• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 35
  • 23
  • 7
  • 4
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 85
  • 75
  • 45
  • 38
  • 24
  • 18
  • 12
  • 10
  • 10
  • 9
  • 7
  • 7
  • 7
  • 7
  • 6
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Effets des ligands de PPAR? sur la voie de signalisation des oestrogènes dans les cellules cancéreuses mammaires / Effects of the PPAR? ligands on estrogens signaling pathway in breast cancer cells

Lecomte, Julie 02 February 2009 (has links)
Le récepteur alpha des œstrogènes (ERa) est une cible privilégiée dans le traitement du cancer du sein. En effet, 70% des tumeurs sont hormono-dépendantes, c’est-à-dire qu’elles expriment ERa et que les œstrogènes contrôlent leur prolifération. Par ailleurs, les agonistes du récepteur nucléaire « Peroxisome Proliferator Activated Receptor gamma » (PPAR?? inhibent la prolifération des cellules cancéreuses mammaires in vivo et in vitro. L’objectif de la thèse visait à déterminer si ces composés, en particulier ceux de la famille des thiazolidinediones, interféraient avec la voie de signalisation des œstrogènes. Les travaux ont porté sur 2 lignées cancéreuses mammaires hormono-dépendantes : MCF-7 et ZR-75-1. La troglitazone (TGZ), la ciglitazone et la 15déoxy-Prostaglandine J2 (15d-PGJ2) altèrent la signalisation œstrogénique en induisant la dégradation de l’ERa. ?Cette protéolyse fait appel au protéasome 26S et elle est plus accentuée pour la lignée ZR-75-1. Les composés qui altèrent la signalisation œstrogénique inhibent aussi fortement la prolifération cellulaire. La dégradation de ERa ne semble pas dépendre de l’activation des ligands de PPAR? puisqu’un agoniste puissant comme la rosiglitazone n’induit pas cet effet. L’utilisation d’antagonistes de PPAR?, de la ?2-TGZ, dérivé de la troglitazone qui n’active pas PPAR? ainsi qu’une approche par interférence ARN ont permis de démontrer que la protéolyse de l’ERa est bien liée à mécanisme indépendant de PPAR?. La littérature indiquait que la 15d-PGJ2 se liait de façon covalente à ERa, ?mais pas à l’isoforme ERß. Nous avons observé que la 15d-PGJ2 n’induisait pas la protéolyse de ERß. Une dégradation différentielle a aussi été observée avec les thiazolidinediones. En outre, l’activité transcriptionnelle de ERa est affectée précocement après l’exposition des cellules aux différents ligands, suggérant une modification du récepteur. Afin de savoir si une liaison covalente pouvait être à l’origine de la protéolyse, un groupement biotine a été greffé sur la ?2-TGZ afin de réaliser des expériences de pull-down. Ce composé n’a pas permis de démontrer l’hypothèse mais cette molécule induit plus efficacement que la molécule d’origine la protéolyse non seulement de l’ERa, ?mais aussi de la cycline D1. Des modifications des ligands de PPAR? ?pourraient donc avantageusement diminuer les doses efficaces. Ces mécanismes PPAR?-indépendants, qui aboutissent à la dégradation de la cycline D1 et de ERa mais pas de ERß pourraient être intéressants dans l’optique d’une application à la thérapeutique des cancers mammaires. / Estrogen receptor alpha (ERa) is a major target in breast cancer treatment. About 70% of breast cancers are estrogen-sensitive meaning that estrogens stimulate their growth. Ligands of PPAR? (Peroxisome Proliferator Activated Receptor gamma) inhibit breast cancer cell proliferation both in vivo and in vitro. The aim of this work was to determine whether PPAR? ligands could interfere with estrogen signalling pathway. The effects of Rosiglitazone (RGZ), Ciglitazone (CGZ), Troglitazone (TGZ) and the natural PPAR? agonist 15d-PGJ2 were investigated in two hormone-dependent breast cancer cell lines, MCF-7 and ZR-75-1. In both of them, TGZ, CGZ and 15d-PGJ2 induced an inhibition of ERa signalling associated with the proteasomal degradation of ERa. ZR-75-1 cells were more sensitive than MCF-7 to these compounds. Treatments that induced ERa degradation also inhibited cell proliferation after 24h. In contrast, 24h exposure to RGZ, the most potent activator of PPAR? disrupted neither ERa signalling nor cell proliferation. 9-cis retinoic acid never potentiated the proteasomal degradation of ERa. PPAR? antagonists did not block the proteolysis of ERa in MCF-7 and ZR-75-1 cells treated with TGZ. ERa proteolysis still occurred in case of PPAR? silencing as well as in case of treatment with the PPAR?-inactive compound ?2-TGZ, demonstrating a PPAR?-independent mechanism. A previous study indicated that 15d-PGJ2 was able to covalently modify ERa, ?but did not bind to ERß. First, we observed that in contrast to ERa, ERß proteolysis did not occur in MCF-7 cells exposed to 15d-PGJ2. A differential proteolysis was also observed in case of exposure to thiazolidinediones. Moreover, transfection experiments using pEREtkLuc showed that ERa functionality was affected early after exposure of MCF-7 cells to thiazolidinediones. In order to determine if a covalent binding of PPAR? ligands to ERa ?could lead to its proteolysis, a biotinylated derivative of ?2-TGZ was synthesized. However, pull-down assays performed using neutravidin beads did not allow to demonstrate a covalent interaction between ERa and biotinylated ?2-TGZ. When we verified the efficiency of biotinylated ?2-TGZ on ERa ?proteolysis induction, we observed that the substitution by biotine potentiated the TGZ-induced proteasomal degradation not only of ERa but also of cyclin D1. In conclusion, the design of new thiazolidinedione derivatives could lead to more efficient molecules able to affect differentially ER in a PPAR?-independent way and could be an interesting tool for breast cancer therapy.
2

In vitro cell signaling events of 2-methoxyestradiol-bis-sulphamate in a breast adenocarcinoma- and a non-tumorigenic breast epithelial cell line

Visagie, M.H. (Michelle Helen) 11 July 2011 (has links)
2-Methoxyestradiol, an endogenous metabolite of 17-β-estradiol exerts antipropliferative, antiangiogenic and antitumor effects in vitro and in vivo and is currently in clinical trials phase II for various types of cancers including breast cancer. Due to low oral bioavailability and rapid metabolic degradation, several analogues have been developed in recent years. 2-Methoxyestradiol-bis-sulphamate (2-MeOE2bisMATE), a novel bissulphamoylated derivative of 2-methoxyestradiol exerts in vitro antipropliferative effects. Although 2-MeOE2bisMATE holds therapeutic potential as an anticancer agent, several questions remain regarding the signal transduction and exact mechanism of action used by 2-MeOE2bisMATE. In vitro effects of 2-MeOE2bisMATE were investigated in a breast adenocarcinoma cell line (MCF-7) and a non-tumorigenic epithelial breast cell line (MCF-12A) by analysing its influence on cell growth, cytotoxicity, morphology, cell cycle progression, mitochondrial membrane potential, reactive oxygen species production and induction of apoptosis and autophagy. Spectrophotometrical studies indicated that 2-MeOE2bisMATE decreased cell numbers to 47% in MCF-7 cells and to 79% in MCF-12A cells after 48h of exposure. Haematoxylin and eosin staining revealed several 2-MeOE2bisMATE-treated cells with the presence of apoptotic bodies. Transmission electron microscopy demonstrated membrane blebbing, nuclear fragmentation and chromatin condensation indicating the occurrence of apoptosis. Increased lysosomal staining was revealed by fluorescent microscopy using propidium iodide, Hoechst 33342 and acridine orange; suggesting cell death via autophagy. Data obtained employing flow cytometry using rabbit polyclonal anti-LC3B conjugated to DyLight 488 verified the induction of autophagy in 2-MeOE2bisMATE-treated cells. In addition, cell cycle progression revealed an apoptotic sub-G1 peak, confirming the induction of apoptosis by 2-MeOE2bisMATE. Reactive oxygen species generation increased when cells were exposed to 2-MeOE2bisMATE. Annexin V-FITC and the investigation of a possible reduction in the mitochondrial membrane potential verified induction of apoptosis by 2-MeOE2bisMATE. All of the above-mentioned results were observed more prominently in the tumorigenic MCF-7 cell line when compared to the non-tumorigenic MCF-12A cell line. Data obtained from this in vitro study contributes to the embedded scientific knowledge regarding the signaling transduction mechanism exerted by 2-MeOE2bisMATE. / Dissertation (MSc)--University of Pretoria, 2011. / Physiology / unrestricted
3

Effect of Consumption of Selenium-Enriched Milk Proteins on Human Mammary Tumor Progression

Warrington, Jenny 02 May 2013 (has links)
Selenium, an essential trace mineral that becomes anticarcinogenic at supranutritional levels, is readily incorporated into milk proteins when cows are fed high levels of selenium. The objective of this study was to investigate the effects of selenized milk protein on human mammary tumor progression. Four isonitrogenous diets with Se levels of 0.16, 0.51, 0.85 and 1.15 ppm were formulated by mixing low- and high-selenium milk protein isolates with a rodent premix. MCF-7 human breast cancer cells were inoculated into the mammary fat pad of female BALB/c nude mice implanted with slow-release 17 β-estradiol pellets. Mice with palpable tumors were randomly assigned to one of four diets for 10 weeks. Increasing Se intake reduced final tumor volume and the number of tumors > 500 mm3 in volume. There was a two-fold higher proportion of apoptotic cells in tumors exposed to the highest Se level. / Financial support was provided by Dairy Farmers of Ontario, Alltech Canada, Inc., and NSERC Canada.
4

Etude du rôle de la GD3 synthétase et des gangliosides complexes dans la prolifération et la migration des cellules de cancer du sein / Study of the role of the GD3 synthase and complex gangliosides in the proliferation and the migration of the breast cancer cells

Steenackers, Agata 28 November 2013 (has links)
Le rôle des gangliosides complexes di- ou trisialylés (GD3, GD2, GT3) dans le développement des cancers d’origine neuro-ectodermique (mélanome, neuroblastome) a été clairement démontré. Ces gangliosides sont également surexprimés dans 50% des carcinomes mammaires canalaires infiltrants et l’expression de la GD3 synthétase (GD3S) contrôlant leur biosynthèse, est augmentée dans les tumeurs de sein ER-négatives, avec une diminution de la survie des patientes. Notre laboratoire a montré que l’expression de la GD3S dans les cellules cancéreuses de sein MDA-MB-231 induit une augmentation de la migration et de la prolifération en conditions de sevrage, liée à une activation constitutive du récepteur c-Met et des voies de signalisation intracellulaires Erk/MAPK et PI3K/Akt par le GD2. Nous avons développé un autre modèle cellulaire dérivant des cellules cancéreuses mammaires MCF-7 sur-exprimant la GD3S. Ces cellules accumulent principalement les gangliosides GD1b et GT3. Nous avons pu montrer une augmentation de la migration mais aucun effet sur la prolifération n’a été observé. L’analyse en spectrométrie de masse des glycosphingolipides a montré que les MCF-7 expriment des quantités élevées de globosides et de faibles quantités de gangliosides par rapport aux cellules MDA-MB-231. Dans les cellules MCF7 GD3S+, nous avons démontré que la GD3S était capable de synthétiser du GT3 à partir du GD3, mais également des gangliosides inhabituels tétra- et penta-sialylés. Nos résultats montrent que les cellules cancéreuses mammaires présentent des profils gangliosidiques différents et que la modification du phénotype cellulaire induite par l'expression de la GD3S dépend du type cellulaire. / The role of di- and trisialylated complex gangliosides (GD3, GD2 and GT3) in the development of neuro-ectoderm derived cancers (melanoma, neuroblastoma) has been clearly demonstrated. Complex gangliosides are also over-expressed in 50% of breast invasive ductal carcinomas and the expression of the GD3 synthase (GD3S) that controls their biosynthesis, is increased in ER-negatives breast cancer tumors, associated with a decreased overall survival of the patients. Our lab has previously demonstrated that GD3S expression in MDA-MB-231 breast cancer cells induced an increase of the cell migration and proliferation in serum-free conditions, associated to a constitutive GD2-dependent constitutive activation of c-Met receptor and Erk/MAPK et PI3K/Akt signaling pathways. We have developed another cellular model deriving from MCF-7 breast cancer cells, over-expressing the GD3S. These cells mainly express GD1b and GT3 gangliosides. We have shown the increased migration of MCF7 GD3S+, but no effect on the proliferation was observed. Mass spectrometry analysis of total glycosphingolipids has shown that MCF-7 cells express a high level of globosides and a low level of gangliosides compared to MDA-MB-231 cells. In MCF7 GD3S+ cells, we demonstrated that the GD3S was able to synthesize GT3 from GD3, but also other unusual tetra- and penta-sialylated gangliosides. Our results show that breast cancer cell lines express different gangliosidic profiles and that the modification of the cellular phenotype resulting from the expression of the GD3S is depending on the cell type.
5

Efeitos do tratamento com selênio no crescimento e marcas epigenéticas de células de adenocarcinoma mamário humano MCF-7 / Effects of selenium treatment on growth and epigenetic marks of MCF-7 human breast adenocarcinoma cells

Miranda, Juliana Xavier de 05 November 2012 (has links)
O câncer de mama representa problema mundial de saúde pública e a causa mais frequente de morte por câncer entre as mulheres. A identificação de agentes moduladores de marcas epigenéticas, tais como metilação global do DNA e modificações pós-tradução em histonas, compreende alternativa promissora para estabelecimento de estratégias de controle da carcinogênese mamária. Dentre os nutrientes, o elemento traço essencial selênio (Se) pode ser destacado como agente dietético com potencial anti-câncer de mama e que poderia atuar modulando processos epigenéticos. Entretanto seus mecanismos de ação são pouco elucidados. Este estudo objetivou, assim, identificar efeitos do tratamento com selênio no crescimento e marcas epigenéticas de células de adenocarcinoma mamário humano MCF-7. Células MCF-7, positivas para o receptor de estrógeno, foram tratadas com ácido metilselenínico (MSA) ou selenito de sódio (ST) por diferentes tempos e em diferentes concentrações. Foram avaliados: padrão de proliferação (ensaio cristal violeta) e viabilidade celular (método de exclusão azul de tripan); integridade de membrana plasmática (citometria de fluxo); níveis de fragmentação do DNA (citometria de fluxo), distribuição das fases do ciclo celular (citometria de fluxo); apoptose (citometria de fluxo/ marcação dupla com Anexina V - Iodeto de propídio); níveis de lisina 9 acetilada (H3K9ac) e trimetilada (H3K9me3) em histona H3; níveis de lisina 16 acetilada (H4K16ac) em histona H4 (Western blot); padrão de metilação global do DNA (HPLC-DAD); expressão de gene supressor de tumor (RASSF1a; qPCR) e padrão de metilação da região promotora (RASSF1a e RAR&#946;; MS-PCR); expressão da enzima DNA metilstransferase 1 (DNMT1) (Western Blotting). Comparado ao grupo controle de células não tratadas (GC), ambos os tratamentos com MSA ou ST inibiram a proliferação e viabilidade de células MCF-7 de forma dose e tempo dependente. Ambas as formas químicas de Se induziram a parada do ciclo celular, aumentando (p< 0,05) a proporção de células na fase G2/M e reduzindo (p< 0,05) a proporção daquelas nas fases G0/G1 e S. Os tratamentos com MSA favoreceram a morte celular por apoptose, que foi associada com nível de fragmentação de DNA aumentado (p< 0,05), e reduzida ruptura da membrana plasmática associada com a exposição aumentada (p< 0,05) de fostadilserina. Por outro lado, o ST aumentou (p< 0,05) a fragmentação do DNA e (p< 0,05) a positividade ao iodeto de propídio associado à indução de necrose (p< 0,05). Dentre os mecanismos epigenéticos investigados, 1,6&#181;M e 2&#181;M reduziram a acetilação de H3K9ac (72h; p< 0,05) e aumentaram a de H4K16ac (96h; p< 0,05). O tratamento por 96h com 2&#181;M de MSA reduziu (p< 0,05) a metilação de H3K9me3. Ambos MSA e ST não alteraram o padrão de metilação global do DNA, mas reduziram a expressão de DNMT1, após 96h com 2&#181;M de MSA (p< 0,001; 88%) e após 120h com 10&#181;M de ST (p< 0,001; 96%). ST, mas não o MSA, aumentou (p< 0,05; 45%) a expressão do gene RASSF1a. Em ambos os grupos tratados com MSA ou ST, bem como no GC, a região promotora dos genes RASSF1a e RAR estavam predominantemente metiladas. Estes resultados fornecem evidências de que as ações anti-câncer de mama de compostos do selênio dependem de sua forma química. Além disso, a modulação de processos epigenéticos parecem ser relevantes para as ações inibitórias do MSA em células de câncer de mama. / Breast cancer is a global public health problem and the most frequent cause of cancer death among women. The identification of agents able to modulate epigenetic marks, such as global DNA methylation and histone post-translational modifications, comprises promising alternative for establishing control strategies on mammary carcinogenesis. Among the nutrients, the essential trace element selenium (Se) can be highlighted as a dietary agent with potential anti-breast cancer and could act by modulating epigenetic processes. However its mechanisms of action are poorly understood. This study aimed, therefore, to identify the effects of selenium treatment on growth and epigenetic marks of MCF-7 human breast adenocarcinoma cells. MCF-7 cells, positive for estrogen receptor, were treated with methylseleninic acid (MSA) or sodium selenite (ST) for different times and in different concentrations. Evaluated parameters included: cell proliferation (crystal violet assay) and cell viability (trypan blue exclusion assay); plasma membrane integrity (flow cytometry); levels of DNA fragmentation (flow cytometry), apoptosis (flow cytometry - double labeling with Annexin V - propidium iodide); distribution of cell cycle phases (flow cytometry); acetylated (H3K9ac) and trimethylated (H3K9me3) lysine 9 levels on histone H3; acetylated (H4K16ac) lysine 16 level on histone H4 (Western blot); global DNA methylation (HPLC-DAD); tumor suppressor gene expression (RASSF1a; qPCR) and promoter methylation (RASSF1a, RAR&#946;; MS-PCR); DNA methyltransferase 1 (DNMT1) expression (Western blot). Compared to untreated cells (controls), both MSA and ST inhibited (p< 0.05) MCF-7 cell proliferation and viability in a dose- and time-dependent manner. Treatments with MSA favored cell death by apoptosis, that was associated with increased (p< 0.05) DNA fragmentation level, reduced plasma membrane rupture associated with high (p< 0.05) phosphatidylserine exposure. On the other hand, ST increased (p< 0.05) DNA fragmentation, enhanced (p< 0.05) propidium iodide positivity associated to necrosis induction (p< 0,05). Both chemical forms of Se induced nduced cell cycle arrest, increasing (p< 0.05) the proportion of cells in G2/M phase and reducing (p< 0.05) the proportion of those in G0/G1 and S phases. Among the epigenetic mechanisms investigated, 1.6&#181;M and 2&#181;M of MSA reduced acetylation of H3K9ac (72h, p< 0.05) and increased the H4K16ac (96h, p< 0.05). The treatment for 96h with 2&#181;M of MSA reduced (p< 0.05) the H3K9me3 methylation. Neither MSA nor ST altered (p> 0.05) global DNA methylation, while both compounds reduced (p< 0.05) DNMT1 protein expression, after 96h with 2&#181;M of MSA (p< 0.001; 88%) and after 120h with 10&#181;m of ST (p< 0.001; 94%). ST, but not MSA, increased (p< 0.05; 45%) RASSF1a gene expression. In control and Se-treated cells promoter regions of RASSF1a and RAR&#946; were predominantly methylated. These results provide evidence that the anti-breast cancer actions of selenium compounds depend on its chemical form. Additionally, modulation of epigenetic processes seems to represent a relevant feature of MSA inhibitory effects in breast cancer cells.
6

Efeitos citotóxicos, genotóxicos e epigenéticos do Bisfenol A em células HL-60, MCF-7 e em ratos / Cytotoxic, genotoxic and epigenetics effects of Bisphenol A on HL-60, MCF-7 cells and rats

Ribeiro, André Luiz Teroso 07 December 2015 (has links)
Bisfenol A (BPA) é um insumo largamente utilizado na produção de plástico policarbonato e amplamente difundido no meio ambiente, levando o ser humano à exposição crônica desde o período intrauterino. A literatura aponta a possibilidade de BPA aumentar o risco de diversos tipos de câncer, mas são necessários estudos que possibilitem o entendimento de mecanismos pelos quais isso pode ocorrer. Neste trabalho foram investigados os efeitos do BPA ou nitro-BPA em células HL-60, MCF-7 e tecidos de ratos. Células HL-60 foram expostas ao BPA ou nitro-BPA nas concentrações de 25, 100 e 250 &#181;M (0,1 % DMSO v/v) por 2, 24 ou 48 horas na presença ou ausência de H2O2 (40 nmol/5 x 104 células). Células MCF-7 foram expostas da mesma forma, sem o uso de H2O2, mas na presença e ausência de agonista (PCB) de receptor Ah. Ratos Sprague-Dawley machos receberam BPA diariamente ao longo de 4 semanas (50 mg/kg de peso corpóreo) por gavagem, na vigência e ausência de diabetes, com subsequente coleta de urina, fígado, rins, medula óssea e sangue. Nos experimentos com as células, a viabilidade, ciclo celular, fragmentação do DNA e a produção intracelular de espécies reativas de oxigênio (ROs) foram avaliadas por citometria de fluxo, a atividade da cadeia respiratória mitocondrial pelo ensaio do XTT, e a atividade de MPO de células HL-60 por ensaio de fluorescência, bem como a produção de &#8226;NO. A metilação e hidroximetilação global do DNA e os adutos 8-oxodG, CEdG, 1,N6-&#949;dA, 1,N2-&#949;dG e BPA-Gua no DNA das células, tecidos, meio de cultura e urina foram analisados por HPLC-ESI-MS/MS. O hemograma e mielograma dos animais foram obtidos no Laboratório de Hematologia Experimental da FCF USP. Observou-se que tanto BPA quanto nitro-BPA induziram a geração de ROS em células HL-60 logo após 2h de incubação. BPA levou subsequentemente à perda de atividade da cadeia respiratória mitocondrial, aumento da permeabilidade da membrana plasmática, fragmentação do DNA, parada na fase G2/M do ciclo celular e hipermetilação acompanhada de hipohidroximetilação global do DNA. A citotoxicidade induzida pelas mesmas concentrações de nitro-BPA em células HL-60 foi menos pronunciada, sem perda de atividade da cadeia respiratória mitocondrial, com pouca fragmentação do DNA, mas com parada na fase G0/G1 do ciclo celular e indução de hipohidroximetilação global do DNA na presença de H2O2. Não foi observada a indução de adutos de DNA nas células HL-60 incubadas com BPA, mas sim de CEdG nas células incubadas com nitro-BPA. Os dados obtidos a partir da exposição das células HL-60 a BPA e nitro-BPA nos indicam que as duas moléculas provocam alterações metabólicas distintas nesse tipo celular, independentes da via estrogênica, que levam a alterações predominantemente epigenéticas (BPA) ou genéticas e epigenéticas (nitro-BPA), que podem ter consequências fenotípicas, como progressão maligna, que precisam ser investigadas. Foi observado que as células MCF-7 são mais resistentes que as células HL-60 à citotoxicidade induzida por BPA e nitro-BPA. Como resultado da exposição das células MCF-7 a BPA, houve pequeno aumento da permeabilidade da membrana plasmática (250 &#181;M), indução dos níveis de ROS após 24 h (25 &#181;M) e aumento da população de células em sub G1, ou seja, com DNA fragmentado (100 &#181;M e 250 &#181;M), mas sem alteração do ciclo celular. No caso de nitro-BPA, foi observada parada do ciclo celular em G2/M (25 &#181;M, 100 &#181;M e 250 &#181;M), assim como aumento de permeabilidade da membrana plasmática após 24 h de incubação (25 &#181;M, 250 &#181;M), sem indução de ROS ou aumento de células em sub G1. Entretanto, observou-se aumento dos níveis de CEdG e 8-oxodG no DNA das células incubadas com BPA (100 &#181;M, 250 &#181;M) sem a ativação prévia de receptores Ah. A ativação dos receptores Ah com PCB levou a menor aumento do nível das lesões após as incubações com BPA. A maior resistência das células MCF-7 aos efeitos citotóxicos do BPA está provavelmente relacionada à ação estrogênica desse xenobiótico. A sinalização estrogênica juntamente com o aumento dos níveis de lesões no DNA aumenta a chance de mutações e de transformação maligna. Nas células com ativação do receptor Ah, BPA levou ainda ao aumento da hidroximetilação global, sem alteração da metilação global do DNA. Os animais não diabéticos expostos ao BPA apresentaram quantidades diminuídas de promielócitos, blastos e bastonetes na medula óssea (aplasia medular), sem alteração no hemograma. Houve aumento dos níveis de CEdG no fígado, da metilação e hidroximetilação global do DNA hepático, e não foi observada alteração das marcas epigenéticas e adutos de DNA no rim ou na urina. Os animais diabéticos expostos ao BPA apresentaram aumento do número de eosinófilos e linfócitos na medula óssea, podendo-se sugerir a indução de um estado inflamatório alérgico, e aumento do número total de hemácias circulantes e do hematócrito. Houve aumento dos níveis de CEdG, da metilação e hidroximetilação global do DNA hepático, aumento dos níveis de 8-oxodG no DNA renal, sem alteração das marcas epigenéticas no rim, e não foi observada alteração dos adutos de DNA na urina. Os dados obtidos apontam para a geração de ROS como uma importante via de cito- e genotoxicidade induzidas por BPA. Sua biotransformação para BPA-3,4- quinona nos modelos utilizados parece ter menor importância para os efeitos, uma vez que não foi detectada a lesão BPA-Gua em nenhuma amostra de DNA, meio de cultura das células ou urina dos animais. Alterações metabólicas induzidas por BPA e ROS podem favorecer as alterações das marcas epigenéticas observadas no DNA das células HL-60, MCF-7 e fígado dos animais. Todas essas alterações podem contribuir para a transformação maligna de células expostas ao BPA. / Bisphenol A (BPA) is a compound widely used in polycarbonate plastic production and widespread in the environment, humans are chronic exposed to BPA in intrauterine period and entire life. The literature suggests the possibility of BPA increase the risk of developing cancers, but studies are required to enable the understanding of mechanisms by which this can occur. HL -60 cells were exposed to BPA or nitro-BPA at concentrations of 25, 100 and 250 uM (0.1% DMSO v/v) for 2, 24 or 48 hours in presence or absence of H2O2 (40 nmol/5x104 cells), MCF-7 cells followed a similar profile of exposure without the use of H2O2, but in presence or absence of Ah agonist receptor (PCB126). Male Sprague-Dawley rats received BPA daily over 4 weeks (50 mg/kg body weight) by gavage in presence and absence of diabetes, with subsequent collection of urine, liver, kidney, bone marrow and circulating blood. The viability, cell cycle, DNA fragmentation and the intracellular production of reactive oxygen species (ROS) was evaluated by flow cytometry, MPO activity and NO production was evaluated by fluorescence assay for HL- 60 cells, mitochondrial activity by XTT assay, and the global DNA methylation was checked by HPLC-PDA. DNA adducts 8-oxodG, CEdG, 1,N6-&#949;dA, 1,N6-&#949;dG and BPA-Gua were quantified by HPLC- ESI-MS/MS in DNA of cells, culture medium, urine and tissue collected from Sprague-Dawley rats. Blood count and bone marrow examination were obtained in collaboration with Experimental Hematology Laboratory of University of Sao Paulo We observed that both BPA and BPANO2 induced ROS generation in HL- 60 cells after 2 hours of incubation. BPA subsequently led to failure of mitochondrial respiratory chain activity, increased permeability of the plasma membrane, DNA fragmentation, arrest in G2/M phase of cell cycle, DNA hypermethylation with global hipohydroxymethylation. We saw low cytotoxicity in HL-60 cells induced by nitro-bpa n the same concentration, without loss of mitochondrial respiratory chain activity, discrete DNA fragmentation, but leading cell cycle to stopping at G0/G1 phase, and induction of DNA global hypermethylation. No lesions were observed in the DNA of HL-60 cells.The results obtained from the exposure of HL-60 cells to BPA and nitro-BPA indicate that these two molecules induce different metabolic abnormalities in this cell line, independent of estrogen pathway, leading to changes in epigenetic (BPA) or genetic and epigenetic (nitro-BPA) profile, that can induce phenotypic consequences such as malignant progression. It was observed along the study that MCF-7 cells are more resistant than HL-60 cells to cell damage induced by BPA and nitro-BPA. As a result of MCF-7 cells exposure to BPA, we saw a slight increase in membrane permeability (250 mM), ROS generation after 24h (25 mM) and increase in cell population in sub G1, so we had DNA fragmentation (100 uM and 250 uM), but with no effect on cell cycle. However, we observed increased levels of CEdG and 8-oxodG on DNA of cells incubated with BPA (100 uM, 250 mM) without prior activation of Ah receptors. The activation of Ah receptors with PCB took a small increase in the level of DNA lesions after incubations with BPA. MCF-7 cells resistance to the cytotoxic effects of BPA is probably related to estrogen action of this compound. Estrogen signaling in addition with the increased levels of DNA damage increases the chance of mutations and malignant transformation. In cells with Ah receptor activation, BPA also led to increased DNA global hydroxymethylation, without changing the global DNA methylation. Nondiabetic animals exposed to BPA had decreased amounts of promyelocytes, blasts and rods in the bone marrow, with any change in blood count. There were an increase of CEdG levels in liver, methylation and global hydroxymethylation on hepatic DNA, and was observed any alteration on epigenetic markers and DNA adducts in kidney or urine. On the other hand diabetic animals exposed to BPA showed increased numbers of eosinophils and lymphocytes in bone marrow, suggesting the induction of an allergic inflammatory state. There were increased levels of CEdG, methylation and global hydroxymethylation on hepatic DNA, increased 8-oxodG levels on kidney DNA without changing epigenetic markers, was not observed DNA adducts in urine. The data obtained indicate that the generation of ROS could be the major route of cytotoxic and genotoxic induced by BPA exposure. BPA biotransformation to BPA-3,4-quinone used in the models seem to have poor effects, since we was not detected BPA-Gua lesion in any DNA sample, culture medium of cells or urine of the animals. Metabolic changes induced by BPA and ROS can enable changes in epigenetic markers observed in the DNA of HL-60 cells, MCF-7 and liver tissue. All these changes may contribute to malignant transformation of cells that were exposed to BPA.
7

Expression von Genen des WNT-Signalwegs in humanen Makrophagen nach MCF-7 Ko-Kultivierung und in murinen Makrophagen nach Mikrovesikel-Stimulation / Expression of genes of the WNT-Pathway in human macrophages after MCF-7 co-culture and in murine macrophages after stimulation with microvesicles

Pantke, Mathias 25 September 2019 (has links)
No description available.
8

Efeitos citotóxicos, genotóxicos e epigenéticos do Bisfenol A em células HL-60, MCF-7 e em ratos / Cytotoxic, genotoxic and epigenetics effects of Bisphenol A on HL-60, MCF-7 cells and rats

André Luiz Teroso Ribeiro 07 December 2015 (has links)
Bisfenol A (BPA) é um insumo largamente utilizado na produção de plástico policarbonato e amplamente difundido no meio ambiente, levando o ser humano à exposição crônica desde o período intrauterino. A literatura aponta a possibilidade de BPA aumentar o risco de diversos tipos de câncer, mas são necessários estudos que possibilitem o entendimento de mecanismos pelos quais isso pode ocorrer. Neste trabalho foram investigados os efeitos do BPA ou nitro-BPA em células HL-60, MCF-7 e tecidos de ratos. Células HL-60 foram expostas ao BPA ou nitro-BPA nas concentrações de 25, 100 e 250 &#181;M (0,1 % DMSO v/v) por 2, 24 ou 48 horas na presença ou ausência de H2O2 (40 nmol/5 x 104 células). Células MCF-7 foram expostas da mesma forma, sem o uso de H2O2, mas na presença e ausência de agonista (PCB) de receptor Ah. Ratos Sprague-Dawley machos receberam BPA diariamente ao longo de 4 semanas (50 mg/kg de peso corpóreo) por gavagem, na vigência e ausência de diabetes, com subsequente coleta de urina, fígado, rins, medula óssea e sangue. Nos experimentos com as células, a viabilidade, ciclo celular, fragmentação do DNA e a produção intracelular de espécies reativas de oxigênio (ROs) foram avaliadas por citometria de fluxo, a atividade da cadeia respiratória mitocondrial pelo ensaio do XTT, e a atividade de MPO de células HL-60 por ensaio de fluorescência, bem como a produção de &#8226;NO. A metilação e hidroximetilação global do DNA e os adutos 8-oxodG, CEdG, 1,N6-&#949;dA, 1,N2-&#949;dG e BPA-Gua no DNA das células, tecidos, meio de cultura e urina foram analisados por HPLC-ESI-MS/MS. O hemograma e mielograma dos animais foram obtidos no Laboratório de Hematologia Experimental da FCF USP. Observou-se que tanto BPA quanto nitro-BPA induziram a geração de ROS em células HL-60 logo após 2h de incubação. BPA levou subsequentemente à perda de atividade da cadeia respiratória mitocondrial, aumento da permeabilidade da membrana plasmática, fragmentação do DNA, parada na fase G2/M do ciclo celular e hipermetilação acompanhada de hipohidroximetilação global do DNA. A citotoxicidade induzida pelas mesmas concentrações de nitro-BPA em células HL-60 foi menos pronunciada, sem perda de atividade da cadeia respiratória mitocondrial, com pouca fragmentação do DNA, mas com parada na fase G0/G1 do ciclo celular e indução de hipohidroximetilação global do DNA na presença de H2O2. Não foi observada a indução de adutos de DNA nas células HL-60 incubadas com BPA, mas sim de CEdG nas células incubadas com nitro-BPA. Os dados obtidos a partir da exposição das células HL-60 a BPA e nitro-BPA nos indicam que as duas moléculas provocam alterações metabólicas distintas nesse tipo celular, independentes da via estrogênica, que levam a alterações predominantemente epigenéticas (BPA) ou genéticas e epigenéticas (nitro-BPA), que podem ter consequências fenotípicas, como progressão maligna, que precisam ser investigadas. Foi observado que as células MCF-7 são mais resistentes que as células HL-60 à citotoxicidade induzida por BPA e nitro-BPA. Como resultado da exposição das células MCF-7 a BPA, houve pequeno aumento da permeabilidade da membrana plasmática (250 &#181;M), indução dos níveis de ROS após 24 h (25 &#181;M) e aumento da população de células em sub G1, ou seja, com DNA fragmentado (100 &#181;M e 250 &#181;M), mas sem alteração do ciclo celular. No caso de nitro-BPA, foi observada parada do ciclo celular em G2/M (25 &#181;M, 100 &#181;M e 250 &#181;M), assim como aumento de permeabilidade da membrana plasmática após 24 h de incubação (25 &#181;M, 250 &#181;M), sem indução de ROS ou aumento de células em sub G1. Entretanto, observou-se aumento dos níveis de CEdG e 8-oxodG no DNA das células incubadas com BPA (100 &#181;M, 250 &#181;M) sem a ativação prévia de receptores Ah. A ativação dos receptores Ah com PCB levou a menor aumento do nível das lesões após as incubações com BPA. A maior resistência das células MCF-7 aos efeitos citotóxicos do BPA está provavelmente relacionada à ação estrogênica desse xenobiótico. A sinalização estrogênica juntamente com o aumento dos níveis de lesões no DNA aumenta a chance de mutações e de transformação maligna. Nas células com ativação do receptor Ah, BPA levou ainda ao aumento da hidroximetilação global, sem alteração da metilação global do DNA. Os animais não diabéticos expostos ao BPA apresentaram quantidades diminuídas de promielócitos, blastos e bastonetes na medula óssea (aplasia medular), sem alteração no hemograma. Houve aumento dos níveis de CEdG no fígado, da metilação e hidroximetilação global do DNA hepático, e não foi observada alteração das marcas epigenéticas e adutos de DNA no rim ou na urina. Os animais diabéticos expostos ao BPA apresentaram aumento do número de eosinófilos e linfócitos na medula óssea, podendo-se sugerir a indução de um estado inflamatório alérgico, e aumento do número total de hemácias circulantes e do hematócrito. Houve aumento dos níveis de CEdG, da metilação e hidroximetilação global do DNA hepático, aumento dos níveis de 8-oxodG no DNA renal, sem alteração das marcas epigenéticas no rim, e não foi observada alteração dos adutos de DNA na urina. Os dados obtidos apontam para a geração de ROS como uma importante via de cito- e genotoxicidade induzidas por BPA. Sua biotransformação para BPA-3,4- quinona nos modelos utilizados parece ter menor importância para os efeitos, uma vez que não foi detectada a lesão BPA-Gua em nenhuma amostra de DNA, meio de cultura das células ou urina dos animais. Alterações metabólicas induzidas por BPA e ROS podem favorecer as alterações das marcas epigenéticas observadas no DNA das células HL-60, MCF-7 e fígado dos animais. Todas essas alterações podem contribuir para a transformação maligna de células expostas ao BPA. / Bisphenol A (BPA) is a compound widely used in polycarbonate plastic production and widespread in the environment, humans are chronic exposed to BPA in intrauterine period and entire life. The literature suggests the possibility of BPA increase the risk of developing cancers, but studies are required to enable the understanding of mechanisms by which this can occur. HL -60 cells were exposed to BPA or nitro-BPA at concentrations of 25, 100 and 250 uM (0.1% DMSO v/v) for 2, 24 or 48 hours in presence or absence of H2O2 (40 nmol/5x104 cells), MCF-7 cells followed a similar profile of exposure without the use of H2O2, but in presence or absence of Ah agonist receptor (PCB126). Male Sprague-Dawley rats received BPA daily over 4 weeks (50 mg/kg body weight) by gavage in presence and absence of diabetes, with subsequent collection of urine, liver, kidney, bone marrow and circulating blood. The viability, cell cycle, DNA fragmentation and the intracellular production of reactive oxygen species (ROS) was evaluated by flow cytometry, MPO activity and NO production was evaluated by fluorescence assay for HL- 60 cells, mitochondrial activity by XTT assay, and the global DNA methylation was checked by HPLC-PDA. DNA adducts 8-oxodG, CEdG, 1,N6-&#949;dA, 1,N6-&#949;dG and BPA-Gua were quantified by HPLC- ESI-MS/MS in DNA of cells, culture medium, urine and tissue collected from Sprague-Dawley rats. Blood count and bone marrow examination were obtained in collaboration with Experimental Hematology Laboratory of University of Sao Paulo We observed that both BPA and BPANO2 induced ROS generation in HL- 60 cells after 2 hours of incubation. BPA subsequently led to failure of mitochondrial respiratory chain activity, increased permeability of the plasma membrane, DNA fragmentation, arrest in G2/M phase of cell cycle, DNA hypermethylation with global hipohydroxymethylation. We saw low cytotoxicity in HL-60 cells induced by nitro-bpa n the same concentration, without loss of mitochondrial respiratory chain activity, discrete DNA fragmentation, but leading cell cycle to stopping at G0/G1 phase, and induction of DNA global hypermethylation. No lesions were observed in the DNA of HL-60 cells.The results obtained from the exposure of HL-60 cells to BPA and nitro-BPA indicate that these two molecules induce different metabolic abnormalities in this cell line, independent of estrogen pathway, leading to changes in epigenetic (BPA) or genetic and epigenetic (nitro-BPA) profile, that can induce phenotypic consequences such as malignant progression. It was observed along the study that MCF-7 cells are more resistant than HL-60 cells to cell damage induced by BPA and nitro-BPA. As a result of MCF-7 cells exposure to BPA, we saw a slight increase in membrane permeability (250 mM), ROS generation after 24h (25 mM) and increase in cell population in sub G1, so we had DNA fragmentation (100 uM and 250 uM), but with no effect on cell cycle. However, we observed increased levels of CEdG and 8-oxodG on DNA of cells incubated with BPA (100 uM, 250 mM) without prior activation of Ah receptors. The activation of Ah receptors with PCB took a small increase in the level of DNA lesions after incubations with BPA. MCF-7 cells resistance to the cytotoxic effects of BPA is probably related to estrogen action of this compound. Estrogen signaling in addition with the increased levels of DNA damage increases the chance of mutations and malignant transformation. In cells with Ah receptor activation, BPA also led to increased DNA global hydroxymethylation, without changing the global DNA methylation. Nondiabetic animals exposed to BPA had decreased amounts of promyelocytes, blasts and rods in the bone marrow, with any change in blood count. There were an increase of CEdG levels in liver, methylation and global hydroxymethylation on hepatic DNA, and was observed any alteration on epigenetic markers and DNA adducts in kidney or urine. On the other hand diabetic animals exposed to BPA showed increased numbers of eosinophils and lymphocytes in bone marrow, suggesting the induction of an allergic inflammatory state. There were increased levels of CEdG, methylation and global hydroxymethylation on hepatic DNA, increased 8-oxodG levels on kidney DNA without changing epigenetic markers, was not observed DNA adducts in urine. The data obtained indicate that the generation of ROS could be the major route of cytotoxic and genotoxic induced by BPA exposure. BPA biotransformation to BPA-3,4-quinone used in the models seem to have poor effects, since we was not detected BPA-Gua lesion in any DNA sample, culture medium of cells or urine of the animals. Metabolic changes induced by BPA and ROS can enable changes in epigenetic markers observed in the DNA of HL-60 cells, MCF-7 and liver tissue. All these changes may contribute to malignant transformation of cells that were exposed to BPA.
9

Efeitos do tratamento com selênio no crescimento e marcas epigenéticas de células de adenocarcinoma mamário humano MCF-7 / Effects of selenium treatment on growth and epigenetic marks of MCF-7 human breast adenocarcinoma cells

Juliana Xavier de Miranda 05 November 2012 (has links)
O câncer de mama representa problema mundial de saúde pública e a causa mais frequente de morte por câncer entre as mulheres. A identificação de agentes moduladores de marcas epigenéticas, tais como metilação global do DNA e modificações pós-tradução em histonas, compreende alternativa promissora para estabelecimento de estratégias de controle da carcinogênese mamária. Dentre os nutrientes, o elemento traço essencial selênio (Se) pode ser destacado como agente dietético com potencial anti-câncer de mama e que poderia atuar modulando processos epigenéticos. Entretanto seus mecanismos de ação são pouco elucidados. Este estudo objetivou, assim, identificar efeitos do tratamento com selênio no crescimento e marcas epigenéticas de células de adenocarcinoma mamário humano MCF-7. Células MCF-7, positivas para o receptor de estrógeno, foram tratadas com ácido metilselenínico (MSA) ou selenito de sódio (ST) por diferentes tempos e em diferentes concentrações. Foram avaliados: padrão de proliferação (ensaio cristal violeta) e viabilidade celular (método de exclusão azul de tripan); integridade de membrana plasmática (citometria de fluxo); níveis de fragmentação do DNA (citometria de fluxo), distribuição das fases do ciclo celular (citometria de fluxo); apoptose (citometria de fluxo/ marcação dupla com Anexina V - Iodeto de propídio); níveis de lisina 9 acetilada (H3K9ac) e trimetilada (H3K9me3) em histona H3; níveis de lisina 16 acetilada (H4K16ac) em histona H4 (Western blot); padrão de metilação global do DNA (HPLC-DAD); expressão de gene supressor de tumor (RASSF1a; qPCR) e padrão de metilação da região promotora (RASSF1a e RAR&#946;; MS-PCR); expressão da enzima DNA metilstransferase 1 (DNMT1) (Western Blotting). Comparado ao grupo controle de células não tratadas (GC), ambos os tratamentos com MSA ou ST inibiram a proliferação e viabilidade de células MCF-7 de forma dose e tempo dependente. Ambas as formas químicas de Se induziram a parada do ciclo celular, aumentando (p< 0,05) a proporção de células na fase G2/M e reduzindo (p< 0,05) a proporção daquelas nas fases G0/G1 e S. Os tratamentos com MSA favoreceram a morte celular por apoptose, que foi associada com nível de fragmentação de DNA aumentado (p< 0,05), e reduzida ruptura da membrana plasmática associada com a exposição aumentada (p< 0,05) de fostadilserina. Por outro lado, o ST aumentou (p< 0,05) a fragmentação do DNA e (p< 0,05) a positividade ao iodeto de propídio associado à indução de necrose (p< 0,05). Dentre os mecanismos epigenéticos investigados, 1,6&#181;M e 2&#181;M reduziram a acetilação de H3K9ac (72h; p< 0,05) e aumentaram a de H4K16ac (96h; p< 0,05). O tratamento por 96h com 2&#181;M de MSA reduziu (p< 0,05) a metilação de H3K9me3. Ambos MSA e ST não alteraram o padrão de metilação global do DNA, mas reduziram a expressão de DNMT1, após 96h com 2&#181;M de MSA (p< 0,001; 88%) e após 120h com 10&#181;M de ST (p< 0,001; 96%). ST, mas não o MSA, aumentou (p< 0,05; 45%) a expressão do gene RASSF1a. Em ambos os grupos tratados com MSA ou ST, bem como no GC, a região promotora dos genes RASSF1a e RAR estavam predominantemente metiladas. Estes resultados fornecem evidências de que as ações anti-câncer de mama de compostos do selênio dependem de sua forma química. Além disso, a modulação de processos epigenéticos parecem ser relevantes para as ações inibitórias do MSA em células de câncer de mama. / Breast cancer is a global public health problem and the most frequent cause of cancer death among women. The identification of agents able to modulate epigenetic marks, such as global DNA methylation and histone post-translational modifications, comprises promising alternative for establishing control strategies on mammary carcinogenesis. Among the nutrients, the essential trace element selenium (Se) can be highlighted as a dietary agent with potential anti-breast cancer and could act by modulating epigenetic processes. However its mechanisms of action are poorly understood. This study aimed, therefore, to identify the effects of selenium treatment on growth and epigenetic marks of MCF-7 human breast adenocarcinoma cells. MCF-7 cells, positive for estrogen receptor, were treated with methylseleninic acid (MSA) or sodium selenite (ST) for different times and in different concentrations. Evaluated parameters included: cell proliferation (crystal violet assay) and cell viability (trypan blue exclusion assay); plasma membrane integrity (flow cytometry); levels of DNA fragmentation (flow cytometry), apoptosis (flow cytometry - double labeling with Annexin V - propidium iodide); distribution of cell cycle phases (flow cytometry); acetylated (H3K9ac) and trimethylated (H3K9me3) lysine 9 levels on histone H3; acetylated (H4K16ac) lysine 16 level on histone H4 (Western blot); global DNA methylation (HPLC-DAD); tumor suppressor gene expression (RASSF1a; qPCR) and promoter methylation (RASSF1a, RAR&#946;; MS-PCR); DNA methyltransferase 1 (DNMT1) expression (Western blot). Compared to untreated cells (controls), both MSA and ST inhibited (p< 0.05) MCF-7 cell proliferation and viability in a dose- and time-dependent manner. Treatments with MSA favored cell death by apoptosis, that was associated with increased (p< 0.05) DNA fragmentation level, reduced plasma membrane rupture associated with high (p< 0.05) phosphatidylserine exposure. On the other hand, ST increased (p< 0.05) DNA fragmentation, enhanced (p< 0.05) propidium iodide positivity associated to necrosis induction (p< 0,05). Both chemical forms of Se induced nduced cell cycle arrest, increasing (p< 0.05) the proportion of cells in G2/M phase and reducing (p< 0.05) the proportion of those in G0/G1 and S phases. Among the epigenetic mechanisms investigated, 1.6&#181;M and 2&#181;M of MSA reduced acetylation of H3K9ac (72h, p< 0.05) and increased the H4K16ac (96h, p< 0.05). The treatment for 96h with 2&#181;M of MSA reduced (p< 0.05) the H3K9me3 methylation. Neither MSA nor ST altered (p> 0.05) global DNA methylation, while both compounds reduced (p< 0.05) DNMT1 protein expression, after 96h with 2&#181;M of MSA (p< 0.001; 88%) and after 120h with 10&#181;m of ST (p< 0.001; 94%). ST, but not MSA, increased (p< 0.05; 45%) RASSF1a gene expression. In control and Se-treated cells promoter regions of RASSF1a and RAR&#946; were predominantly methylated. These results provide evidence that the anti-breast cancer actions of selenium compounds depend on its chemical form. Additionally, modulation of epigenetic processes seems to represent a relevant feature of MSA inhibitory effects in breast cancer cells.
10

Insulator Based Dielectrophoretic Trapping of Single Mammalian Cells

January 2013 (has links)
abstract: This work demonstrated a novel microfluidic device based on direct current (DC) insulator based dielectrophoresis (iDEP) for trapping individual mammalian cells in a microfluidic device. The novel device is also applicable for selective trapping of weakly metastatic mammalian breast cancer cells (MCF-7) from mixtures with mammalian Peripheral Blood Mononuclear Cells (PBMC) and highly metastatic mammalian breast cancer cells, MDA-MB-231. The advantage of this approach is the ease of integration of iDEP structures in microfliudic channels using soft lithography, the use of DC electric fields, the addressability of the single cell traps for downstream analysis and the straightforward multiplexing for single cell trapping. These microfluidic devices are targeted for capturing of single cells based on their DEP behavior. The numerical simulations point out the trapping regions in which single cell DEP trapping occurs. This work also demonstrates the cell conductivity values of different cell types, calculated using the single-shell model. Low conductivity buffers are used for trapping experiments. These low conductivity buffers help reduce the Joule heating. Viability of the cells in the buffer system was studied in detail with a population size of approximately 100 cells for each study. The work also demonstrates the development of the parallelized single cell trap device with optimized traps. This device is also capable of being coupled detection of target protein using MALDI-MS. / Dissertation/Thesis / Ph.D. Chemistry 2013

Page generated in 0.0422 seconds