Clonagem e expressão da glucocerebrosidase humana em células de ovário de hamster chinês (CHO). / Cloning and expression of human glucocerebrosidase in Chinese hamster ovary (CHO) cells.

Juliana Branco Novo

24 June 2010

Deficiência na enzima lisossomal glucocerebrosidase (GCR) resulta na doença de Gaucher. O tratamento atual consiste na administração da enzima exógena, produzida em células CHO. Porém, o medicamento disponível no mercado é extremamente custoso. Neste trabalho, propusemos a clonagem e a expressão da GCR humana em células CHO, visando a obtenção de um clone celular produtor para viabilizar a produção futura da enzima, a um custo menor, no Instituto Butantan. A expressão estável da GCR recombinante foi obtida a partir da transfecção de células CHO-dhfr- com o plasmídeo pED de expressão em células de mamíferos contendo o cDNA da GCR, seguido de amplificação gênica por MTX. A GCR foi detectada no extrato celular (~ 64 kDa) e secretada para o sobrenadante (63-69 kDa) em ensaios de western blotting, usando o anticorpo policlonal anti-GCR gerado neste trabalho. A enzima secretada hidrolisou o substrato 4-MUG e a sua produtividade foi estimada em 5,14 pg/célula/dia para o melhor subclone produtor, selecionado para a produção futura da GCR em larga escala. / Deficiency of the lysosomal glucocerebrosidase (GCR) enzyme results in Gaucher\'s disease. Current treatment consists on enzyme replacement therapy by the administration of recombinant GCR produced in CHO cells. However, the medicine available in the market is extremely expensive. In this work, we proposed the cloning and expression of human GCR in CHO cells, in order to obtain a productive cellular clone for future production of GCR enzyme at a lower cost at the Butantan Institute. The stable expression of recombinant GCR was obtained after transfection of CHO-dhfr- cells with pED mammalian expression vector containing the GCR cDNA, followed by gene amplification with MTX. The GCR was detected by western blotting analysis, either as cell-associated (~ 64 kDa) or as secreted forms (63-69 kDa), using the anti-GCR polyclonal antibody produced in this work. The secreted enzyme was active on 4-MUG and was produced at a level of about 5,14 pg/cell/day for the best producer subclone, selected for subsequent steps of GCR production on large scale in next future.

Amplificação de genes

Células CHO

DHFR

Doença de Gaucher

Expressão dicistrônica

Expressão gênica

Glicopeptídeos

Glicoproteínas

Glucocerebrosidase

Lisossomos

Ovário

Proteínas recombinantes

CHO cells

DHFR

Dicistronic expression

Gaucher\'s disease

Gene expression

Genes amplification

Glucocerebrosidase

Glycopeptides

Glycoproteins

Lysosomes

Ovary

Recombinant proteins

Development of a culture system for modeling of pH effects in CHO cells / Utveckling av ett odlingssystem för modellering av pH-effekter i CHO-celler

Hagrot, Erika

January 2011

pH is a key parameter in the optimization of animal cell processes, and has be linked to specific patterns of consumption and production of extracellular metabolites. However, the effect of extracellular pH on intracellular metabolism has not been fully elucidated. Metabolic flux analysis is a mathematical method that can be used to generate the intracellular flux distributions in cells, e.g. as a function of some environmental parameter. In this work, the overall objective was to develop a culture system and experimental protocol for cultivation of CHO cells, which can be used to generate data for analysis of the relationship between extracellular pH and intracellular fluxes in CHO cells by metabolic flux analysis. First, shake-flask culture of an IgG-producing cell line was performed to select an academic and chemically-defined medium with known composition. This was followed by subsequent adaptation of the cells. It was found that the originally selected medium had to be supplemented with a commercial medium to produce acceptable growth and viability. Shake-flask culture was also performed to evaluate the effect of the biological buffer HEPES on cell growth and viability, and the pH-stability during culture. HEPES-concentrations in the investigated range (7.5-45 mM) did not show an apparent effect on cell growth or viability. The higher concentrations gave slightly better buffering capacity at inoculation, however were not sufficient to keep pH stable during culture. As a result, the idea of using shake flask culture and similar techniques for cultivation of cells at various pH set-points was dismissed. Instead, a culture system and protocol based on a 100 mL Spinner flask with pH-regulation was custom-designed for the project. Features of the final design included continuous monitoring of pH and DO, stable temperature at 37 °C, adjustable agitation rate, as well as the option to incorporate inflow of air, O2 and CO2. In addition, the possibility to disconnect the flask unit to perform medium exchange and sample collection away from the reactor site (i.e. in a laminar flow workbench) was integrated into the design and protocol. The system was demonstrated for pseudo-perfusion culture with the adapted IgG-producing cell line at pH 7.0 during 24 days. Optimized regulation settings were identified. It was shown that the system could support viable cell densities of up to 11 MVC/mL and high viability (> 90 %). During the final phase of culture, stable growth, at specific growth rates of approximately 0.7 Day-1, was achieved. The specific rates of consumption and production of the key metabolites glucose, glutamine, lactate and NH4+, as well as 20 amino acids were analyzed. A majority of the rates were in accordance with CHO cell metabolism. The expected consumption of a majority of the essential amino acids and main carbon sources glucose and glutamine were confirmed, as well as the associated production of by-products lactate and NH4+. The system and protocol developed in this work can be used in future experiments to generate data describing metabolic profiles as a function of various pH-set points. This data may then be used in metabolic flux analysis to further elucidate the metabolism behind pH effects in CHO cells. / pH är en viktig parameter i optimeringen av animalcellsprocesser och har sammankopplats med specifika konsumtions- och produktionsmönster rörande extracellulära metaboliter. Det extracellulära pH-värdets effekt på den intracellulära metabolismen är dock inte fullt klarlagd. Metabolisk flux analys är en matematisk metod som kan användas för att generera intracellulära fluxfördelningar i celler, exempelvis som en funktion av någon yttre parameter. Det övergripande målet i detta arbete var att utveckla ett odlingssystem och experimentellt protokoll för odling av CHO-celler som kan användas för att generera data för metabolisk flux analys där målet är att studera effekten av pH på den intracellulära cellmetabolismen. En IgG-producerande CHO-cellslinje odlades först i skakkolv för att välja ut ett akademiskt kemiskt definierat medium med känd sammansättning. Därefter följde försök att anpassa cellerna till det valda mediet. Det visade sig att ett kommersiellt medium behövde tillsättas för att ge godtagbar tillväxt och viabilitet. Effekten av den biologiska bufferten HEPES på cellernas tillväxt och viabilitet, samt pH-stabiliteten under odling, undersöktes också genom odling i skakkolv. HEPES-koncentrationer i det undersökta intervallet (7.5 – 45 mM) hade ingen större effekt på tillväxt och viabilitet. För de högre koncentrationerna var buffertkapaciteten något bättre precis vid inokulering. Dessa koncentrationer var dock ej tillräckliga för att ge stabilt pH under odlingen. Baserat på dessa resultat övergavs tanken på att använda skakkolvsodling för att odla celler vid olika pH-värden. Ett odlingssystem och ett protokoll baserat på en 100 mL Spinnerflaska med pH-reglering specialdesignades istället för projektet. I det färdiga systemet fanns lösningar för kontinuerlig övervakning av pH och DO, stabil temperatur vid 37 °C, justerbar omrörningshastighet, samt valmöjligheten att flöda in luft, O2 och CO2. Dessutom infördes möjligheten att koppla loss flaskenheten från reglersystemet för byte av medium och provtagning. För att demonstrera systemet genomfördes en odling med den anpassade IgG-producerande cellinjen enligt principen för pseudo-perfusion vid pH 7.0. Odlingen pågick under 24 dagar och optimerade reglerinställningar identifierades. Det visades att systemet kunde understödja cellkoncentrationer upp till 11 miljoner celler per milliliter, samt hög viabilitet (> 90 %). Under den senare delen av odlingen uppnåddes stabil tillväxt, vid specifika tillväxthastigheter omkring 0.7 per dygn. Den specifika konsumtions- och produktionshastigheten för metaboliterna glukos, glutamin, laktat och NH4+, samt 20 aminosyror analyserades. Majoriteten av hastigheterna stämde överens med typisk CHO-cellsmetabolism. Den förväntade konsumtionen av majoriteten av de essentiella aminosyrorna och huvudsakliga kolkällorna glukos och glutamin konfirmerades, såväl som den associerade produktionen av bi-produkterna laktat och NH4+. Odlingssystemet och det experimentella protokollet som utvecklades i detta arbete kan användas i framtida experiment för att generera data som beskriver metaboliska profiler som funktion av extracellulärt pH. Dessa data kan sedan användas i metabolisk flux analys för att dra slutsatser om pH-effekter i CHO-celler.

CHO cell

pH effects

pseudo-perfusion

mammalian cell culture

Spinner flask

pH-regulation

bioreactor

metabolic modeling

metabolic flux analysis

CHO-cell

pH-effekter

pseudo-perfusion

mammaliecellodling

Spinnerflaska

pH-reglering

bioreaktor

metabolisk modellering

metabolisk flux analys

Industrial Biotechnology

Industriell bioteknik

Programmed cell death and induction of caspase-like protease activity in roots of <i>Glycine max</i> (soybean) in response to flooding stress

Sreekanta, Suma

11 August 2008

No description available.

Botany

programmed cell death

PCD

caspases

caspase 1-like

caspase 3-like

vascular cavity

aerenchyma

Ac-DEVD-AMC

Ac-YVAD-AMC

Ac-DEVD-CHO

Ac-YVAD-CHO

Glycine max

soybean

Production and glycosylation of a recombinant protein from Chinese hamster ovary (CHO) cells

De Villiers, Ann-Marie

12 1900

Thesis (MScEng)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Recombinant glycoproteins are important biopharmaceuticals, providing solutions for numerous previously untreatable illnesses, in everything from cancer to infertility. Most recombinant biopharmaceuticals are produced in mammalian cells due to their ability to provide the correct post-translational processing for use in humans. The post-translation processing influences many of the protein’s properties including pharmacokinetics, bioactivity, secretion, half-life, solubility, recognition and antigenicity. The aim of this thesis is to further study the upstream production of a glycosylated recombinant protein produced by Chinese hamster ovary (CHO) cells on production scale within the confines of an existing process. The process in question uses adherent CHO cells to produce a glycosylated recombinant hormone. As with most recombinant protein production processes, this process has two sections to the upstream production: a seed train to grow enough cells to inoculate production, and a production section, which focuses on the production of a recombinant protein. The seed train is predominantly conducted in roller bottles, while the production section takes place in perfusion bioreactors, where the cells are attached to microcarriers, with spin-filters for cell retention. The whole process uses medium with serum. There are two process challenges regarding an existing recombinant-protein production process: 1. The gradual increase, over the past several campaigns, of the final population doubling level of the cells (which must remain within certain specified limits) at the end of the seed train. 2. The low glycosylation levels of the product seen in certain campaigns, which meant that a certain number of final product batches were below the specified acceptable glycosylation limits. Following a literature survey several controlled process variables were chosen for investigation and hypotheses made on their effect on the seed train or glycosylation. To investigate their effect on the PDL and cell growth in the seed train: - Medium volume: decreasing the medium volume will yield a lower PDL due to slower cell growth caused by lower glucose availability. - Seeding density: if cells obtain confluence by the time they are harvested, decreasing the seeding density will yield a higher PDL. - Cultivation temperature: decreasing the temperature ought to decrease the growth rate. - Medium feed temperature: there will be no significant difference to the cell culture when pre-heated or cold medium is used. Aeration: using vent caps will increase the oxygen content of the medium in the roller bottles and the cell growth, yielding a higher PDL. To investigate their effect on glycosylation during production: - pH: better glycosylation will be seen at pH 6.9, than at pH 6.7. - Perfusion rate: a higher perfusion rate will lead to better glycosylation due to increased glucose and glutamine concentrations. In the seed train, the only factor that significantly influenced the final PDL was the seeding density. Cell growth was inhibited once cells reached confluence, so lowering the seeding density lead to a higher PDL. It is recommended to use a high seeding density to ensure a lower PDL. Historic data indicated that the seeding density was not the cause of the apparent increase of the final PDL, as all previous campaigns had been seeded with a high seeding density. What then became apparent was that the final PDL remained relatively constant during a campaign and that the increase in final PDL occurred between campaigns. It appears that the apparent increase in the final PDL is due to differences in cell counting between operators as each new campaign was managed by different operators. It is recommended that a mechanical cell counter be used to verify cells counts and to maintain a standard between campaigns. In the bioreactors, varying the pH proved to have no significant effect on the glycosylation levels. However, both the initial perfusion rate and the specific perfusion rate proved to be important from both historical data and the data generated during these experiments. Lower levels of the initial perfusion rate lead to better glycosylation and it is recommended that an initial perfusion rate of 1.0 volumes/day be used. The relationship between the specific perfusion rate and the glycosylation appears to be non-linear and requires further study, for now it is recommended that the specific perfusion rate be kept below 0.3 volumes/day/109 cells. Probable reasons for the unsatisfactory glycosylation seen in certain runs could also be proposed from these two factors: • RP33-133 : Very high specific perfusion rate • RP32-135 : High initial perfusion rate and very high specific perfusion rate • RP32-138 : High initial perfusion rate • RP33-139 : High initial perfusion rate Further research is recommended into the effect of the specific perfusion rate as well as the specific glucose consumption rate and the specific glutamine concentration on the glycosylation. / AFRIKAANSE OPSOMMING: Rekombinante glikoproteïene is baie belangrike biofarmaseutiese produkte wat oplossings bied vir talle voorheen ongeneeslike siektes in alles van kanker tot onvrugbaarheid. Meeste rekombinante farmaseutiese produkte word gemaak deur diere-selle as gevolg van hulle bevoegtheid om die korrekte na-translasie stappe te volg sodat die produkte in mense gebruik kan word. Die na-translasie stappe beïnvloed baie van die proteïene se karaktertreke insluitende die farmakokinetika, bioaktiwiteit, uitskeiding, half-leeftyd, oplosbaarheid, herkenbaarheid and antigeniciteit. Die doel van hierdie tesis is om die stroomop produksie van ‘n rekombinante glikoproteïene vervaardig deur Chinese hamster ovariale (CHO) selle verder te bestudeer binne die grense van ‘n bestaande proses op grootskaalse vlak. Die huidige proses gebruik CHO selle om ‘n rekombinante glikohormoon te produseer. Soos meeste prosesse wat rekombinante proteïene produseer bestaan die stroomop gedeelte van die proses uit twee dele: ‘n saad trein wat genoeg selle maak vir produksie en ‘n produksie gedeelte wat fokus op die vervaardiging van die glikoproteïen. Die saad trein bestaan hoofsaaklik uit roller bottels terwyl produksie plaasvind in perfusie bioreaktors waar die selle op “microcarriers” groei, met spin-filters om die selle binne die bioreaktors te hou; die hele proses gebruik medium met serum. Daar is twee probleme in die stroomop gedeelte van die bestaande proses: 1. Die geleidelike toename oor die afgelope paar jaar van die finale verdubbelingsvlak van die selle aan die einde van die saad trein 2. Die lae glukosilering van die eindproduk wat veroorsaak dat sekere lotnommers buite spesifikasie is Na ‘n literatuur studie, was seker beheerde proses parameters gekies om verder te bestudeer en hipotesisse gemaak oor hulle effek op die saad trein of die vlak van glukosilering. Die volgende faktore is bestudeer vir hulle effek op die finale verdubbelingsvlak van die selle in die saad trein: - Medium volume: ‘n laer medium volume sal lei tot a laer verdubbelingsvlak van die selle as gevolg van stadige groei - Konsentrasie van selle vir inokulasie: as die selle konfluent is teen die tyd wat hulle versamel word sal ‘n laer konsentrasie selle lei tot ’n hoër verdubellingsvlak. - Temperatuur: laer temperatuur behoort te lei tot ‘n stadiger groei koers van die selle - Medium voer-temperatuur: die voer-temperatuur van die medium sal geen beduidende verskil maak - Belugting: die gebruik van “vent-caps” sal die suurstof inhoud van die roller bottels verhoog Die volgende faktore is bestudeer vir hulle effek op die glukosilering tydens produksie: - pH: beter glukosilering word verwag by by pH 6.9 dan by pH 6.7 - Perfusie koers: ‘n hoër perfusie koers sal lei tot beter glukosilering as gevolg van hoër glukose en glutamien konsentrasies Die konsentrasie van die selle wat gebruik word vir inokulasie blyk die enigste faktor te wees wat die finale verdubbelingsvlak van die selle en die groei van die selle in die saad trein beïnvloed het. Die groei van die selle was beprek wanneer die selle konfluent geraak het en dus het ‘n laër sel konsentrasie by inokulasie gelei tot ‘n hoër sel verdubbelingsvlak. Dit word aanbeveel dat ‘n hoë sel konsentrasie by inokulasie gebruik word. Die geleidelike toename van die finale verdubbelingsvlak van die selle in die saad trein is waarskynlik as gevolg van die variasie in sel tellings tussen verskillende operateurs eerder as as gevolg van die beheerde proses parameters. Dit word aanbeveel dat ‘n meganiese sel-teller gebruik word om die verskil in sel tellings tussen operateurs te kontroleer en om ‘n standaard te handhaaf tussen produksie lotte. In die bioreaktors, het die pH geen beduidende invloed gehad op die glukosilering maar uit historiese data en die huidige data van hierdie eksperimente blyk albei die begin perfusie koers en die spesifieke perfusie koers ‘n belangrike invloed te hê op die glukosilering. Laër vlakke van die begin perfusie koers lei tot beter glikosilsie en dit word aanbeveel dat elke produksielot ‘n begin perfusie koers het van 1.0 volume/dag. Die verhouding tussen die glukosilering en die spesifieke perfusie koers blyk om nie-liniêr te wees nie. Nog navorsing hieroor word aanbeveel, maar vir nou word dit aanbeveel dat die spesifieke perfusie koers onder 0.3 volumes/dag/109 selle gehou word. Hierde twee faktore blyk die oorsaak te wees vir die lae glukosilering wat in sekere produksielopies gevind was: • RP33-133 : baie hoë spesifieke perfusie koers • RP32-135 : hoë begin perfusie koers en baie hoe spesifieke perfusie koers • RP32-138 : hoë begin perfusie koers • RP33-139 : hoë begin perfusie koers Dit word aanbeveel dat verdere navorsing gedoen word op die effek van die spesifieke perfusie koers asook die spesifieke koers van glukose verbruik en die spesifieke glutamien konsentrasie op die glukosilering van die produk.

Chinese hamster ovary (CHO) cells

Dissertations -- Process engineering

Theses -- Process engineering

Recombinant glycoproteins

Biopharmaceuticals

Movilización intracelular de colesterol mediada por apoA-I y dHDL: dominios proteicos involucrados

Cabaleiro, Laura Virginia

20 August 2013

La apoA-I cumple un rol muy importante en el transporte reverso del colesterol (TRC), es el componente mayoritario de las lipoproteínas de alta densidad (HDL) que desempeñan diversas funciones en las distintas etapas del TRC. Resultados previos de este laboratorio permiten postular la hipótesis de que la región central de la apoA-I, formada por el par de hélices tipo Y, estaría involucrada en la interacción con la membrana celular, que sería importante para el eflujo de lípidos y la movilización de depósitos intracelulares de colesterol (como el disponible a ser esterificado por ACAT) hacia la membrana plasmática. Como la conformación del dominio central es influenciada por el tamaño y composición lipídica (contenido de colesterol) de las HDL, también se postula que esto podría modular la capacidad de interacción con la membrana celular y el consecuente eflujo lipídico. El objetivo general de este trabajo fue someter a prueba esta hipótesis y aportar información relevante para entender los mecanismos implicados en las etapas iniciales del TRC, como en la interacción de las HDL con membranas celulares y el eflujo celular de lípidos. Como objetivos específicos, nos propusimos: 1) Reconstituir partículas discoidales HDL similares a las pre-β-HDL del plasma, de diferente composición y tamaño, mediante la técnica de diálisis con el detergente colato. Estas fueron comparadas en cuanto a su capacidad de unirse a la membrana celular, y de promover el eflujo de colesterol y fosfolípidos de dos líneas celulares diferentes: CHO-K1 (células de ovario de hámster chino) y RAW 264.7 (macrófagos murinos). 2) Estudiar en comparación con apoA-I salvaje, la funcionalidad y las respuestas celulares a dos mutantes de deleción de un residuo de lisina en las regiones de hélices tipo Y: una con la deleción en la región central de la hélice 4 (ΔK107) y la segunda con la deleción en la posición homóloga de la hélice 10 (ΔK226). La primera de estas mutantes es una variante natural cuyos portadores presentan un metabolismo alterado de las HDL e incrementado riesgo aterogénico, por lo que los resultados de estos estudios también podrían ayudar a la comprensión de los síntomas presentados por estos pacientes. Es de esperar que estas mutaciones desplacen en ~100º la orientación relativa entre las caras hidrofílica e hidrofóbica de la hélice anfipática a ambos lados de la mutación, lo que puede afectar tanto la interacción con lípidos como con los receptores celulares.

HDL

apoA-I

transporte reverso de colesterol

aterosclerosis

RAW 264.7

CHO-K1

colesterol

Ciencias Exactas

Biología

Lípidos

Colesterol

Colesterol HDL

Dielectrophoresis study of electroporation effects on dielectric properties of biological cells

Salimi, Elham

01 1900

Electroporation affects the dielectric properties of cells. Dielectric measurement techniques can provide a label-free and non-invasive modality to study this phenomenon. In this thesis we introduce a dielectrophoresis (DEP) based technique to study changes in the cytoplasm conductivity of single Chinese hamster ovary (CHO) cells immediately after electroporation. Using a microfluidic chip, we study changes in the DEP response of single CHO cells a few seconds after electroporation. First, in order to quantify our DEP measurement results and relate them to the cells internal conductivity, we introduce a dielectric model for CHO cells. This is achieved by measuring the DEP response of many individual cells in the β-dispersion frequency region and curve fitting to the measured data. Second, we present quantitative results for changes in the cytoplasm conductivity of single cells subjected to pulsed electric fields with various intensities. We observe that when electroporation is performed in media with lower ionic concentration than cells cytoplasm, their internal conductivity decreases after electroporation depending on the intensity of applied pulses. We also observe that with reversible electroporation there is a limit on the decrease in the cells’ internal conductivity. We hypothesize the reason is the presence of large and relatively immobile negative ions inside the cell which attract mobile positive ions (mainly sodium and potassium) to maintain cell electrical neutrality. We monitor the temporal response of cells after electroporation to measure the time constant of changes due to ion transport and observe this ranges from seconds to tens of seconds depending on the applied pulse intensity. This result can be used to infer information about the density and resealing time of very small pores (not measurable with conventional marker molecules). Lastly, we measure the electroporation of cells in media with different conductivities. Our results show that electroporation in very low conductivity media requires stronger pulses to achieve a similar poration extent as in high conductivity media. The outcome of this thesis can be used to improve our understanding of the dynamics of electroporation as well as its modelling in order to make more accurate predictions or optimize the process for specific applications. / February 2017

Dielectrophoresis

Electroporation

Chinese hamster ovary cells

CHO

Dielectric properties

Microwave interferometer

Pulsed electric field

Cytoplasm conductivity

Single cell

Fluoreszenz-mikroskopische Untersuchung der Inaktivierung der Tyrosinkinase SRC im Integrin alphaIIb-beta3 -Signalweg / Studies on the inactivation process of the tyrosine kinase Src in the integrin alphaIIb-beta3 signaling pathway by fluorescence microscopy

Vielreicher, Martin Christian

January 2008

Essentiell für die Blutstillung (Haemostase) ist die Thrombozyten- oder Blutplaettchen-Adhaesion und die Thrombus-Bildung. Beide Vorgaenge werden hauptsaechlich durch den Thrombozyten-Rezeptor Integrin alphaIIb-beta3 vermittelt. Nach Bindung des Liganden Fibrinogen aendert sich die Rezeptor-Konformation, Integrine assoziieren und ein intrazellulaeres Signalnetzwerk wird aktiviert, welches die Organisation des Aktin-Zytoskeletts steuert. Diese Zytoskelett-Reorganisationen sind Grundlage für zellulaere Adhaesions- und Aggregations-Prozesse. Die Signalvermittlung vom Integrin zum Zytoskelett wird durch die Protein-Tyrosinkinase Src eingeleitet, deren Aktivitaetszustand den Signalweg reguliert. Bei der Src-Aktivierung wird Tyrosin 418 durch Autokatalyse phosphoryliert. Die Kinase muss jedoch wieder inaktiviert werden. Dies übernimmt in Plaettchen ausschliesslich die Tyrosinkinase Csk (C-terminale Src Kinase) durch Phosphorylierung von Tyrosin 529 im C-terminalen Ende des Proteins. Die Csk-vermittelte Inaktivierung von Src stellt den entscheidenden Kontrollschritt des alphaIIb-beta3-vermittelten Signalwegs dar. Obwohl bekannt ist, dass die Src-Aktivierung bei der Zelladhaesion an den Zellraendern der Lamellipodien geschieht und man den Mechanismus und die Kinetik der Src-Csk Interaktion genauer versteht, ist bislang immer noch unbekannt, wo und wie Src inaktiviert wird bzw. welche Rolle der Src-Inaktivierung genau zukommt. FRET (Fluoreszenz-Resonanz-Energie-Transfer) ist ein physikalischer Effekt, mit dem Interaktionen beliebiger fluoreszenzmarkierter Proteine mikroskopisch detektiert werden koennen. Diese Technik wurde genutzt, um die Src-Csk-Interaktion waehrend der alphaIIb-beta3-vermittelten Fibrinogen-Adhaesion in einer etablierten Thrombozyten-Modellzelllinie (A5-CHO) direkt visualisierbar zu machen. Es zeigten sich starke Src-Csk Interaktionen (FRET-Signale) an den Zellraendern aktiver Lamellipodien und zusaetzlich in Fokalkontakten, wo beide Proteine mit Vinculin, einem Fokalkontakte-Marker, co-lokalisierten. Die Proteininteraktionen folgten einem hochdynamischen Ablauf. Nach der Akkumulation der Src-Csk Komplexe an den Zellraendern wanderten sie in Abstaenden von 2-3 Minuten nach innen, fragmentierten und bildeten schliesslich stabile Fokal-Adhaesionen. FRET-Signale an den Zellraendern fanden sich vor allem in ruhenden Lamellipodien bzw., waehrend des Lamellipodien-Rückzugs, in wachsenden Lamellipodien traten die FRET-Signale dort dagegen nicht auf. In unabhaengigen biochemischen Tests im Zeitfenster der FRET-Beobachtungen wurde ein spezifischer Anstieg der Src-Tyr529-Phosphorylierung (Inaktivierung) und eine parallele Abnahme der Src-Tyr418-Phosphorylierung (Aktivierung) gemessen. Weiterführende Ergebnisse lieferten Versuche mit Src- und Csk-Mutanten. Die Co-Expression von Wildtyp-Src mit Kinase-inaktivem CskK222R hatte weder einen Effekt auf die Adhaesion und Ausbreitung der Zellen noch auf die Praesenz von FRET, es aenderte sich jedoch drastisch die zellulaere Verteilung der FRET-Signale sowie das Wachstum und die Form der Lamellipodien. Die Co-Expression von Wildtyp-Csk mit konstitutiv aktivem SrcY529F verursachte dagegen eine stark verringerte Adhaesionsfaehigkeit und Hemmung der Lamellipodien-Bildung. Die Fokal-Adhaesionspunkte in diesen Zellen waren sehr schwach und ueberdimensioniert und lagen ungeordnet verteilt in der Adhaesionsebene. Zusaetzlich verursachte SrcY529F eine starke Ueberaktivierung des Zytoskeletts und das fast vollstaendige Verschwinden der FRET-Signale. Die ermittelten Daten zeigen, dass die enge Kontrolle der Src-Aktivitaet durch Csk eine bedeutende Rolle für die funktionelle Zell-Adhaesion and -Ausbreitung spielt. Co-Immunpraezipitations-Resultate und Messungen der Menge an markiertem Protein in Zellen, in welchen FRET detektierbar war, untermauern zusaetzlich unsere These, zum ersten Mal die Src-Regulation durch Csk in lebenden Zellen direkt beobachtbar gemacht zu haben. Dieser neue FRET-Ansatz kann auch als Reporter-System für Prozesse der Src-Inaktivierung in anderen Signalwegen und Zellen angewendet werden. Das Messprinzip kann weiterhin auf das Studium der Inaktivierung weiterer Mitglieder der Familie der Src-Kinasen (in verschiedensten Signalwegen) erweitert werden. / Platelet adhesion and thrombus formation required for functional hemostasis depends on integrin receptor mediated “outside-in” signaling to the cytoskeleton. Integrin alphaIIb-beta3 is the major integrin on the platelet surface and acts as a specific receptor for the plasma protein fibrinogen. Fibrinogen binding causes clustering of integrins within the plasma membrane activating the protein tyrosine kinase Src (signal initiation) by phosphorylation of tyrosine 418. Src, however, is negatively regulated by another tyrosine kinase, Csk (C-terminal Src kinase), which phosphorylates tyrosine 529. Although, in adhering cells, it is believed that Src is getting activated at lamellipodia leading edges, neither the cellular location nor the dynamics and exact role of Src inactivation is known to date. Here, we studied Src inactivation during alphaIIb-beta3-dependent adhesion to fibrinogen in the established platelet model cell line A5-CHO. Using a live cell FRET (fluorescence resonance energy transfer) microscopy technique with CFP and YFP label molecules (cyan and yellow fluorescent protein), we were able to image highly dynamic Src-Csk interactions at the leading edges of active lamellipodia. Every 2-3 minutes, signals detecting Src-Csk interactions (complexes) appeared at the cell periphery before they begin to move inward in the cell and reorganize while lamellipodia start to protrude (grow). FRET signals were also found in small accumulations at the fringe and also further to the centre of the adhesion plane (focal complexes and adhesions). Src and Csk co-localize with vinculin (a focal adhesion marker) within these regions. During the runtime of FRET observation a specific increase in Src-Tyr529 phosphorylation with a parallel decrease in Src-Tyr418 phosphorylation was observed supporting the idea that Src inactivation occurs within the cells. The role of Src-Csk interaction was studied in further detail using Src and Csk mutants. The data revealed that co-expression of inactive CskK222R did not alter the presence of FRET signals, but fundamentally changed its distribution within the cell. Furthermore it caused lamellipodia shape changes and a tendency of constant lamellipodia protrusion. Co-expression of constitutively active SrcY529F in turn caused a severe adhesion and spreading dysfunction. Adherent cells showed very weak, disorganized and oversized focal adhesions, a hyper-activated cytoskeleton (visible in fast-changing membrane blebs) and absence of FRET signals. Results from immunoprecipitation analyses and protein level determination within cells, in which FRET was detectable, further supported that we were able, for the first time, to directly visualize Src (and integrin) regulation by Csk control in live cells. The results show that Src control by Csk is ultimately required for lamellipodia and focal adhesion function and thus for cell anchorage and spreading. The novel FRET-approach reported here can be readily applied to other integrin and signaling pathways including the study of closely related Src family kinases (SFKs). Results may also contribute to a better understanding of the processes of tumor formation.

Antigen CD41

Src-Proteine

C-terminal-Src-Kinase

Fluoreszenz-Resonanz-Energie-Transfer

Thrombozyt

CHO-Zelle

Lamellipodium

Zellskelett

ddc:570

A constru??o de uma mem?ria ga?cha em Santa Catarina

Silva, Edin?ia Pereira da

27 August 2010

Made available in DSpace on 2015-04-14T13:47:13Z (GMT). No. of bitstreams: 1 426203.pdf: 5343272 bytes, checksum: 777dcd5eea3a2ff18006bbd76f4e8aa9 (MD5) Previous issue date: 2010-08-27 / Esta disserta??o tem como objetivo analisar a constru??o de uma mem?ria ga?cha em Santa Catarina, a partir da funda??o de Centros de Tradi??es Ga?chas. Um fen?meno s?cio-cultural que vem ocorrendo no Estado desde 1957, vem se expandindo e ganhando notoriedade a cada ano. Inicialmente, o trabalho apresenta uma contextualiza??o do surgimento do ga?cho e a forma??o do seu estere?tipo. Esse processo ir? resultar em um movimento tradicionalista ga?cho, que ir? criar pr?ticas de representa??es do ga?cho, e o far? atrav?s dos Centros de Tradi??es Ga?chas. Por fim, o trabalho analisa os motivos que levam pessoas de diferentes lugares e grupos ?tnicos aderir a esse movimento.

MOVIMENTO TRADICIONALISTA GA?CHO

CENTRO DE TRADI??ES GA?CHAS

SANTA CATARINA - HIST?RIA

MEM?RIA

CNPQ::CIENCIAS HUMANAS::HISTORIA

Projeto de pesquisa de disserta??o o design gr?fico como ferramenta para potencializar a estrutura editorial de um jornal popular

Thier, F?bian Chelkanoff

31 March 2010

Made available in DSpace on 2015-04-14T14:41:10Z (GMT). No. of bitstreams: 1 423211.pdf: 5842746 bytes, checksum: 1fe5cc3a469b24a34e5f6e2078305ab9 (MD5) Previous issue date: 2010-03-31 / Tendo em vista que o peri?dico Di?rio Ga?cho ? um jornal popular, e que sua publica??o pelo Grupo RBS fez aumentar o ?ndice de leitura de jornais da Regi?o Metropolitana de Porto Alegre, atrav?s de uma an?lise hermen?utica, fundamentada principalmente nos conceitos de John Thompson, o trabalho que segue busca descobrir o que, na sua estrutura gr?fica, potencializa o conceito de jornalismo popular e faz com que os ?ndices de leitura aumentem.

JORNALISMO

DESIGN GR?FICO

Os cl?ticos pronominais do portugu?s brasileiro e sua prosodiza??o

Brisolara, Luciene Bassols

15 January 2008

Made available in DSpace on 2015-04-14T13:37:37Z (GMT). No. of bitstreams: 1 399688.pdf: 675083 bytes, checksum: 93662bd9b0bc0f0ac93dac5372dd8f4c (MD5) Previous issue date: 2008-01-15 / A presente pesquisa constitui-se em um estudo sobre o status pros?dico dos cl?ticos pronominais -me, -te, -se, -lhe(s), -o(s), -nos, -lo(s) do Portugu?s Brasileiro, tomando como base a an?lise do comportamento da regra de eleva??o das vogais /e/ e /o/ desses elementos em dados de fala de Porto Alegre e Santana do Livramento. A an?lise ? realizada sob a perspectiva da Fonologia Pros?dica (Nespor e Vogel, 1986) e da Fonologia Lexical (Kiparsky, 1985; Mohanan, 1986), as quais se complementam, como tamb?m da Teoria da Varia??o (Labov, 1972, 1982, 1994). Com esse suporte te?rico, al?m de verificarmos o status pros?dico dos cl?ticos pronominais do Portugu?s Brasileiro, tamb?m estabelecemos uma compara??o com os cl?ticos do Portugu?s Europeu. Tal compara??o fundamentou-se na hip?tese de que a integra??o dos cl?ticos pronominais com o seu hospedeiro nesses dialetos pode dar-se de maneira diferente. Al?m disso, a pesquisa inclui uma an?lise estat?stica da regra de eleva??o voc?lica dos cl?ticos, o que, al?m de contribuir para o estudo em quest?o, tamb?m apresenta um car?ter descritivo do Portugu?s Brasileiro.

LING??STICA PORTUGUESA - BRASIL

LING??STICA APLICADA

GA?CHO - AN?LISE LING??STICA

FONOLOGIA