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Sintese de prolactina humana em celulas de ovario de hamster chines (CHO)SOARES, CARLOS R.J. 09 October 2014 (has links)
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06777.pdf: 5273885 bytes, checksum: b88f10c3d25adde0595b62adc866d4ee (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP
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Développement d'un bioprocédé continu couplant la production et la purification d'un anticorps recombinant / Development of a continuous bioprocess coupling production and purification of recombinant antibody.Maria, Sophie 12 December 2017 (has links)
Les anticorps monoclonaux sont une classe de bio médicaments en plein essor. Leur production est largement étudiée afin d’obtenir des rendements de plus en plus élevés et de réduire les coûts. Cette thèse décrit le développement d’un procédé complet en continu, de la production d’anticorps recombinants par des cellules mammifères jusqu’à leur purification. L’objectif est de coupler la culture cellulaire en mode perfusion à la purification par chromatographie semi-continue. Le développement du procédé se fait en bioréacteur avec une lignée de cellules d’ovaires de hamster chinois (CHO-DP12) transformée pour produire un anticorps anti-Interleukine 8 utilisée, comme modèle. Après adaptation, les cellules ont été cultivées en mode batch afin de connaitre le comportement de la lignée en environnement contrôlé. Ensuite, un procédé de perfusion de 2L de culture avec recyclage cellulaire a été mis en place. Le principal enjeu est de maintenir un état stationnaire avec une concentration cellulaire constante et déterminer le débit optimal d’alimentation spécifique par cellule (CSPR). Plusieurs méthodes ont été testées et comparées pour la détermination de ce CSPR optimal. Le procédé de culture en perfusion a ensuite été maintenu pendant 24 jours à des concentrations cellulaires de 10, 20 et 40 millions de cellules par mililitres. Les anticorps produit par différents modes de culture ont été caractérisés (batch, fed-batch et perfusion). Les N-glycosylations, les variants de charge ainsi que la thermo-stabilité des anticorps ont été étudiés. Les résultats montrent que les anticorps produits présentent des caractéristiques similaires quel que soit le mode de production.Pour la purification, une étude préliminaire a permis de caractériser le comportement du filtrat sur la résine chromatographique d’affinité MabSelect Sure LX en chromatographie classique. Un procédé semi-continu a été simulé grâce au logiciel BioSC® Predict puis testé et optimisé sur le chromatographe BioSC®. Il comprend la purification de l’anticorps mais aussi les étapes de nettoyages et de sanitisation. Un premier essai de couplage production/purification a pu être réalisé avec succès pendant 32h et a permis d’obtenir un niveau de pureté similaire à la chromatographie classique. La productivité a été augmentée de 23% (en grammes d’anticorps purifié par litre de résine et par jour) et le volume de tampon utilisé a été réduit de 25%. De plus, le couplage production/purification a permis de s’affranchir du stockage de volumes importants de filtrat (7,2L de filtrat par jour de production en perfusion). Enfin, une étude de coût de production, à l’échelle « laboratoire », a été réalisée afin de déterminer, en fonction de la productivité du clone et de la quantité d’anticorps à produire, la différence de rentabilité entre une production en batch ou en perfusion à différents CSPR. / Monoclonal antibodies are a biopharmaceuticals class of growing interest. Their production is widely studied to obtain higher yields and to reduce costs. This thesis describes the development of a complete continuous process, from the production of recombinant antibodies by mammalian cells until their purification. The objective is to connect cell culture in perfusion mode to a semi-continuous chromatographic purification. The development of the process was done in a bioreactor with a Chinese hamster ovary cell line (CHO-DP12) transformed to produce an anti-interleukin-8 antibody used as a cell model. After adaptation, the cells were cultured in batch mode in order to study the behavior of the cell line in controlled environment. Then, a 2L culture perfusion process with cell recycling was set up. The main challenge is to maintain a steady state with constant cell concentration and to determine the optimal cell-specific perfusion rate (CSPR). Several methods were tested and compared for the determination of this optimal CSPR. The perfusion process was maintained for 24 days at cell concentrations of 10, 20 and 40 million cells per mililiters. The antibody produced by different culture methods was compared (batch, fed-batch and perfusion). The N-glycosylations, the charge variants as well as the thermo-stability of the antibody were studied. The results show that the produced antibody have similar characteristics whatever the chosen production mode. For purification process, we performed a preliminary study to characterize the behavior of the supernatant on the chromatographic affinity resin MabSelect Sure LX. A semi-continuous process was simulated through BioSC® Predict software and then tested and optimized on the BioSC® chromatograph. It includes antibody purification but also cleaning and sanitizing steps. A first production/purification coupling test was successfully carried out for 32 h. It provides antibodies at a purity level similar to that of the conventional chromatography. Productivity was increased by 23% (in grams of purified antibody per liter of resin per day) and the volume of buffer used was reduced by 25%. In addition, production/purification coupling prevented storage of large volumes of supernatant (7,2L of supernatant per production day in perfusion mode). Finally, a cost-of-production study, at research scale, was carried out to determine, depending on the productivity of the clone and the antibodies amount, the difference of costs between batch or perfusion production according to different CSPRs.
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Geração de linhagens de células CHO transfectadas com vetores para expressão de anticorpos monoclonais humanizados anti-determinantes leucocitários: anti-CD3 e anti-CD18. / Generation of CHO cell lines expressing humanized monoclonal antibodies anti-leukocytary determinants: anti-CD3 and anti-CD18.Flávia Serpieri 23 October 2009 (has links)
O projeto de obtenção de huAcMos (Anticorpos Monoclonais Humanizados) tinha como escopo a humanização de anticorpos murinos com potencial terapêutico, inserção das sequências em vetores de expressão e transfecção em células CHO (do inglês, Chinese Hamster Ovary). A expressão do huAcMo Anti-CD18 resultou em baixos níveis da proteína recombinante e inciamos o processo de expressão de isoformas do huAcMo Anti-CD3. As células foram transfectadas com seqüências codificadoras do fragmento FvFc Anti-CD3 e clonadas pelo equipamento ClonePix FL. O fragmento foi caracterizado e demonstrou uma menor afinidade quando comparada com a molécula murina original. Ulizamos o sistema de recombinação homóloga (CHO Flp-In, Invitrogen) para expressão da molécula inteira do huAcMo Anti-CD3. Os clones foram caracterizados e demonstrou, assim como o fragmento FvFc, uma menor afinidade pelo alvo. As diferenças nas propriedades de ligação são freqüentemente encontradas após processos de humanização; dependendo da função efetora esta diminuição de afinidade não é negativa para a molécula. / The humanized antibodies (huMab) project intent to use murine antibodies with therapeutic potencial to obtain more human sequences with maintened specificity. The sequences were inserted in expression vectors and transfected in CHO (Chinese Hamster Ovary) cells. Anti-CD18 huMab expression results in low levels of recombinant protein and lead us to try the expression of Anti-CD3 isoforms. The cells were transfected for the expression of a FvFc antibody fragment and cloned using ClonePix FL equipment. The fragment characterization demonstrate a lower affinity when compared with the murine molecule. We use the homologous recombination system (CHO Flp-In) for the expression of the whole molecule of huMab Anti-CD3; like the FvFc fragment, the whole molecule demonstrate a lower affinity for the target. The differences in the affinity properties are frequently found after humanization process and depending on the expected efector functions is not negatively characterized.
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Droplet-based microfluidic systems to incorporate nucleic acids into cationic liposomes and to transfect mammalian cells in vitro / Système microfluidique de gouttes pour incorporer des acides nucléiques dans des liposomes cationiques et pour la transfection de cellules mammifères in vitroVitor, Micaela 26 April 2017 (has links)
Ce travail consiste à utiliser deux systèmes microfluidiques de gouttes pour incorporer d'une part des acides nucléiques dans des liposomes cationiques et d'autre part étudier la dynamique de transfection dans des cellules mammifères. La première micropuce permet d'insérer de l'ADN dans des liposomes cationiques afin d'obtenir de manière reproductible des lipoplexes appropriés à la transfection de cellules dendritiques (DC). Plusieurs paramètres expérimentaux sont tout d'abord étudiés, tels que les débits d'entrée, l’entretien des propriétés des liposomes après leur traitement dans des micro-gouttes, les caractéristiques des lipoplexes (taille, polydispersité et charge) en fonction du rapport molaire de charge (R+/-) et de la géométrie de la puce. Ensuite, les lipoplexes produits dans des conditions optimisées: une micropuce avec un grand canal en serpentin et une région de division des gouttes qui diminuent la polydispersité des lipoplexes, fonctionnant à un rapport de débit eau/huile 0,25 et R+/- 1,5; 3; 5; 7 et 10; sont utilisés pour transfecter des DCs in vitro. Tous les lipoplexes transfectent les DCs, tout en offrant une activation des DCs. La seconde étape consiste à utiliser une micropuce à l'échelle de la cellule unique afin de contrôler les conditions de transfection et d'optimiser le rendement de production de protéines recombinantes. Ainsi, des cellules ovariennes de hamster Chinois (CHO-S) sont transfectées dans la micropuce avec différents types de lipoplexes (R+/- 1,5; 3; 5) dont la dynamique de transfection est suivie par la production de protéines vertes fluorescentes (GFP) et par la viabilité cellulaire. Cette micropuce a permis d'évaluer l’hétérogénéité des cellules transfectées, révélant la présence d'une sous-population produisant des niveaux particulièrement élevés de GFP. Ces hautes productrices (HP) ont une taille cellulaire plus importante que celle de la population moyenne. La charge des lipoplexes montre un rôle important pour transfecter CHO-S, puisque l’unique lipoplex chargé positif R+/- 5 produit plus de HPs. La quantité d’ADN délivrée influe sur la production de protéine, puisque R+/- 1,5 avec plus d’ADN augmente la productivité spécifique de GFP des HPs. Cette thèse est réalisée dans le cadre d'un programme de co-tutelle entre l'Université de Campinas, au Brésil, et l'École Polytechnique, en France. Ce travail a principalement contribué aux domaines de microfluidique et de délivrance de gènes. / This work aims to use one droplet-based microfluidic systems to incorporate nucleic acids into cationic liposomes and another one to study the mammalian cell transfection process. For this, the first step uses a droplet-based microfluidic system to complex cationic liposomes with pDNA in order to obtain reproducible and suitable lipoplexes to dendritic cells (DCs) transfection. For this purpose, some experimental parameters are investigated, such as inlet flow rates, the maintenance of liposomes’ properties after microfluidic processing, lipoplex characteristics (size, polydispersity and zeta potential) as function of molar charge ratio (R+/-) and microchip design. Then, lipoplexes produced in selected conditions: a microchip with large serpentine channel and split region, which decreases lipoplex polydispersity, operating at ratio aqueous/oil flow rate 0.25 and R+/- 1.5, 3, 5, 7 and 10; are used to transfect DCs in vitro. All lipoplexes transfect DCs while providing cells activation. The second step uses a single-cell microfluidic platform to investigate and control over the transfection conditions, in view of optimizing the recombinant protein production by transfected cells. In this context, Chinese hamster ovary cells (CHO-S) are transfected in microchip with different types of lipoplexes (R+/- 1.5, 3, 5) and monitored by green fluorescent protein (GFP) production and cell viability. The single-cell platform enables to assess the heterogeneities of CHO-S population, revealing the presence of a subpopulation producing significantly high levels of GFP. These high producers (HP) show increased cell size in comparison to the average population. Moreover, the charge of lipoplexes shows an important role to transfect CHO-S, since the unique positive charged lipoplex R+/- 5 produces more HPs. Additionally, the amount of pDNA delivered affects the protein production, since R+/- 1.5 with more pDNA increase GFP specific productivity of HPs. This thesis is a co-supervised program between University of Campinas, Brazil and École Polytechnique, France. In general, this work contributes to microfluidics and gene delivery areas.
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Interval and Possibilistic Methods for Constraint-Based Metabolic ModelsLlaneras Estrada, Francisco 23 March 2011 (has links)
This thesis is devoted to the study and application of constraint-based metabolic models. The objective was to find simple ways to handle the difficulties that arise in practice due to uncertainty (knowledge is incomplete, there is a lack of measurable variables, and those available are imprecise). With this purpose, tools have been developed to model, analyse, estimate and predict the metabolic behaviour of cells.
The document is structured in three parts. First, related literature is revised and summarised. This results in a unified perspective of several methodologies that use constraint-based representations of the cell metabolism. Three outstanding methods are discussed in detail, network-based pathways analysis (NPA), metabolic flux analysis (MFA), and flux balance analysis (FBA). Four types of metabolic pathways are also compared to clarify the subtle differences among them.
The second part is devoted to interval methods for constraint-based models. The first contribution is an interval approach to traditional MFA, particularly useful to estimate the metabolic fluxes under data scarcity (FS-MFA). These estimates provide insight on the internal state of cells, which determines the behaviour they exhibit at given conditions. The second contribution is a procedure for monitoring the metabolic fluxes during a cultivation process that uses FS-MFA to handle uncertainty.
The third part of the document addresses the use of possibility theory. The main contribution is a possibilistic framework to (a) evaluate model and measurements consistency, and (b) perform flux estimations (Poss-MFA). It combines flexibility on the assumptions and computational efficiency. Poss-MFA is also applied to monitoring fluxes and metabolite concentrations during a cultivation, information of great use for fault-detection and control of industrial processes. Afterwards, the FBA problem is addressed. / Llaneras Estrada, F. (2011). Interval and Possibilistic Methods for Constraint-Based Metabolic Models [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/10528
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Modification of the duocarmycin pharmacophore enables CYP1A1 targeting for biological activityPors, Klaus, Loadman, Paul, Shnyder, Steven, Sutherland, Mark, Sheldrake, Helen M., Guino, M., Kiakos, K., Hartley, J.A., Searcey, M., Patterson, Laurence H. January 2011 (has links)
No / The identification of an agent that is selectively activated by a cytochrome P450 (CYP) has the potential for tissue specific dose intensification as a means of significantly improving its therapeutic value. Towards this goal, we disclose evidence for the pathway of activation of a duocarmycin analogue, ICT2700, which targets CYP1A1 for biological activity.
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Rôle des protéoglycanes à héparane sulfate dans le transfert de gène des cellules CHO et HEK293Delafosse, Laurence 05 1900 (has links)
La possibilité de programmer une cellule dans le but de produire une protéine d’intérêt est apparue au début des années 1970 avec l’essor du génie génétique. Environ dix années plus tard, l’insuline issue de la plateforme de production microbienne Escherichia coli, fut la première protéine recombinante (r-protéine) humaine commercialisée. Les défis associés à la production de r-protéines plus complexes et glycosylées ont amené l’industrie biopharmaceutique à développer des systèmes d’expression en cellules de mammifères. Ces derniers permettent d’obtenir des protéines humaines correctement repliées et de ce fait, biologiquement actives. Afin de transférer le gène d’intérêt dans les cellules de mammifères, le polyéthylènimine (PEI) est certainement un des vecteurs synthétiques le plus utilisé en raison de son efficacité, mais aussi sa simplicité d’élaboration, son faible coût et sa stabilité en solution qui facilite son utilisation. Il est donc largement employé dans le contexte de la production de r-protéines à grande échelle et fait l’objet d’intenses recherches dans le domaine de la thérapie génique non virale. Le PEI est capable de condenser efficacement l’ADN plasmidique (vecteur d’expression contenant le gène d’intérêt) pour former des complexes de petites tailles appelés polyplexes. Ces derniers doivent contourner plusieurs étapes limitantes afin de délivrer le gène d’intérêt au noyau de la cellule hôte. Dans les conditions optimales du transfert de gène par le PEI, les polyplexes arborent une charge positive nette interagissant de manière électrostatique avec les protéoglycanes à héparane sulfate (HSPG) qui décorent la surface cellulaire. On observe deux familles d’HSPG exprimés en abondance à la surface des cellules de mammifères : les syndécanes (4 membres, SDC1-4) et les glypicanes (6 membres, GPC1-6). Si l’implication des HSPG dans l’attachement cellulaire des polyplexes est aujourd’hui largement acceptée, leur rôle individuel vis-à-vis de cet attachement et des étapes subséquentes du transfert de gène reste à confirmer.
Après avoir optimisées les conditions de transfection des cellules de mammifères CHO et HEK293 dans le but de produire des r-protéines secrétées, nous avons entrepris des cinétiques de capture, d’internalisation des polyplexes et aussi d’expression du transgène afin de mieux comprendre le processus de transfert de gène. Nous avons pu observer des différences au niveau de ces paramètres de transfection dépendamment du système d’expression et des caractéristiques structurelles du PEI utilisé. Ces résultats présentés sous forme d’articles scientifiques constituent une base solide de l’enchaînement dans le temps des évènements essentiels à une transfection efficace des cellules CHO et HEK293 par le PEI.
Chaque type cellulaire possède un profil d’expression des HSPG qui lui est propre, ces derniers étant plus ou moins permissifs au transfert de gène. En effet, une étude menée dans notre laboratoire montre que les SDC1 et SDC2 ont des rôles opposés vis-à-vis du transfert de gène. Alors que tous deux sont capables de lier les polyplexes, l’expression de SDC1 permet leur internalisation contrairement à l’expression de SDC2 qui l’inhibe. De plus, lorsque le SDC1 est exprimé à la surface des cellules HEK293, l’efficacité de transfection est augmentée de douze pourcents. En utilisant la capacité de SDC1 à induire l’internalisation des polyplexes, nous avons étudié le trafic intracellulaire des complexes SDC1 / polyplexes dans les cellules HEK293. De plus, nos observations suggèrent une nouvelle voie par laquelle les polyplexes pourraient atteindre efficacement le noyau cellulaire.
Dans le contexte du transfert de gène, les HSPG sont essentiellement étudiés dans leur globalité. S’il est vrai que le rôle des syndécanes dans ce contexte est le sujet de quelques études, celui des glypicanes est inexploré. Grâce à une série de traitements chimiques et enzymatiques visant une approche « perte de fonction », l’importance de la sulfatation comme modification post-traductionnelle, l’effet des chaînes d’héparanes sulfates mais aussi des glypicanes sur l’attachement, l’internalisation des polyplexes, et l’expression du transgène ont été étudiés dans les cellules CHO et HEK293.
L’ensemble de nos observations indique clairement que le rôle des HSPG dans le transfert de gène devrait être investigué individuellement plutôt que collectivement. En effet, le rôle spécifique de chaque membre des HSPG sur la capture des polyplexes et leur permissivité à l’expression génique demeure encore inconnu. En exprimant de manière transitoire chaque membre des syndécanes et glypicanes à la surface des cellules CHO, nous avons déterminé leur effet inhibiteur ou activateur sur la capture des polyplexes sans pouvoir conclure quant à l’effet de cette surexpression sur l’efficacité de transfection. Par contre, lorsqu’ils sont présents dans le milieu de culture, le domaine extracellulaire des HSPG réduit l’efficacité de transfection des cellules CHO sans induire la dissociation des polyplexes. Curieusement, lorsque chaque HSPG est exprimé de manière stable dans les cellules CHO, seulement une légère modulation de l’expression du transgène a pu être observée.
Ces travaux ont contribué à la compréhension des mécanismes d'action du vecteur polycationique polyéthylènimine et à préciser le rôle des protéoglycanes à héparane sulfate dans le transfert de gène des cellules CHO et HEK293. / With the aim to express a protein of interest, the transfer of exogenous genetic material into host cells was established in early 70s with the development of genetic engineering. Approximately ten years later, insulin was the first human recombinant protein (r-protein) produced at large scale in Escherichia coli and commercialized. Challenges associated with the production of more complex and glycosylated r-proteins brought the pharmaceutical industry to develop mammalian expression platforms. Thus, the expressed r-proteins are correctly folded and biologically actives. As a means to transfer genetic materials of interest into mammalian cells, the synthetic vector polyethylenimine (PEI) is probably the most popular due to its efficacy, ease of use, cost-effectiveness and stability in solution. Consequently, PEI is largely employed for the production of r-proteins by large scale and extensively studied in the context of non-viral gene therapy. PEI is capable to efficiently condense plasmid DNA (expression vector containing the gene of interest) to form small nanoparticles termed polyplexes. The latter must circumvent several steps to deliver the gene of interest to the cell nucleus. When formed at the optimum conditions, polyplexes exhibit a net positive charge which can interact electrostatically with negatively charged heparan sulfate proteoglycans (HSPG) located at the cell surface. There are two major families of HSPG that are largely expressed at the surface of mammalian cells: the syndecans (4 members, SDC1-4) and the glypicans (6 members, GPC1-6). Although it is generally accepted that HSPG are involved in the binding of polyplexes, their individual role toward polyplex binding and the subsequent phases of gene transfer need to be confirmed.
Following optimization of the mammalian CHO and HEK293 cells transfection conditions, we undertook an in-depth study of polyplexes uptake, internalization kinetics, as well as transgene expression kinetics with the aim to better understand the mechanisms underlying gene transfer. We observed several contrasting differences between the two cell lines and the type of PEI used. Our results presented as a scientific article, establish strong basis of the gene transfer process over-time.
Every cell type possesses its own expression profile of HSPG which can display individual potency toward gene transfer. Indeed, a preliminary study conducted in our laboratory showed that SDC1 and SDC2 have distinct features with regard to gene transfer. While both are capable to bind polyplexes at the cell surface, the expression of SDC1 enhances polyplexes internalization whereas the expression of SDC2 drastically inhibits it. Furthermore, when SDC1 is expressed at the surface of HEK293 cells, the transfection efficiency is increased by twelve percent compared to control cells. By using the ability of SDC1 to mediate efficient internalization of polyplexes, we have studied the intracellular traffic of SDC1 / polyplexes complexes. Our conclusions lead to new insights concerning the path by which polyplexes can mediate efficient transfection.
In the context of gene transfer, HSPG have been essentially studied in their entirety. Although the role of syndecans is the subject of some studies, that of glypicans is unexplored. Thanks to a series of chemical and enzymatic treatments leading to « loss of functions », the importance of sulfation as post-translational modification, the effect of HS chains and of glypicans on the attachment, internalization of polyplexes as well as transgene expression were investigated in CHO and HEK293 cells.
Taken together, our observations indicate clearly that the role of HSPG should be investigated individually instead of collectively. Consequently, the individual potency of each HSPG member regarding gene transfer remains to be defined. We demonstrated that, in fact, the transient expression of some HSPG in CHO cells have a beneficial effect on polyplexes uptake while others have a negative effect. Unfortunately, this method did not allow concluding about their effect on transfection efficacy. However, when present in the culture medium, the extracellular domain of HSPG decreases transfection efficacy of CHO cells without inducing polyplexes dissociation. Strangely, when each HSPG is stably expressed in CHO cells, only subtle modulations of the gene expression level were observed.
This study contributed to a better understanding of the mechanisms underlying PEI mediated gene transfer in CHO and HEK293 cells and clarify the role of HSPG in gene transfer.
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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.Novo, Juliana Branco 24 June 2010 (has links)
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.
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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 (has links)
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.
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Antitumor activity of a duocarmycin analogue rationalized to be metabolically activated by cytochrome P450 1A1 in human transitional cell carcinoma of the bladderSutherland, Mark, Gill, Jason H., Loadman, Paul, Laye, Jonathan P., Sheldrake, Helen M., Illingworth, Nicola A., Alandas, Mohammed N., Cooper, Patricia A., Searcey, M., Pors, Klaus, Shnyder, Steven, Patterson, Laurence H. 01 October 2012 (has links)
No / We identify cytochrome P450 1A1 (CYP1A1) as a target for tumor-selective drug development in bladder cancer and describe the characterization of ICT2700, designed to be metabolized from a prodrug to a potent cytotoxin selectively by CYP1A1. Elevated CYP1A1 expression was shown in human bladder cancer relative to normal human tissues. RT112 bladder cancer cells, endogenously expressing CYP1A1, were selectively chemosensitive to ICT2700, whereas EJ138 bladder cells that do not express CYP1A1 were significantly less responsive. Introduction of CYP1A1 into EJ138 cells resulted in 75-fold increased chemosensitivity to ICT2700 relative to wild-type EJ138. Negligible chemosensitivity was observed in ICT2700 in EJ138 cells expressing CYP1A2 or with exposure of EJ138 cells to CYP1B1- or CYP3A4-generated metabolites of ICT2700. Chemosensitivity to ICT2700 was also negated in EJ138-CYP1A1 cells by the CYP1 inhibitor alpha-naphthoflavone. Furthermore, ICT2700 did not induce expression of the AhR-regulated CYP1 family, indicating that constitutive CYP1A1 expression is sufficient for activation of ICT2700. Consistent with the selective activity by CYP1A1 was a time and concentration-dependent increase in gamma-H2AX protein expression, indicative of DNA damage, associated with the activation of ICT2700 in RT112 but not EJ138 cells. In mice-bearing CYP1A1-positive and negative isogenic tumors, ICT2700 administration resulted in an antitumor response only in the CYP1A1-expressing tumor model. This antitumor response was associated with detection of the CYP1A1-activated metabolite in tumors but not in the liver. Our findings support the further development of ICT2700 as a tumor-selective treatment for human bladder cancers.
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