Uso de fibroblastos em processo de morte celular programada como doadores de núcleos na técnica de transferência nuclear em bovinos / Fibroblasts in programmed cell death as nuclear donors for nuclear transfer in bovines

Moysés dos Santos Miranda

19 March 2009

Diversos tipos celulares nas mais variadas condições têm sido usados como doadores de núcleo para a TN. Ainda não está claro se o estado fisiológico destas células afeta o posterior desenvolvimento dos embriões. Neste trabalho, testou-se a hipóese que fibroblastos bovinos em processo de MCP podem ser reprogramados na transferência nuclear. Fibroblastos foram cultivados até atingirem 60% de confluência, sincronizados por restrição de soro durante 24h e em seguida a MCP foi analisada por citometria de fluxo com a ténica da Anexina V/Iodeto de propídeo. Células Anexina positivas (MCP) e Anexinanegativas (Vivas) foram separadas por citometria de fluxo e utilizadas para a TNS. Céulas não coradas e não separadas no citômetro serviram como controle (Controle). Os embriões reconstruídos foram avaliados quanto à fusão, clivagem (2º dia de cultivo), blastocisto (7º dia) e prenhez (D30, D60 e nascimento). O índice de MCP dos blastocistos obtidos foi determinado. Os resultados foram analisados pela ANOVA ou teste de X2 com nível de significância de 5%. Não houve efeito nas taxas de fusão (p>0,05). Embriões reconstruídos com células MCP tiveram menor taxa de clivagem e formação de blastocistos (72,7% e 18,8%, respectivamente) em comparação ao grupo reconstruído com células Vivas (83,4% e 34,7%, respectivamente; p<0,05), não diferindo dos embriões Controle (77,3% e 27,3%, respectivamente; p>0,05). O índice de MCP do grupo de embriões MCP foi similar aos índices dos embriões clonados a partir de células Vivas e Controle (p>0,05). Após a transferência para receptoras, os grupos MCP, Vivas e Controle não diferiram com relação à taxa de prenhez aos 30d (18,1%, 13,3% e 27,5%, respectivamente; p>0,05). Entretanto aos 60d, a perda gestacional no grupo MCP (25%) foi inferior a do grupo Vivas (100%) e Controle (62,5%). Somente um nascimento, do grupo MCP (4,5% dos embriões transferidos), foi obtido no experimento. Conclui-se que células em processo de MCP, podem ser reprogramadas quando utilizadas como doadoras de núcleo na técnica de transferência nuclear, podendo estabelecer gestações e nascimentos, entretanto houve um efeito prejudicial nas taxas de desenvolvimento embrionário até o estádio de blastocisto assim como houve aumento do índice de MCP nos embriões reconstruídos. / It is not clear if the physiological status of the cells can affect further embryonic development in NT. We hypothesized that adult bovine fibroblasts in PCD can be reprogrammed when used as nuclear donors for cloning. Fibroblasts were cultivated until 60% confluency, synchronized by serum starvation for 24 h and stained with Annexin V and Propidium iodide (PI) by flow citometry. Annexin positive cells (PCD cells) and Annexin negative cells (Live cells) were sorted and used for NT. Unsorted, unstained cells were used as control (Control cells). After reconstruction, fusion, cleavage (day 2 of culture), blastocyst (day 7) and pregnancy rates (day 30, 60 and birth) were recorded. Apoptotic index of the embryos was determined by TUNEL. Data were analyzed with ANOVA and Chi-square test with 5% of significance level. There was no effect on fusion rates (p>0.05). Embryos reconstructed with PCD cells had lower cleavage and blastocyst rates (72.7 and 18.8%, respectively) compared with embryos reconstructed with Live cells (83.4 and 34.7%, respectively; p<0.05). Apoptotic index in embryos produced from cells in PCD was similar compared to embryos produced from Live and Control cells (p>0.05). Pregnancy rates were similar between cloned groups on day 30 after embryo transfer (p>0.05). However it was observed a reduced pregnancy loss in PCD group on day 60 (25%) compared with Control (62.5%) and Live (100%) groups. Only one calf, from PCD cells (4.5% of the transferred embryos), has been obtained in this experiment. In conclusion, it was showed that cells in PCD process can be reprogrammed when used as nuclear donors after NT producing even live animals. However, a negative effect on embryonic development and an increase in the apoptotic index of these embryos was observed.

Morte celular programada

Separação celular

Transferência nuclear

Cell sorting

Nuclear transfer

Programmed cell death

Avaliação das vias de sinalização de danos e indução de citocinas inflamatórias na presença da toxina BthTX-I, isolada da peçonha de Bothrops jararacussu / Evaluation of damage signaling pathways and induction of inflammatory cytokines in the presence of BthTX-I, isolated from Bothrops jararacussu snake venom

Cássio Prinholato da Silva

19 October 2012

As fosfolipases são bastante estudadas e podem ser encontradas de forma abundante nas peçonhas. Algumas fosfolipases que sofrem modificação no resíduo 49 com a substituição do aminoácido Asp por Lys, o que provoca perda do seu sítio catalítico, são classificadas como miotoxinas. A miotoxina BthTX-I foi isolada da peçonha de Bothrops jararacussu, possui 121 resíduos de aminoácidos, pI 8,2 e massa molecular de 13kDa. O objetivo do presente projeto foi avaliar a ação da BthTX-I, quanto à sua ação citotóxica, indutora de morte celular, interferência na cinética celular e expressão de genes responsáveis pela morte celular em quatro linhagens tumorais, HL-60 (leucemia promielocítica), HepG-2 (hepatocarcinoma humano), PC-12 (feocromacitoma murino) e B16F10 (melanoma murino). Também foi analisada a indução de citocinas inflamatórias IL-8 e TNF-? em linhagens humanas HL-60 e HepG2. A citotoxicidade, avaliada pela metodologia do MTT, apresentou valores citotóxicos em torno de 62, 53, 53 e 63%, respectivamente para HepG2, HL-60, PC12 e B16F10. A toxina mostrou ação moduladora do ciclo celular na fase S em células HepG2; na fase G2/M em células HL-60. Nas linhagens B16F10 e PC-12 a toxina provocou atraso na fase G0/G1 e redução de células na fase S e G2/M. O perfil eletroforético em gel de agarose a 1,5% mostrou fragmentação do conteúdo do DNA, indicando possível apoptose, que foi confirmada pelo ensaio de morte celular por citometria de fluxo. O ensaio revelou que a linhagem B16F10 tem maior índice apoptótico (~40%), seguido da HepG2 (~35%), PC-12 (~25%) e HL-60 (~4%). A indução de citocinas pela metodologia de ELISA apresentou valores elevados de IL-8 para linhagem HL-60 (~400 pg/mL) e HepG2 (~400 pg/mL), sugerindo uma possível quimiotaxia/migração de células de defesa. TNF- ? também apresentou alteração em seus níveis representando cerca de 150 pg/mL na linhagem HepG2. A expressão dos genes Bax, Bcl-2 e p53 demonstrou que o gene p53 se altera somente na linhagem HepG2, todavia a expressão dos genes Bax e Bcl-2 mostrou ser diferente para cada linhagem. Em células B16F10 a toxina aumentou os níveis de Bax e diminuiu os níveis de Bcl-2 enquanto que, as células PC-12 exibiram aumento nos níveis de ambos. Em HepG2 houve redução da expressão do gene antiapoptótico Bcl-2 e valor inalterado de Bax, ao passo que a linhagem HL-60 apresentou resultado contrário ao de células HepG2, com aumento na expressão de Bax e valores inalterados de Bcl-2. Assim a toxina mostra diferente ação na expressão dos genes responsáveis pela apoptose em diferentes linhagens celulares, mostrando que a BthTX-I influencia a expressão desses genes, ou promove apenas a alteração de dessses, levando assim à apoptose celular das linhagens tratadas com a miotoxina. Diante dos dados obtidos ficou evidenciado o potencial antitumoral da BThTX-I levando a busca de outros mecanismos de atuação da toxina, abrindo perspectivas de sua aplicação biotecnológica para a produção de novo fármaco antitumoral e tornando-se uma terapia alternativa a essa enfermidade. / Phospholipases are widely studied and can be found in abundance in several animal venoms. Some phospholipases, classified as myotoxins, present a modification at residue 49, with replacement of the amino acid Asp by Lys, causing loss of their catalytic site. BthTX-I was isolated from the venom of Bothrops jararacussu and is a myotoxin with 121 amino acid residues, pI 8.2 and a molecular mass of 13kDa. The aim of this study was to evaluate BthTX-I regarding its cytotoxic action, induction of cell death, interference with cell kinetics and expression of genes responsible for cell death in four tumor cell lines: HL-60 (promyelocytic leukemia), HepG2 (human hepatocellular carcinoma), PC-12 (murine pheochromocytoma) and B16F10 (murine melanoma). The induction of inflammatory cytokines (IL-8 and TNF-?) in the human cell lines HepG2 and HL-60 was also analyzed. Cytotoxicity, as assessed by the MTT methodology, showed values around 62, 53, 53 and 63% for HepG2, HL-60, PC12 and B16F10, respectively. The toxin showed modulating action of the cell cycle in the S phase in HepG2 cells, in the G2/M phase in HL-60 cells and delay in the G0/G1 phase. The toxin also caused a delay in the G0/G1 phase and reduced the number of cells in the S and G2/M phases in B16F10 and PC-12 cell lines. The electrophoretic profile on 1,5% agarose gel showed fragmentation of DNA content, possibly indicating apoptosis, which was confirmed by flow cytometry cell death assays. This assay revealed that B16F10 cells presented a higher apoptotic rate (~40%), followed by HepG2 (~35%), PC-12 (~25%) and HL-60 (~4%) cells. Induction of cytokines analyzed by ELISA showed high levels of IL-8 in HL-60 (~400 pg/mL) and HepG2 (~400 pg/mL) cells, suggesting a possible chemotaxis and migration of immune cells. The levels of TNF-? also showed changes, representing about 150 pg/mL in HepG2 cells and 14 pg/mL in HL-60 cells. Gene expression of Bax, Bcl-2 and p53 showed that the p53 gene did not change only in HepG2 cells, with the gene expression of Bax and Bcl-2 being different for each cell line. The toxin increased the levels of Bax and decreased the levels of Bcl-2 in B16F10 cells, while PC-12 cells showed increased levels of both genes. Regarding HepG2 cells, a decrease in the expression of the antiapoptotic gene Bcl-2 was observed, with unchanged values for Bax, while opposite results were observed for HL-60 cells, with increased expression of Bax and unchanged values of Bcl-2. Thus, the toxin showed different actions on the expression of genes responsible for apoptosis in different cell lines, showing that BthTX-I influences the expression of both genes, promoting changes in one or another apoptotic gene, thus leading the tumor cell lines treated with this myotoxin to apoptosis. The obtained data evidenced the antitumor potential of BthTX-I, leading to the search for other mechanisms of action of this toxin and opening prospects for its biotechnological applications for the production of new anti-cancer drugs.

apoptose

BthTX-I

miotoxina

morte celular

apoptosis

BthTX-I

cell death.

myotoxin

Efeitos da luz UV-A e visível em células da pele e no cabelo / Effects UV-A and visible light on skin cells and hair

Orlando Chiarelli Neto

22 September 2014

A luz solar apresenta ondas eletromagnéticas em ampla faixa espectral, incluindo as regiões do ultravioleta (UV-C, UV-B, UV-A), visível e infravermelho. Cada região interage com a pele de forma dependente da fotofísica e da fotoquímica dos seus respectivos compostos absorvedores. A luz UV-A causa a geração de espécies reativas de oxigênio e de nitrogênio (EROs e ERNs) através da fotossensibilização de moléculas endógenas (co-enzimas de flavina, porfirinas, melaninas). Quando fotossensibilizadores produzem quantidades de EROs e ERNs maiores do que a capacidade celular de supressão destas espécies, caracteriza-se um quadro de desbalanço redox, que causa lesão em biomoléculas como os ácidos nucleicos, lipídeos e as proteínas. Essas lesões podem levar à morte celular ou a outras transformações fenotípicas e genotípicas e também estimulam a liberação de citocinas pró-inflamatórias. Com a finalidade de melhor compreender a dinâmica dos mecanismos de resposta celular após exposição ao UV-A e ao visível, nós caracterizamos inicialmente as propriedades fotofísicas da melanina e detectamos a produção de oxigênio singlete (1O2) pela fotossensibilização no visível e a supressão desta espécie excitada pela reação do oxigênio singlete com a dupla ligação reativa dos grupos indóis presentes na melanina. Estes processos também foram observados no cabelo e levaram-nos a propor um modelo que explica o efeito da luz visível na estrutura e cor dos cabelos. Demonstramos também que a feomelanina produz mais (30%) 1O2 do que a eumelanina, que sofre maior modificação na sua estrutura por fotodegradação. O efeito destes processos na pele foi estudado a nível celular. Demonstramos que células epiteliais com maior teor de melanina apresentaram maior geração de 1O2 que causa lesão no DNA e morte necro-apoptótica após irradiação com luz visível. A foto-oxidação da melanina pela luz visível nos motivou a estudar um pigmento que fosse foto-protetor não somente contra luz UV-B mas também contra luz visível. A pigmentação com Acetil-Tirosina se mostrou atóxica e protetora contra luz UV-B e visível ao contrário do pigmento com tirosina, que se mostrou protetor do UV-B mas tóxico no visível. Este efeito foi relacionado com a localização celular do polímero e não com a estrutura do mesmo. A luz UV-A, por sua vez, promove o acúmulo de lipofuscina dentro dos vacúolos autofágicos de queratinócitos da pele e que também ativa a fototoxicidade pela luz visível. A lipofuscina dentro dos vacúolos autofágicos é foto-oxidada pela luz visível, causando lesão no DNA e morte celular programada tipo II. Doses UV-A que desencadeiam a liberação de citocinas também foram caracterizados. / Sunlight presents electromagnetic radiation over a wide spectral range, including the regions of ultraviolet (UV-C, UV-B, UV-A), visible and infrared. Each region interacts with skin dependending on the photophysics and photochemistry of the respective absorbing compounds. UV-A light causes the generation of reactive oxygen and nitrogen species (ROS and RNS) by photosensitization of endogenous molecules (flavin coenzymes, porphyrins, melanins). When photosensitizers produce amounts of ROS and RNS larger than the cell capacity to suppress these species, a set of redox imbalance, which damages biomolecules such as nucleic acids, lipids and proteins. This damage cause cell death and to other phenotypic and genotypic changes and also stimulates the release of proinflammatory cytokines. In order to better understand the dynamics of the mechanisms of cellular responses after exposure to UV-A and visible light, we initially characterized the photophysical properties of melanin and detected the production of singlet oxygen (1O2) by photosensitization in the visible, as well as the suppression of these excited species by reaction of singlet oxygen with the double bonds of the reactive groups presented in the melanin indols. These processes were also observed in hair and led us to propose a model that explains the effects of visible light on the structure and color of hair. We also demonstrated that pheomelanin produces more (30%) 1O2 than eumelanin, which undergoes a quick change on its structure by photodegradation. The effect of these processes in the skin was studied at the cellular level. We demonstrated that epithelial cells with larger melanin content have stronger generation of 1O2, which causes DNA damage and necro-apoptotic death after irradiation with visible light. The photo-oxidation of melanin by visible light has motivated us to study a pigment that was not only able to protect against UV-B but also against visible. Pigmentation with Acetyl-Tyrosine proved nontoxic and protective against UV-B and visible light instead of pigmentation with Tyrosine, which shielded against UV-B but showed toxicity in the visible. This effect was associated with the polymer, cell location and not with its structure. UV-A light, in turn, promotes the accumulation of lipofuscin, within autophagic vacuoles of keratinocytes also enabling phototoxicity in the visible light. The lipofuscin within the autophagic vacuoles is fotooxidized by visible light, causing DNA damage and programmed cell death type II. Linear dose of UV-A that trigger the release of cytokines were also characterized.

EROs

Melaninas

Morte celular

Sinalização

UV-A

Visível

Cell death

Melanins

ROS

Signaling

UV-A

Visible

Relação entre a duração do estímulo e lesão de miócitos cardíacos por campos elétricos de alta intensidade = Relation between stimulus duration and injury to cardiac myocytes by high electric fields / Relation between stimulus duration and injury to cardiac myocytes by high electric fields

Prado, Luiza Naiara Siqueira do, 1989-

24 August 2018

Orientador: Pedro Xavier de Oliveira / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-24T14:24:09Z (GMT). No. of bitstreams: 1 Prado_LuizaNaiaraSiqueirado_M.pdf: 1448858 bytes, checksum: 14894261e1f5acfa5c112a5bd731af13 (MD5) Previous issue date: 2014 / Resumo: Apesar de a aplicação de campos elétricos de alta intensidade ser atualmente a única terapia disponível para interromper a fibrilação ventricular, esse processo pode causar lesões às células cardíacas, prejudicando sua contratilidade. Neste estudo, aplicamos pulsos elétricos de alta intensidade a miócitos isolados de ratos Wistar adultos. Obtivemos as curvas de letalidade por meio de análise de sobrevivência, que foram usadas para determinar a intensidade de campo necessária para matar 50% das células (EL50) e com esses valores obtivemos a curva de intensidade-duração (IxD) para letalidade para 10 durações diferentes: 0,1; 0,2; 0,5; 1; 3; 5; 10; 20; 35 e 70 ms. Também obtivemos a curva IxD para excitação celular, por meio dos valores de média ± erro padrão da média para a intensidade de campo limiar de excitação para todas as durações, e obtivemos uma relação entre letalidade e excitação em função da duração do pulso, chamada de Fator de Segurança (FS), um indicador de segurança estimulatória. Essa curva foi determinada a partir da divisão entre os pontos das curvas IxD de letalidade e excitação. Observamos que quanto me-nor a duração de pulso, maior a intensidade de campo que causa morte celular. Ao contrário do que se esperava, o maior valor de FS não correspondeu à menor duração utilizada (0,1 ms), mas sim à duração de 0,5 ms. Como o limiar de desfibrilação foi descrito como dependente da duração do pulso aplicado, nossos resultados indicam que o uso de estímulos com duração mais curta - em vez da duração tipicamente usada na clínica, de 10 ms - pode diminuir as lesões celulares, e, portanto, aumentar a efetividade da desfibrilação / Abstract: Although high intensity electric fields application is currently the only effective therapy available to terminate ventricular fibrillation, it may cause injury to cardiac cells, impairing their contractility. In this study we applied high electric field pulses with different durations to isolated rat ventricular myocytes. We obtained lethality curves by survival analysis, which were used to determine the value of applied electric field necessary to kill 50% of cells (EL50) and plotted a strength-duration (IxD) curve for lethality with 10 different durations: 0.1, 0.2, 0.5, 1, 3, 5, 10, 20, 35 and 70 ms. For the same durations we also obtained an IxD curve for excitation and established an indicator for stimulatory safeness, named Safety Factor (FS), as the ratio between the points on the IxD curve for lethality and the one for excitation. We found that the lower the pulse duration, the higher the electric field intensity required to cell death. Contrary to expecta-tions, the highest FS value does not correspond to the lowest pulse duration but to the one of 0.5 ms. As defibrillation threshold has been described as duration dependent, our results imply that the use of shorter stimulus duration - instead of the one typically used in the clinic (10 ms) - may decrease electric cell damage, therefore increasing defibrillation effectiveness / Mestrado / Engenharia Biomedica / Mestra em Engenharia Elétrica

Estimulação elétrica

Eletroporação

Miócitos cardíacos

Morte celular

Electrical stimulation

Electroporation

Cardiac myocytes

Cell death

Expressão ectópica de miR-34a em células de melanoma metastático humano = efeitos sobre vias de sinalização relacionadas com sobrevivência, proliferação e morte celular = Ectopic expression of miR-34a in human metastatic melanoma cells: effects on signaling pathways related to survival, proliferation and cell death / Ectopic expression of miR-34a in human metastatic melanoma cells : effects on signaling pathways related to survival, proliferation and cell death

Abrantes, Julia Laura Fernandes, 1984-

22 August 2018

Orientador: Carmen Veríssima Ferreira Halder / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-22T16:08:32Z (GMT). No. of bitstreams: 1 Abrantes_JuliaLauraFernandes_D.pdf: 4562084 bytes, checksum: fba9dbca16cd31c006b311ff23a0b41b (MD5) Previous issue date: 2013 / Resumo: O melanoma é o tipo mais agressivo de câncer de pele. Seu tratamento permanece como um grande desafio, já que em estágio avançado torna-se extremamente refratário aos tratamentos convencionais. miR-34a é um microRNA supressor de tumor com expressão normalmente reduzida em células cancerosas. A fim de investigar o papel de miR-34a como supressor do melanoma, o principal objetivo deste estudo foi identificar alvos moleculares modulados pela expressão ectópica de miR-34a na linhagem celular de melanoma metastático humano SK-mel-103. miR-34a reduziu significativamente a viabilidade das células de melanoma, o que deve estar relacionado, pelo menos em parte, com o aumento na expressão da proteína pró-apoptótica Bax, ativação da caspase-3 e clivagem da PARP-1. Estes dados sugerem que miR-34a foi capaz de induzir apoptose nas células de melanoma. Além disso, houve redução na expressão de CDK4, CDK6, E2F3 e pRb, proteínas relacionadas com a progressão do ciclo celular. Aumento na expressão de p21, um inibidor de CDKs, também foi observado nessas células. Algumas moléculaschave envolvidas com os processos de proliferação celular e apoptose, como proteínas oncogênicas (Axl, AKT, ERK 1/2, ?-catenina e c-myc) e proteínas supressoras de tumor (p53 e PTEN), foram "down- e upreguladas" por miR-34a, respectivamente. Interessantemente, o fluxo autofágico foi aumentado por miR-34a, efeito que não foi correlacionado com alterações adicionais na viabilidade das células de melanoma. O aumento no fluxo autofágico ocorreu, provavelmente, como uma resposta celular ao estresse de retículo e a agregação de proteínas induzidos por miR-34a, fenômenos que também podem ter contribuído para a indução de apoptose nesse contexto. Os dados obtidos neste estudo trouxeram novos aspectos moleculares da ação de miR-34a como supressor tumoral, e permitem apontar este microRNA como um potencial alvo terapêutico contra o melanoma metastático humano / Abstract: Melanoma is the most aggressive form of skin cancer. Its treatment remains a big challenge, since in advanced stage it is extremely refractory to conventional treatments. miR-34a has emerged as an important tumor suppressor, and its expression is normally reduced in cancer cells. To provide more information about the role of miR-34a as a melanoma suppressor, the main goal of this study was to identify key molecular players modulated by ectopic expression of this microRNA in the metastatic melanoma cell line SK-mel-103. miR-34a caused a reduction of melanoma cells viability, what may be related, at least in part, with the increased expression of pro-apoptotic marker, Bax, activation of caspase 3 and PARP-1 cleavage, which indicates that miR-34a triggered apoptosis in melanoma cells. In addition, the expression of CDK4, CDK6, E2F3 and pRb, proteins related to the cell cycle progression, was reduced. An increase in p21 expression, a CDK inhibitor, was also detected in these cells. Some key molecules involved with proliferation and apoptosis processes, such as oncogenic proteins (Axl, AKT, ERK 1/2 kinases, ?- catenin and c-myc) and tumor suppressor proteins (p53 and PTEN), were down- and upregulated by miR-34a, respectively. Interestingly, the autophagic flux was stimulated by miR-34a, but this effect was not correlated with further alterations in cell viability. The increased autophagy occurred probably as a cellular response against the reticulum stress and the protein aggregation induced by miR-34a in melanoma cells, which can also be contributing to the cell death by apoptosis in this context. Our findings brought up novel molecular aspects about the role of miR-34a as melanoma suppressor. The broad action of this microRNA on key molecular players of melanoma aggressiveness was crucial for reprogramming these cells in favor of apoptosis. Altogether, this study pointed out miR-34a as a potential therapeutic agent against advanced melanoma / Doutorado / Bioquimica / Doutora em Biologia Funcional e Molecular

Câncer

Melanoma

MicroRNAs

Sinalização celular

Morte celular

Cancer

Melanoma

MicroRNAs

Cell signaling

Cell death

Molecular targeting for tumor radiosensitization: implications of apoptosis and autophagy signaling in combined anticancer therapy

Moretti, Luigi

19 November 2015

The central hypothesis supporting the present work is that the effectiveness of radiation therapy for cancer is often limited due to defects in key apoptosis regulators, such as Bcl-2 family members, that contribute to cancer ability to evade apoptosis. One way to bypass this resistance to radiotherapy is to target cell death pathways, aiming to sensitize tumours to radiation and enhance the therapeutic ratio in cancer. To test this central hypothesis, we took a dual approach: one targeted apoptosis and the other targeted autophagy. / First, we focused on the apoptotic signaling. The Bcl-2 family comprises antiapoptotic members, such as Bcl-2, Mcl-1, and Bcl-XL, and proapoptotic members, such as Bax, Bak, and Bid. The Bcl-2 family controls the integrity of the outer mitochondrial membrane and is critical in determining the susceptibility of cells to apoptosis induced by the intrinsic pathway. The balance between cell survival and cell death is modulated by the ratios and interactions of antiapoptotic and proapoptotic Bcl-2 family proteins. Overexpression of Bcl-2 or Bcl-XL is observed in several cancers, including lung, colorectal, prostate, and breast cancers, and has been shown to confer resistance to various anticancer agents, including radiotherapy. In cancer cells, alterations in the amounts of these antiapoptotic Bcl-2 proteins promote cell survival, among others by contributing to their evasion from treatment-induced apoptosis. We made the observation that lung cancer cells have different radiosensitivity. On the basis of their relative response to radiotherapy, we stratified lung cancer cells into two groups (higher or lower sensitivity), and selected a representative cell line of each group for more in-depth study: A549 (resistant) and HCC2429 (sensitive). We found that the expression levels of Bcl-XL expression, which is antiapoptotic, was dramatically higher in A549, whereas almost not detected in HCC2429. We then hypothesized that AT-101, a pan-Bcl-2 inhibitor, had the potential to radiosensitize lung cancer by restoring radiation-induced apoptosis. When administered alone, AT-101 resulted in increased apoptosis in a concentration-dependent manner in both groups, with enhanced activity in HCC2429 even at lower concentration. Furthermore, AT-101 promoted radiosensitivity of A549 and HCC2429 cells (p < 0.005). A549 cells required increased AT-101 dose to achieve the same level of cytotoxicity than HCC2429 cells. These investigations suggest that the Bcl-2 family members may serve as effective therapeutic targets in lung cancer. However, the potential of AT-101 as an agent that enhances the therapeutic ratio of radiotherapy varies depending on the lung cancer clone. / Next, we turned to a different approach, focusing on the inhibition of apoptosis instead of its promotion. This work hypothesis was based on previous observations looking at the role of radiation-induced apoptosis by knockdown of Bak and Bax. The radiosensitivity of breast and lung cancer in vitro was increased through autophagy, an alternate type of programmed cell death. Consistently, radiation-induced apoptosis accounts for a minor portion of cell death in irradiated solid tumors. The hypothesis of our work was that apoptosis inhibition would increase radiation-induced autophagy and tumor sensitivity to radiation. To block apoptosis, we used Z-VAD, a broad-spectrum caspase inhibitor, and examined its in vitro and in vivo effects on breast and lung cancer models. Z-VAD markedly radiosensitized breast and lung cancer cells in vitro, with a radiation dose enhancement ratio of 1.31 (P < 0.003). The enhanced tumor cytotoxicity was associated with induction of autophagy. In both breast and lung cancer mice xenograft models, the administration of Z-VAD concurrent with radiation produced a significant tumor growth delay compared with radiation alone and was well tolerated. Interestingly, Z-VAD also had a dramatic antiangiogenic effect when combined with radiation both in vitro and in vivo. Thus, Z-VAD represents an attractive anticancer therapeutic strategy. We further explored the potential of apoptosis inhibition as a way to sensitize cancer to radiation using a more selective chemical, M867, which is a reversible caspase-3 inhibitor. In an in vivo mouse hind limb lung cancer model, the administration of M867 with ionizing radiation was well tolerated, and produced a significant tumor growth delay compared with radiation alone. A dramatic decrease in tumor vasculature and tumor cell proliferation was observed with M867 despite the reduced levels of apoptosis. The radiosensitizing effect of M867 through the inhibition of caspases was validated using a caspase-3/-7 double-knockout (DKO) mouse embryonic fibroblasts (MEF) cell model. Consistent with our previous results, autophagy contributed to the mechanism of increased cell death, following inhibition of apoptosis. Finally, we investigated the mechanism by which radiation triggers autophagy in caspase-3/7-deficient cells, and found the involvement of endoplasmic reticulum (ER) stress. The ER activates a survival pathway, the unfolded protein response, which involves ER-localized transmembrane proteins such as protein kinase-like ER kinase (PERK), inositol-requiring enzyme-1, and activating transcription factor-6. In this study, we found that PERK is essential for radiation-induced autophagy and radiosensitivity in caspase-3/7 double-knockout cells. Irradiation of these cells increased expression of phosphorylated-eIF2a. Similar results were seen after administration of tunicamycin (TM), a well-known ER stress inducer. We found that the administration of TM with radiation in MCF-7 breast cancer cells, which are lacking functional caspase-3 and are relatively resistant to many anticancer agents, enhances radiation sensitivity. Our findings revealed ER stress as a novel potential mechanism of radiation-induced autophagy in caspase-3/7-deficient cells and as a potential strategy to maximize efficiency of radiation therapy in breast cancer. Our data suggested that caspase-3 has a critical role in modulating the PERK/eIF2a pathway after radiation. / Many cancers exhibit multiple deregulations in cell death pathways, allowing for the subsequent promotion of tumor cell survival, and contributing to a relatively low response rate to therapies based on the use of pro-apoptotic strategies. As we have showed, there is a potential for novel anticancer strategies to overcome resistant cancer cells with defective apoptosis machinery in order to improve overall therapeutic outcomes. Such novel approach is to drive cancer cells towards autophagy, as demonstrated by our experiments that studied the effect of radiation on the induction of autophagy in caspase-deficient models. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished

Cancérologie

Biologie moléculaire

Sciences biomédicales

Radiobiologie

Radiation Oncology

Translational Research

Targeted Therapy

Molecular Biology

Cell Death

Mécanismes de régulation de la mort cellulaire dans la dégénérescence rétinienne induite par la lumière et phototoxicité des LEDs (Light Emitting Diode) / Mechanisms of regulation of cell death in light induced retinal degeneration and phototoxicity of LEDs (Light Emitting Diode)

Jaadane, Imène

27 June 2014

Les dégénérescences rétiniennes se caractérisent par la mort des photorécepteurs ce qui conduit à la cécité. La rétine, l’organe neurosensoriel de l’œil, est soumise à différents stress et facteurs environnementaux qui peuvent conduire à son altération. La lumière représente un facteur potentiellement nocif. Le modèle de dégénérescence rétinienne induite par la lumière (DRIL) a montré une mort des photorécepteurs par apoptose impliquant une voie cellulaire indépendante des caspases, la voie LEI/L-DNase II. Nous avons étudié la régulation de cette voie par les protéines de la famille Bcl2 (bcl2 et bax) et nous avons montré que les deux protéines présentent un effet protecteur vis-à-vis de la mort induite par la L-DNase II. Nous avons ainsi établi un lien entre les deux grandes voies de l’apoptose : dépendante et indépendante des caspases. De plus, nos résultats soutiennent l’idée que le rôle d’une protéine dépend fortement du contexte cellulaire. Nous avons également montré que cette voie de mort cellulaire est contrôlée par la protéine kinase atypique PKC zêta, kinase qui est également activée dans la DRIL. Ces différentes connaissances nous ont permis d’aborder le problème de la phototoxicité des LEDs (diode électroluminescente) sur la rétine et l’épithélium pigmenté de la rétine. Nous avons montré que les LEDs produisent une dégénérescence rétinienne rapide et précoce en comparaison avec le DRIL. Les altérations sont aussi plus graves puisqu’elles font intervenir la nécrose aussi bien au niveau des photorécepteurs que de l’épithélium pigmenté. L’implication de la lumière bleue dans la phototoxicité accrue, a été démontrée en utilisant des LEDs de différentes longueurs d’onde. / The retinal degenerations are characterized by death of the photoreceptors which leads to blindness. The retina, the neurosensory organ of the eye is subjected to various stresses and environmental factors that can lead to blindness. The light is a potentially harmful factor. The model of light induced retinal degeneration (LIRD) showed a death of photoreceptors through apoptosis involving the caspase independent pathway, the LEI/L- DNase II. We studied the regulation of this pathway by the proteins of the Bcl2 family (bcl2 and bax) and we showed that the two proteins are protective when L-DNase II is activated. We have established a link between the two major pathways of apoptosis: caspases dependent and independent. In addition, our results support the idea that the role of a protein strongly depends on cellular context. We also showed that this cell death pathway is controlled by an atypical protein kinase, PKC zeta that is activated in the LIRD. These skills lead to the problem of phototoxicity of LEDs (light emitting diode) on the retina and on the retinal pigmented epithelium. We showed that the LEDs produce a rapid and earlier retinal degeneration as compared to the LIRD. The alterations are also more severe because they involve necrosis both in photoreceptors and in retinal pigmented epithelium. The involvement of the blue light in the increased phototoxicity was demonstrated using LEDs of different wavelengths.

Mort cellulaire

Rétine

Régulation

LED

Lumière

Cell death

Retina

Regulation

LED

Light

571.6

Étude de la mort cellulaire via CD40 et BCR en fonction de l'activation cellulaire

Aoudjit, Lydia

04 1900

Le CD40 est une glycoprotéine transmembranaire de type I appartenant à la superfamille des récepteurs des facteurs de nécrose tumorale (TNFRs). Il est exprimé à la surface des cellules hématopoïétiques, principalement les cellules B, et les cellules nonhématopoïétiques telles que les cellules épithéliales et les fibroblastes. Son principal ligand, le CD154, est exprimé de façon transitoire à la surface de différents types cellulaires tels que les lymphocytes T activés. Le CD40 est capable d'interagir avec les deux formes du CD154: la forme membranaire et la forme soluble. Le CD40 joue un rôle important dans la réponse immunitaire humorale. Son engagement avec le CD154 induit la prolifération et la différenciation des cellules B, la commutation isotypique des anticorps, la formation du centre germinal, l’augmentation de la génération de cellules B mémoire et la survie des cellules B. D'autres études ont démontré son implication dans la mort cellulaire. En effet, nos études ont démontré que la signalisation via CD40 conduit à une mort rapide des cellules B, principalement observée dans les lignées de cellules B transformées par le virus d'Epstein-Barr (EBV) alors qu'il est bien documenté que son engagement sur des cellules B immatures les protège de la mort induite via le récepteur des cellules B (BCR). Il n’est cependant pas connu si l’effet apoptotique du CD40 se produit dans des lignées de lymphocytes B qui ne sont pas transformées par EBV. Le travail illustré dans ce mémoire porte sur l'étude du rôle du CD40 dans la mort cellulaire des Ramos qui est un modèle de cellules B immatures, EBV négatives, et à comprendre son influence sur la signalisation apoptotique induite via le BCR. Nos résultats montrent que le CD40 n’induit pas la mort des cellules Ramos mais leur activation par l’ester de phorbol (PMA) les sensibilise à la mort via le CD40, qui est plus significative suite à son interaction avec le ligand (CD154) résistant au clivage. Par contre, cette interaction est aussi capable d'inhiber la mort cellulaire induite via le BCR aussi bien sur les cellules au repos ou activées par le PMA. Cette inhibition de la mort cellulaire est comparable avec les deux formes du CD154. L’ensemble des études suggèrent que le CD40 peut réguler la réponse immune en induisant des signaux de survie nécessaires à la production d'anticorps et peut participer à la résolution de celle-ci en induisant la mort cellulaire des cellules B activées. Par ailleurs, le CD40 peut aussi constituer une cible thérapeutique pour les traitements des lymphomes B. / CD40 is a type I glycoprotein belonging to the tumor necrosis factor receptor (TNFRs) superfamily. The CD40 is expressed on hematopoietic cells, mainly B cells, and on nonhematopoietic cells such as epithelial cells and fibroblasts. Its classical ligand, CD154, is transiently expressed on different cell types such as activated T cells. CD40 is able to interact with both the membrane-bound and the soluble forms of CD154. CD40 plays an important role in the humoral immune response. Its ligation with CD154 induces B cell proliferation and differentiation, antibody class switching, germinal center formation, memory B cell generation and B cell survival. Other studies have demonstrated its implication in cell death. Indeed, our studies have demonstrated that signalling via CD40 leads to a rapid B cell death mainly observed in Epstein-Barr virus (EBV)- transformed B cell lines, although it is well documented that the engagement of CD40 on immature B cells rescues them from IgM-mediated death. However, it is unknown if CD40-mediated cell death occurs in non-EBV B cell lines. The work presented in this thesis focuses on the study of the role of CD40 in Ramos cell death, which is an immature B-cell model, EBV negative, and on its influence on the apoptotic signaling induced via the B-cell receptor (BCR). Our results show that CD40 is unable to induce Ramos cell death but Ramos activation with the phorbol ester (PMA) sensitises them to death via CD40, which is more significant following its interaction with the ligand (CD154) resistant to cleavage. However, CD40 interaction with CD154 is also able to protect both resting and activated Ramos from BCR-mediated death and this occurs equally well with both forms of CD154. Together these studies suggest that CD40 can regulate the immune response by delivering survival signals necessary for antibody production and can contribute to the resolution of the immune response by inducing death in activated B cells. Furthermore, CD40 can also represent a therapeutic target in B cell lymphomas.

Mort cellulaire

BCR

CD40

CD154

Cell death

Mort cellulaire induite par la co-exposition benzo[a]pyrène / éthanol dans les hépatocytes : rôle du remodelage membranaire / Cell death induced by the coexposure benzo[a]pyrene / ethanol in hepatocytes : role of membrane remodelling

Collin, Aurore

16 December 2013

Les objectifs de cette thèse sont de déterminer les mécanismes cellulaires et moléculaires mis en jeu lors de la co-exposition de cellules hépatiques à l'éthanol, un toxique alimentaire, et au benzo[a]pyrène (B[a]P), un important contaminant de l’environnement émis lors de combustions incomplètes. L’exposition d’hépatocytes primaires de rat pendant 8h favorise leur collaboration via l’induction d’une déplétion membranaire en cholestérol par le B[a]P, ce qui facilite l’action de l’éthanol à déstabiliser les lysosomes via la phospholipase C-1 pour entraîner la mort par apoptose. Lors d’une exposition répétée sur 96h dans les cellules WIF-B9, celles-ci provoquent une mort précoce par nécrose suivie d’une apoptose tardive via leurs métabolismes. Leur toxicité impliquerait un remodelage membranaire et un stress oxydant avec la production d’espèces réactives de l’oxygène et la variation de l’homéostasie du fer. / The aim of this work is to determine cellular and molecular mechanisms implicated in the co-exposure to ethanol, a dietary toxic substance, and benzo[a]pyrene (B[a]P), a major environmental contaminant, found during incomplete combustions. Primary rat hepatocytes exposed during 8h showed a cooperation effect between the two molecules through the depletion of membrane cholesterol by B[a]P, which promote ethanol action to destabilize lysosomes through phospholipase C-1 and facilitate apoptosis cell death. After repeated exposure during 96h of WIF-B9 cells, these two molecules provoke an early cell death by necrosis and a late apoptosis through their metabolisms. Their toxic effects implicate membrane remodeling and oxidative stress with reactive oxygen species production and modifications in iron pool.

Hépatocytes

Mort cellulaire

Benzo[a]pyrène

Éthanol

Remodelage membranaire

Hepatocytes

Cell death

Benzo[a]pyrene

Ethanol

Membrane remodelling

Etude structurale et fonctionnelle de la phosphatase humaine PTPN4 / Structural and functional study of the human phosphatase PTPN4

Maisonneuve, Pierre

20 May 2014

La fonction des protéines de signalisation est déterminée par la nature des domaines qui les composent. Une meilleure compréhension des voies de signalisation passe par l'étude de ces domaines et de leur régulation. PTPN4 est une tyrosine phosphatase qui joue un rôle anti-apoptotique. Lors de l'infection par une souche atténuée du virus de la rage, sa fonction est perturbée, conduisant à la mort des cellules. Cette perturbation est due à l'interaction du motif de reconnaissance au domaine PDZ (PBM) de la glycoprotéine virale avec le domaine PDZ de PTPN4. Nous avons montré que ce domaine PDZ a un rôle d'inhibiteur allostérique de l'activité catalytique de la phosphatase de PTPN4. Ceci représente la première description de la régulation d'une phosphatase par un domaine PDZ. Cette inhibition est levée lors de la fixation d'un ligand au domaine PDZ, tel que le PBM de la glycoprotéine virale. Notre étude structurale révèle que la fixation d'un PBM perturbe les interactions transitoires entre les deux domaines et rétablit ainsi les propriétés catalytiques de la phosphatase. Nous avons par ailleurs identifié un ligand endogène de PTPN4, la MAP Kinase p38 qui, à travers son interaction avec PTPN4, participerait à la régulation de l'homéostasie cellulaire. La formation du complexe implique le recrutement du PBM de p38 par le domaine PDZ de PTPN4. Ainsi, en plus d'avoir une fonction de régulation du domaine phosphatase, le domaine PDZ permet également le recrutement de partenaires et la présentation de substrats au site actif de la phosphatase de PTPN4. Cette étude contribue ainsi à améliorer notre connaissance du rôle des domaines PDZ dans les voies de signalisation cellulaires. / The function of signaling proteins is determined by the nature of the domains from which they are made up. A better understanding of cell signaling pathways will result from the study of these domains and their regulation. PTPN4 is a non-receptor tyrosine phosphatase with an anti-apoptotic function. Upon infection with an attenuated rabies virus, its function is hijacked, which subsequently leads to cell death. This phenotype is arises from the interaction of the PDZ binding motif (PBM) of the viral glycoprotein with the PDZ domain of PTPN4. In this study, we show that this PDZ domain is an allosteric inhibitor of the catalytic activity of the PTPN4 phosphatase domain. This is the first description of the regulation of a phosphatase by a PDZ domain. This inhibition is released by the interaction of a ligand to the PDZ domain, such as the viral glycoprotein PBM. Our structural study revealed that the PBM recognition disrupts the transient inter-domain interactions and restores the complete phosphatase catalytic properties. As well, we identified a PTPN4 endogenous ligand, the MAP Kinase p38, which may participate in the regulation of the cellular homeostatic through its interaction with PTPN4. Thus, in addition to its phosphatase regulatory role, the PDZ domain also allows the recruitment of partners and the introduction of substrates to the PTPN4 phosphatase active site. This study contributes to our understanding of the role played by PDZ domains in cell signaling pathways.

Mort cellulaire

Ptpn4

Domaine pdz

Phosphatase

Régulation allostérique

Map kinase

Cell death

Phosphatase

571.4