directly to the resulting reorganization of the actin cytoskeleton. / Die vorliegende Arbeit hat gezeigt, dass Cofilin, ein aktin-bindendes Protein, als Kontrollelement bei der Reorganisation des Aktinzytoskeletts fungiert und damit von besonderer Bedeutung für die Aktivierung von T-Lymphozyten ist. Cofilin wird in seiner Aktivität durch reversible Phosphorylierung reguliert, die induzierbar ist über eine Stimulation durch akzessorische Rezeptoren wie CD2 und CD28. Es konnte gezeigt werden, dass eine Stimulation über akzessorische Rezeptoren zu einer transienten Assoziation von Cofilin mit dem Aktinzytoskelett führt und dass nur die dephosphorylierte Form von Cofilin die Fähigkeit besitzt, in vivo an das Aktinzytoskelett zu binden. Inhibitoren der PI3-Kinase blockieren sowohl die Dephosphorylierung von Cofilin, als auch seine Assoziation mit dem Aktinzytoskelett. Hervorzuheben ist, dass Cofilin, zusammen mit Aktin, PI3-Kinase und einem ihrer Substrate, Phosphatidylinositol 4,5-Bisphosphat (PtdIns(4,5)P2), welches an Cofilin binden kann, mit CD2-Rezeptor-"Caps" kolokalisiert. Die Cofilin/F-Aktin-Interaktion konnte als wesentliches regulatorisches Element für die Rezeptor-"Cap"-bildung und die Stärke der Signalübertragung identifiziert werden. Hierzu wurden maßgeschneiderte zellpermeable Peptide, welche homolog zu aktin-bindenden Motiven der humanen Cofilin-Sequenz sind, in nicht-transformierte humane periphere T-Lymphozyten eingeschleust. Diese Peptide hemmen kompetitiv und dosisabhängig die durch Aktivierung induzierte Interaktion von Cofilin mit dem Aktinzytoskelett in vivo. Dieser Ansatz ermöglichte erstmals die Untersuchung funktioneller Konsequenzen dieser Interaktion in immunkompetenten T-Zellen. Die vorgelegten Ergebnissse zeigen, dass die Blockierung der Interaktion von Cofilin mit dem Aktinzytoskelett in humanen T-Zellen mittels von Cofilin abgeleiteter Peptide die Rezeptor-"Cap"-bildung verhindert, sowie zu einer deutlichen Modulation funktioneller T-Zell-Antworten, wie T-Zellproliferation, Interleukin-2-Produktion, Zelloberflächenexpression von CD69, gIFN-Produktion und Expression von CD95L führt. Hervorzuheben ist, dass rezeptor-unabhängige Aktivierung über PMA und Calciumionophor diese durch Peptide verursachten inhibitorischen Effekte umgeht und die Cofilin/Aktin-Interaktion somit als einen proximalen Schritt in der über Oberflächenmoleküle vermittelten Signalübertragungskaskade in T-Zellen identifiziert. Die vorgestellten Ergebnisse sind neu, da bisher keine Informationen bezüglich der molekularen Elemente existierten, welche eine Stimulation von Zelloberflächenrezeptoren direkt mit der Reorganisation des Aktinzytoskeletts verbinden.

T-Lymphozyt

Aktivierung <Physiologie>

Actin

Cofilin

Lymphozytentransformation

ddc:570

The actin cytoskeleton and the nuclear translocation of β-catenin in human oesophageal squamous carcinoma cell lines

Dahan, Yael-Leah

16 November 2006

Student Number : 9906751K - MSc dissertation - School of Molecular and Cell Biology - Faculty of Science / In addition to its crucial role in cell adhesion, β-catenin is also known to augment gene expression by forming a complex with lymphoid enhancer factor/T-cell factor in the nucleus. Unregulated β-catenin expression and/or its increased nuclear presence can lead to abnormal cell proliferation, tumour invasion and metastasis. Pertinent is the fact that the actin cytoskeleton is central to the translocation of several nuclear proteins. This study investigated whether the actin cytoskeleton influences the nuclear translocation of β-catenin in human oesophageal squamous cell carcinoma (HOSCC), a metastatic disease of common occurrence in South Africa. Disruption of the actin cytoskeleton of five moderately differentiated HOSCC cell lines, with cytochalasin D (cytoD), showed that the nuclear β-catenin level was unaltered in SNO, WHCO1 and WHCO5, but decreased in WHCO3 and WHCO6. CytoD treatment did not affect the cytoplasmic/membrane β-catenin level in these cell lines. Further examination of the possible association between the actin cytoskeleton and nuclear β-catenin translocation, required the design and stable transfection, of a vector containing full-length human β-catenin cDNA into one of the HOSCC lines. Stimulation of exogenous β-catenin expression in transfected WHCO1 cells did not increase cellular β-catenin level, nor did the stimulation of endogenous β-catenin expression with DMSO. In most cases (SNO, WHCO1 and WHCO5) the nuclear distribution of β-catenin in HOSCC is independent of a functional actin cytoskeleton, nonetheless there are some exceptions (WHCO3 and WHCO6). The observed variation within the HOSCC lines is possibly due to specific underlying event/s particular to the cell line. The stable level of β-catenin expression could be a consequence of regulatory pathways in WHCO1 compensating for the induced imbalance of β-catenin expression.

β-catenin

actin cytoskeleton

nuclear translocation

oesphageal squamous carcinoma

cell lines

Aspectos moleculares e destino de células tumorais humanas submetidas a alterações de ploidia. / Molecular aspects and fate of human tumor cells undergoing ploidy changes.

Oliveira, Maria Aparecida de

06 November 2017

A instabilidade cromossômica e a aneuploidia são características associadas às células malignas. Sabe-se que essas alterações podem ser resultantes de erros em eventos durante a mitose. Com o objetivo de gerar uma população com ganho de ploidia, utilizamos dois inibidores de fases distintas da mitose. Resultando no aumento da frequência celular em G2/M, ou seja, células com 4 vezes o número de cromossomos (4C) e de células com DNA acima de 4, hipertetraploide. Quantificamos a quantidade de núcleos e demonstramos que o tratamento, especificamente, levou a uma NCI, e não a multinucleação. Ambas linhagens celulares submetidas ao tratamento apresentaram alterações morfológicas, como protrusões de membrana, indicando alterações no citoesquelto. Nas análises de mRNA e da expressão proteica, observamos alterações na regulação da actina, coincidindo com a elevação dos mRNAs de YAP/TAZ, efetores co-transcricionais da via Hippo, regulada por alterações no citoesqueleto de actina. Desde modo, propomos, que o tratamento utilizado é um método eficiente para o estudo de células aneuploides e da NCI, que o citoesqueleto de actina é modulado por esse fenótipo e requer YAP/TAZ, provavelmente para manter a sobrevivência e favorecer a proliferação celular observada após o tratamento. / Chromosomal instability and aneuploidy are characteristics associated with malignant cells. It is known that these changes may be due to errors in events during mitosis. In order to generate a population with gain of ploidy, we used two inhibitors of distinct phases of mitosis. Resulting in increasing cell frequency in G2/M, cells with 4 times the number of chromosomes (4C) and cells with DNA above 4, hypertetraploid. We quantified the number of nuclei and demonstrated that the treatment specifically led to NCI, not multinucleation. Both cell lines submitted to treatment presented morphological alterations, such as membrane protrusions, indicating changes in the cytoskeleton. In the analysis of mRNA and protein expression, we observed alterations in actin regulation, coinciding with the elevation of YAP / TAZ mRNAs, co-transcriptional effectors of the Hippo signaling pathway, regulated by changes in the actin cytoskeleton. We propose, that the treatment used is an efficient method for the study of aneuploid cells as well NCI. Also, the actin cytoskeleton is modulated by that phenotype which requires high YAP / TAZ, probably to maintain cell survival and promote cell proliferation observed.

Actin cytoskeleton

Aneuploidia

Aneuploidy

Cancer

Câncer

Chromosomal instability

Citoesqueleto de actina

HIPPO

HIPPO

Instabilidade cromossômica

Mécanismes de formation et de fermeture des phagosomes dans les macrophages / Mechanisms of formation and closure of phagosomes in macrophages

Marie-Anaïs, Florence

27 September 2016

La phagocytose est un mécanisme cellulaire essentiel de l’organisme. Elle joue un rôle à la fois dans le maintien de l’homéostasie tissulaire mais également dans le système immunitaire. Ce processus, réalisé par des cellules phagocytaires, telles que les cellules dendritiques, les polymorphonucléaires neutrophiles ou les macrophages, permet l’ingestion et l’élimination quotidienne de particules de grandes tailles (>0,5 µm) : bactéries, champignons ou débris cellulaires. Il est induit par de nombreux récepteurs phagocytaires tels que les récepteurs aux fragments cristallisables des immunoglobulines (FcR) et les récepteurs au complément (CR3). Ceux-ci induisent des cascades de signalisation différentes mais aboutissant, toutes deux, à un remodelage du cytosquelette d’actine et de la membrane plasmique. Il y alors formation d’une coupe phagocytaire entourant et enfermant la particule à internaliser dans un compartiment clos appelé phagosome. Alors que de nombreuses études ont permis de disséquer l’organisation des coupes phagocytaires induites par les FcR, le mécanisme de fermeture des phagosomes n’était pas élucidé. Par ailleurs, les mécanismes moléculaires impliqués dans la formation des phagosomes suite à l’engagement des CR3 sont moins bien décrits. Au cours de ce travail, nous avons analysé le rôle de la dynamine 2, une GTPase impliquée dans les mécanismes de fission des vésicules d’endocytose, au cours de la formation et de la fermeture des phagosomes. Nous avons utilisé un système expérimental original utilisant la microscopie à ondes évanescentes pour montrer, que la dynamine 2 est recrutée avec l’actine dans les coupes phagocytaires en formation et qu’elle s’accumule au site de fermeture des phagosomes dans des macrophages vivants. L’inhibition de son activité GTPase induit une inhibition de l’efficacité de phagocytose et un défaut de la dynamique de l’actine lors de l’extension des coupes phagocytaires. De façon surprenante, la dépolymérisation de l’actine conduit à un défaut de recrutement de la dynamine 2 au site de la phagocytose mettant en évidence une régulation croisée entre la dynamine 2 et l’actine. Enfin cette étude a montré que la dynamine 2 joue un rôle critique dans la scission du phagosome. Dans un second temps, nous avons initié l’étude des mécanismes impliqués dans la régulation de l’activité du récepteur au complément CR3. L’activation de ce récepteur phagocytaire, qui fait partie de la famille des intégrines, requiert un ancrage à l’actine nécessaire à la signalisation vers la polymérisation d’actine et à la formation des coupes phagocytaires. L’ensemble de ces résultats contribue à une meilleure connaissance des mécanismes moléculaires fins impliqués dans la phagocytose. / Phagocytosis is an important cellular mechanism. It plays a role in both the maintenance of tissue homeostasis and in the immune system. This process, performed by phagocytic cells, including dendritic cells, polymorphonuclear neutrophils or macrophages, enables daily ingestion and elimination of large particles (> 0.5 microns) e.g. bacteria, fungi or cellular debris. It is induced by many phagocytic receptors such as the receptors for crystallizable fragments of immunoglobulins (FcR) and complement receptor (CR3). These receptors induce different signaling cascades but ultimately lead to a remodelling of the actin cytoskeleton and the plasma membrane. Next there is the formation of a phagocytic cup which surrounds and encloses the ingested particle in a closed compartment called the phagosome. While many studies have dissected the phagocytic cup organization induced by the FcR, the mechanism of phagosome closure was not understood. Furthermore, the molecular mechanisms involved in phagosome formation following CR3 engagement are less well described. In this work, we analyzed the role of dynamin 2, a GTPase involved in fission mechanisms of endocytosis vesicles, and in the formation and closure of phagosomes. We used an original experimental system using the total internal reflection fluorescence microscopy (TIRFM) to show that dynamin 2 is recruited with actin during phagocytic cup formation and accumulates at the site of phagosome closure in living macrophages. The inhibition of its GTPase activity induced an inhibition of phagocytosis and a defect in actin dynamics during pseudopod extension. Surprisingly, the depolymerization of actin lead to a defective recruitment of dynamin 2 at the phagocytic site showing there is a cross-regulation between dynamin 2 and actin. Finally, this study showed that dynamin 2 plays a critical role in the scission of the phagosome. Secondly, we initiated the study of the mechanisms involved in regulating the activity of the complement receptor CR3. Enabling this phagocytic receptor, part of the integrin family, requires anchoring actin which is necessary for signaling to the actin polymerization and the formation of phagocytic cups. All these results contribute to a better understanding of the molecular mechanisms involved in phagocytosis purposes.

Actine

Dynamine

Phagocytose

Pseudopodes

Fermeture des phagosomes

Macrophages

Actin

Dynamin

Phagocytosis

Pseudopods

Phagosomes closure

Macrophage

571.96

Stereocilia Morphogenesis and Maintenance is dependent on the Dynamics of Actin Cytoskeletal Proteins

Pallabi Roy (6481925)

10 June 2019

<p>Age-related hearing loss is an acute health problem affecting people worldwide, often arising due to defects in the proper functioning of sensory hair cells in the inner ear. The apical surface of sensory hair cells contains actin-based protrusions known as stereocilia, which detect sound and head movements. Since hair cells are not regenerated in mammals, it is important to maintain the functioning of stereocilia for the life of an organism to maintain hearing ability. The actin filaments within a stereocilium are extensively crosslinked by various actin crosslinking proteins, which are important for stereocilia development and maintenance. Multiple studies have shown that the stereocilia actin core is exceptionally stable whereas actin is dynamic only at the tips of stereocilia. However, whether the actin crosslinking proteins, which are nearly as abundant as actin itself, are similarly stable or can freely move in and out of the core remains unknown. Loss or mutation of crosslinkers like plastin-1, fascin-2, and XIRP2 causes progressive hearing loss along with stereocilia degeneration while loss of espin prevents stereocilia from even developing properly. Do these phenotypes stem from an unstable stereocilia core? Does crosslinking confer stability to the core? To address these questions, we generated novel transgenic reporter lines to monitor the dynamics of actin in mice carrying fascin-2R109H mutation and espin null mice and also to study the dynamics of actin crosslinkers, in vivo and ex-vivo. We established that actin crosslinkers readily exchange within the highly stable F-actin structure of the stereocilia core. In addition, we determined that stereocilia degeneration in mice carrying fascin-2R109H mutation and espin null mice could possibly occur due to a less stable actin core. These studies suggest that dynamic crosslinks stabilize the core to maintain proper stereocilia functioning. Future work warrants understanding the reason behind the importance of dynamic crosslinks within a stable stereocilia core. Actin stability not only depends on actin crosslinkers, but also on actin filament composition as evident from distinct stereocilia degeneration and progressive hearing loss patterns in hair-cell specific knockout of actin isoforms. Although beta- and gamma- actin polypeptide sequences differ by only 14 four amino acids, whether the latter determine the unique function of each cytoplasmic actin isoform was previously unknown. Here we determined that these four critical amino acids determine the unique functional importance of beta-actin isoform in sensory hair cells. Taken together, our study demonstrates that actin cytoskeletal proteins are important for the morphogenesis and</p> <p>maintenance of stereocilia.</p>

Cell Biology

Age-related hearing loss

Actin

Auditory hair cell

Stereocilia