Expressão de proteínas da apoptose em melanoma cutâneo primário / Apoptosis proteins expression in cutaneous melanoma

Anger, Moris

12 February 2009

Melanoma cutâneo ainda constitui a principal causa de morte por câncer de pele nos países desenvolvidos. A variabilidade do comportamento clínico dessa neoplasia tem sido apenas parcialmente explicada pelos aspectos clínicos e histológicos, e a identificação de variáveis biológicas pode vir a ser importante na determinação de grupos de risco específicos. Foram estudados 69 pacientes com melanoma cutâneo primário de diversos graus de gravidade, tratados entre 1990 e 2007, com o intuito de verificar aspectos clínicos e epidemiológicos, preparar Tissue microarray (TMA) para estudo dos melanomas cutâneos primários com espessura maior que 1,0 mm, avaliar por análise imuno-histoquímica a expressão das proteínas da apoptose celular Bcl2, Bax, Bak, Apaf-1, Caspase 3, Caspase 9, Caspase 8, FasL e Fas em nevos-controle e em melanomas primários com espessuras menores e maiores que 1mm, e correlacionar a expressão dessas proteínas da apoptose com a evolução de melanomas cutâneos primários. Os resultados ratificaram tanto dados epidemiológicos já publicados em relação a sexo, idade e local da lesão, quanto a correlação entre a evolução da doença e os índices de Breslow. A análise dos escores compostos relativos à expressão das proteínas da apoptose revelou que o perfil imuno-histoquímico dessas proteínas parece não ter significado prognóstico, uma vez que não houve diferenças de expressão entre pacientes com e sem doença disseminada. Não foram encontradas alterações na expressão das proteínas da apoptose estudadas que pudessem sugerir o seu envolvimento tanto na gênese quanto na progressão de melanoma primário. O perfil imuno-histoquímico com tendência pró-apoptótica parece indicar que outros fatores seriam responsáveis pelo crescimento e disseminação da neoplasia / Cutaneous melanoma still constitutes the main cause of skin cancer death in developed world. Clinical behavior variability of this neoplasia has been only partially explained by clinical and histological aspects, and identification of biological variables can be important for determining specific risk groups. Sixty nine (69) patients with mild to severe primary cutaneous melanoma treated in 1990-2007 were studied aiming at (a) verifying clinical epidemiological aspects, (b) generating a Tissue microarray (TMA) for characterizing proteins expression of cutaneous melanoma > 1.0 mm, (c) analyzing the immunohistochemical expression of the apoptosis proteins Bcl2, Bax, Bak, Apaf-1, Caspase 3, Caspase 9, Caspase 8, FasL e Fas in 10 control nevi and in primary melanomas with thickness 1mm, (d) and correlating these proteins expression with the disease prognosis. Results have ratified known epidemiological date on gender, age and lesion localization as well as the correlation between the disease prognosis and the Breslow\'s indexes. Analysis of the composite scores relating to apoptosis proteins has revealed that their immunohistochemical profile seems to be not significant for determining the disease prognosis, since no differences in proteins expression were found when compared patients with and without disease dissemination. Alterations in proteins expression suggesting their role in the genesis as well as in the prognosis of primary melanoma were not evidenced. Immunohistochemical profile with pro-apoptosis trend seems to indicate other factor as responsible for the neoplasia growth and dissemination

Apaf-1

Apaf-1

Apoptose

Apoptosis

BAK

BAK

BAX

BAX

Bcl2

Bcl2

Caspases

Caspases

Fas ligant protein

Melanoma

Melanoma

Neoplasias cutâneas

Proteína ligante Fas

Skin neoplasias

Avaliação da neurotoxicidade do Bisfenol A em cultura primária de hipocampo / Evaluation of Bisphenol A neurotoxicity in primary culture of hippocampus.

Silva, Mariana Aguilera Alencar da

31 August 2016

O Bisfenol A (BPA) é usado na fabricação de plásticos de policarbonato e resinas epóxi. A exposição pré-natal a esse agente pode causar diversos efeitos, tais como: antecipação da puberdade, hiperplasia de próstata, diminuição do número de espermatozoides, diminuição dos níveis de testosterona, alteração do desenvolvimento e organização tecidual da glândula mamária, diminuição da resposta celular induzida por hormônios, câncer de mama, diabetes, doenças cardiovasculares, alterações das funções de enzimas hepáticas, além de efeitos sobre o desenvolvimento cognitivo. Poucos estudos avaliam os efeitos do BPA sobre as células neuronais, porém existem evidências de que este agente induza a apoptose. O presente trabalho tem como objetivo estudar a neurotoxicidade do BPA, avaliando vias de sinalização que levam a indução da apoptose em cultura primária de hipocampo. As células foram expostas ao BPA nas concentrações de 50, 100, 150, 200, e 250 µM (0,1% DMSO v/v) pelos períodos de 6, 12, 24, e 48 horas para a realização dos ensaios da atividade mitocondrial (MTT) e citotoxicidade pela liberação da enzima Lactato Desidrogenase (LDH). A partir dos resultados de MTT e LDH, foram adotados novos horários de exposição (3, 6 e 9 horas) utilizando somente as concentrações de 200 e 250 µM. Neste novo desenho experimental, foi realizada a quantificação da concentração de BPA na cultura primária por HPLC-PDA, determinação da concentração de Ca2+ intracelular pela quantificação da fluorescência do Fluo-4 AM, caracterização dos mecanismos envolvidos na morte celular por citometria de fluxo e Western Blotting, e avaliação dos receptores de estrógeno ER-α e ER-β por Western Blotting. Nossos resultados apontam que aproximadamente 20% de BPA na concentração de 250 µM após 6 horas de exposição e 18% para a concentração de 200 µM com 9 horas de exposição foram absorvidos pela cultura celular. O ensaio do MTT mostrou que as células expostas a 200 e 250 µM de BPA, por 12, 24 e 48 horas, apresentaram diminuição significativa da função mitocondrial em relação ao controle. Porém, não houve liberação de LDH para o meio de cultura para nenhuma das concentrações de BPA em nenhum dos períodos de incubação, o que sugere que não houve rompimento da membrana plasmática. Foi observada atividade apoptótica somente com a concentração de 250 µM no período de exposição de 6 horas por citometria de fluxo. Não foram encontradas células em necrose, nem alteração na concentração de cálcio intracelular em nenhuma das condições estudadas. Na avaliação dos marcadores de morte celular, observamos aumento da razão de Bax/Bcl-2 para a concentração de 250 µM em todos os períodos de exposição e aumento das caspases 8, 9 e 3 para a concentração de 250 µM no período de exposição de 6 horas, indicando que o BPA deve ativar tanto a via intrínseca como a extrínseca no processo de apoptose. Verificamos ainda, por Western Blotting, que a cultura primária de hipocampo apresenta os receptores de estrógeno ER-α e ER-β. A exposição ao BPA aumentou os ER-α e ER-β avaliados por Western Blotting para as duas concentrações estudadas no período de 6 horas de exposição e, para o período de exposição de 9 horas, houve um aumento do ER-α para a concentração de 250 µM e do ER-β para a concentração de 200 µM. É possível concluir que o BPA pode levar a morte das células neuronais hipocampais por apoptose por ambas as vias intrínseca e extrínseca, sendo o processo de morte celular mais evidente para a concentração de 250 µM no período de 6 horas de exposição. Sugerimos ainda que o aumento observado em ambos os receptores de estrógeno possa representar uma tentativa de interrupção ou reversão do processo de morte celular. / Bisphenol A (BPA) is used in the manufacture of polycarbonate plastics and epoxy resins. The prenatal exposure to this agent may cause several effects, such as anticipation of puberty, prostate hyperplasia, reduced number of sperm, reduced testosterone levels, alteration in the development and tissue organization of the mammary gland, decreased cellular response induced by hormones, breast cancer, diabetes, cardiovascular disease, changes in the functions of liver enzymes, and effects on cognitive development. Few studies have evaluated the effects of BPA in neuronal cells, however there are evidences that this agent may induce apoptosis. This work aims to study the neurotoxicity of BPA, by analyzing the signaling pathways of apoptosis in hippocampus primary culture. Cells were exposed to BPA at 50, 100, 150, 200, and 250 µM (0.1% DMSO v/v) for 6, 12, 24, and 48 hours for the assay of mitochondrial activity (MTT) and the release of the enzyme lactate dehydrogenase (LDH). From the results of MTT and LDH, new exposure times (3, 6 and 9 hours) and only 200 and 250 µM were used. In this new experimental design we performed the quantification of the BPA concentration in the primary culture by HPLC-PDA, intracellular Ca2+ quantification by Fluo-4 AM assay and the characterization of the mechanisms involved in cell death by flow cytometry and Western Blotting assays. Furthermore, evaluation of the estrogen receptor ER-α and ER-β was done by Western Blotting. Our results demonstrate that about 20% of the BPA concentration of 250 µM after 6 hours of exposure and 18% for the concentration of 200 µM with 9 hours of exposure were absorbed by the cell culture. Cells exposed to 200 and 250 µM of BPA for 12, 24 and 48 hours, showed a significant decrease in mitochondrial function, by the MTT assay, compared to control. However, there was no release of LDH into the culture medium for any of the BPA concentrations in any of incubation times studied, which suggests no rupture of the plasma membrane by BPA. Apoptotic activity was observed after 6 hours of exposure to 250µM BPA by flow cytometry. It was not observed cell necrosis and changes in intracellular calcium concentration in any of the studied conditions. Regarding the cell death markers, exposure to 250 µM BPA in all periods of exposure resulted in an increased Bax/Bcl-2 ratio; moreover, an increase in caspase 8, 9 and 3 was detected after exposure to 250 µM BPA for 6 hours. Taken together, these findings indicate that BPA activates both the intrinsic and the extrinsic pathway during the apoptotic process. We also verified by Western Blotting the presence of the estrogen receptors ER-α and ER-β at the primary culture of hippocampus, and that they can be modulated by BPA. The exposure to 200 and 250 µM BPA for 6 hours caused an increase of ER-α and ER-β, however, 9 hours of exposure to 200 µM and 250 µM BPA increased the expression of ER-α and ER-β, respectively. In conclusion, BPA can lead hippocampal neuronal cells to death by both, intrinsic and extrinsic, apoptotic pathways and this process is more evident at 250 µM BPA after 6 hours of exposure. Furthermore, we suggest that the increase of both estrogen receptors might represent an attempt to interrupt or reverse the cell death process.

Apoptose

Apoptosis

Bisfenol A

Bisphenol A

Caspases

Caspases

Cultura primária de hipocampo

Desregulador endócrino

Endocrine disrupter

Estrogen receptors

Hippocampus primary culture

Neurotoxicidade

Neurotoxicity

Receptores de estrógeno.

Expressão de proteínas da apoptose em melanoma cutâneo primário / Apoptosis proteins expression in cutaneous melanoma

Moris Anger

12 February 2009

Melanoma cutâneo ainda constitui a principal causa de morte por câncer de pele nos países desenvolvidos. A variabilidade do comportamento clínico dessa neoplasia tem sido apenas parcialmente explicada pelos aspectos clínicos e histológicos, e a identificação de variáveis biológicas pode vir a ser importante na determinação de grupos de risco específicos. Foram estudados 69 pacientes com melanoma cutâneo primário de diversos graus de gravidade, tratados entre 1990 e 2007, com o intuito de verificar aspectos clínicos e epidemiológicos, preparar Tissue microarray (TMA) para estudo dos melanomas cutâneos primários com espessura maior que 1,0 mm, avaliar por análise imuno-histoquímica a expressão das proteínas da apoptose celular Bcl2, Bax, Bak, Apaf-1, Caspase 3, Caspase 9, Caspase 8, FasL e Fas em nevos-controle e em melanomas primários com espessuras menores e maiores que 1mm, e correlacionar a expressão dessas proteínas da apoptose com a evolução de melanomas cutâneos primários. Os resultados ratificaram tanto dados epidemiológicos já publicados em relação a sexo, idade e local da lesão, quanto a correlação entre a evolução da doença e os índices de Breslow. A análise dos escores compostos relativos à expressão das proteínas da apoptose revelou que o perfil imuno-histoquímico dessas proteínas parece não ter significado prognóstico, uma vez que não houve diferenças de expressão entre pacientes com e sem doença disseminada. Não foram encontradas alterações na expressão das proteínas da apoptose estudadas que pudessem sugerir o seu envolvimento tanto na gênese quanto na progressão de melanoma primário. O perfil imuno-histoquímico com tendência pró-apoptótica parece indicar que outros fatores seriam responsáveis pelo crescimento e disseminação da neoplasia / Cutaneous melanoma still constitutes the main cause of skin cancer death in developed world. Clinical behavior variability of this neoplasia has been only partially explained by clinical and histological aspects, and identification of biological variables can be important for determining specific risk groups. Sixty nine (69) patients with mild to severe primary cutaneous melanoma treated in 1990-2007 were studied aiming at (a) verifying clinical epidemiological aspects, (b) generating a Tissue microarray (TMA) for characterizing proteins expression of cutaneous melanoma > 1.0 mm, (c) analyzing the immunohistochemical expression of the apoptosis proteins Bcl2, Bax, Bak, Apaf-1, Caspase 3, Caspase 9, Caspase 8, FasL e Fas in 10 control nevi and in primary melanomas with thickness 1mm, (d) and correlating these proteins expression with the disease prognosis. Results have ratified known epidemiological date on gender, age and lesion localization as well as the correlation between the disease prognosis and the Breslow\'s indexes. Analysis of the composite scores relating to apoptosis proteins has revealed that their immunohistochemical profile seems to be not significant for determining the disease prognosis, since no differences in proteins expression were found when compared patients with and without disease dissemination. Alterations in proteins expression suggesting their role in the genesis as well as in the prognosis of primary melanoma were not evidenced. Immunohistochemical profile with pro-apoptosis trend seems to indicate other factor as responsible for the neoplasia growth and dissemination

Apaf-1

Apoptose

BAK

BAX

Bcl2

Caspases

Melanoma

Neoplasias cutâneas

Proteína ligante Fas

Apaf-1

Apoptosis

BAK

BAX

Bcl2

Caspases

Fas ligant protein

Melanoma

Skin neoplasias

Avaliação da neurotoxicidade do Bisfenol A em cultura primária de hipocampo / Evaluation of Bisphenol A neurotoxicity in primary culture of hippocampus.

Mariana Aguilera Alencar da Silva

31 August 2016

O Bisfenol A (BPA) é usado na fabricação de plásticos de policarbonato e resinas epóxi. A exposição pré-natal a esse agente pode causar diversos efeitos, tais como: antecipação da puberdade, hiperplasia de próstata, diminuição do número de espermatozoides, diminuição dos níveis de testosterona, alteração do desenvolvimento e organização tecidual da glândula mamária, diminuição da resposta celular induzida por hormônios, câncer de mama, diabetes, doenças cardiovasculares, alterações das funções de enzimas hepáticas, além de efeitos sobre o desenvolvimento cognitivo. Poucos estudos avaliam os efeitos do BPA sobre as células neuronais, porém existem evidências de que este agente induza a apoptose. O presente trabalho tem como objetivo estudar a neurotoxicidade do BPA, avaliando vias de sinalização que levam a indução da apoptose em cultura primária de hipocampo. As células foram expostas ao BPA nas concentrações de 50, 100, 150, 200, e 250 µM (0,1% DMSO v/v) pelos períodos de 6, 12, 24, e 48 horas para a realização dos ensaios da atividade mitocondrial (MTT) e citotoxicidade pela liberação da enzima Lactato Desidrogenase (LDH). A partir dos resultados de MTT e LDH, foram adotados novos horários de exposição (3, 6 e 9 horas) utilizando somente as concentrações de 200 e 250 µM. Neste novo desenho experimental, foi realizada a quantificação da concentração de BPA na cultura primária por HPLC-PDA, determinação da concentração de Ca2+ intracelular pela quantificação da fluorescência do Fluo-4 AM, caracterização dos mecanismos envolvidos na morte celular por citometria de fluxo e Western Blotting, e avaliação dos receptores de estrógeno ER-α e ER-β por Western Blotting. Nossos resultados apontam que aproximadamente 20% de BPA na concentração de 250 µM após 6 horas de exposição e 18% para a concentração de 200 µM com 9 horas de exposição foram absorvidos pela cultura celular. O ensaio do MTT mostrou que as células expostas a 200 e 250 µM de BPA, por 12, 24 e 48 horas, apresentaram diminuição significativa da função mitocondrial em relação ao controle. Porém, não houve liberação de LDH para o meio de cultura para nenhuma das concentrações de BPA em nenhum dos períodos de incubação, o que sugere que não houve rompimento da membrana plasmática. Foi observada atividade apoptótica somente com a concentração de 250 µM no período de exposição de 6 horas por citometria de fluxo. Não foram encontradas células em necrose, nem alteração na concentração de cálcio intracelular em nenhuma das condições estudadas. Na avaliação dos marcadores de morte celular, observamos aumento da razão de Bax/Bcl-2 para a concentração de 250 µM em todos os períodos de exposição e aumento das caspases 8, 9 e 3 para a concentração de 250 µM no período de exposição de 6 horas, indicando que o BPA deve ativar tanto a via intrínseca como a extrínseca no processo de apoptose. Verificamos ainda, por Western Blotting, que a cultura primária de hipocampo apresenta os receptores de estrógeno ER-α e ER-β. A exposição ao BPA aumentou os ER-α e ER-β avaliados por Western Blotting para as duas concentrações estudadas no período de 6 horas de exposição e, para o período de exposição de 9 horas, houve um aumento do ER-α para a concentração de 250 µM e do ER-β para a concentração de 200 µM. É possível concluir que o BPA pode levar a morte das células neuronais hipocampais por apoptose por ambas as vias intrínseca e extrínseca, sendo o processo de morte celular mais evidente para a concentração de 250 µM no período de 6 horas de exposição. Sugerimos ainda que o aumento observado em ambos os receptores de estrógeno possa representar uma tentativa de interrupção ou reversão do processo de morte celular. / Bisphenol A (BPA) is used in the manufacture of polycarbonate plastics and epoxy resins. The prenatal exposure to this agent may cause several effects, such as anticipation of puberty, prostate hyperplasia, reduced number of sperm, reduced testosterone levels, alteration in the development and tissue organization of the mammary gland, decreased cellular response induced by hormones, breast cancer, diabetes, cardiovascular disease, changes in the functions of liver enzymes, and effects on cognitive development. Few studies have evaluated the effects of BPA in neuronal cells, however there are evidences that this agent may induce apoptosis. This work aims to study the neurotoxicity of BPA, by analyzing the signaling pathways of apoptosis in hippocampus primary culture. Cells were exposed to BPA at 50, 100, 150, 200, and 250 µM (0.1% DMSO v/v) for 6, 12, 24, and 48 hours for the assay of mitochondrial activity (MTT) and the release of the enzyme lactate dehydrogenase (LDH). From the results of MTT and LDH, new exposure times (3, 6 and 9 hours) and only 200 and 250 µM were used. In this new experimental design we performed the quantification of the BPA concentration in the primary culture by HPLC-PDA, intracellular Ca2+ quantification by Fluo-4 AM assay and the characterization of the mechanisms involved in cell death by flow cytometry and Western Blotting assays. Furthermore, evaluation of the estrogen receptor ER-α and ER-β was done by Western Blotting. Our results demonstrate that about 20% of the BPA concentration of 250 µM after 6 hours of exposure and 18% for the concentration of 200 µM with 9 hours of exposure were absorbed by the cell culture. Cells exposed to 200 and 250 µM of BPA for 12, 24 and 48 hours, showed a significant decrease in mitochondrial function, by the MTT assay, compared to control. However, there was no release of LDH into the culture medium for any of the BPA concentrations in any of incubation times studied, which suggests no rupture of the plasma membrane by BPA. Apoptotic activity was observed after 6 hours of exposure to 250µM BPA by flow cytometry. It was not observed cell necrosis and changes in intracellular calcium concentration in any of the studied conditions. Regarding the cell death markers, exposure to 250 µM BPA in all periods of exposure resulted in an increased Bax/Bcl-2 ratio; moreover, an increase in caspase 8, 9 and 3 was detected after exposure to 250 µM BPA for 6 hours. Taken together, these findings indicate that BPA activates both the intrinsic and the extrinsic pathway during the apoptotic process. We also verified by Western Blotting the presence of the estrogen receptors ER-α and ER-β at the primary culture of hippocampus, and that they can be modulated by BPA. The exposure to 200 and 250 µM BPA for 6 hours caused an increase of ER-α and ER-β, however, 9 hours of exposure to 200 µM and 250 µM BPA increased the expression of ER-α and ER-β, respectively. In conclusion, BPA can lead hippocampal neuronal cells to death by both, intrinsic and extrinsic, apoptotic pathways and this process is more evident at 250 µM BPA after 6 hours of exposure. Furthermore, we suggest that the increase of both estrogen receptors might represent an attempt to interrupt or reverse the cell death process.

Apoptose

Bisfenol A

Caspases

Cultura primária de hipocampo

Desregulador endócrino

Neurotoxicidade

Receptores de estrógeno.

Apoptosis

Bisphenol A

Caspases

Endocrine disrupter

Estrogen receptors

Hippocampus primary culture

Neurotoxicity

Nouveaux rôles de la protéine kinase Lyn dans le développement du psoriasis et dans la mort cellulaire / New roles of the Lyn tyrosine kinase in psoriasis development and cell death

Aira Diaz, Lazaro Emilio

25 April 2018

La famille des kinases Src, dont Lyn fait partie, joue un rôle clé dans le contrôle de nombreux processus biologiques. Lyn a une fonction bien établie dans les cellules hématopoïétiques et est notamment impliqué dans le maintien de différentes leucémies et son expression protéique est altérée dans les tumeurs solides. Plusieurs études ont mis en évidence qu’elle avait un rôle anti-apoptotique. Lyn peut être clivée par les caspases en donnant une protéine tronquée cytosolique. Nous avons ainsi montré que Lyn cytosolique (cLyn) régulait Bim, un membre pro-apoptotique de la famille Bcl-2, en le phosphorylant sur les tyrosines 92 et 161 en inhibant la fonction pro-apoptotique de Bim, en augmentant son interaction avec Bcl-XL, limitant ainsi la perméabilisation de la membrane externe mitochondriale et l’apoptose. Lyn possède également un rôle pro-inflammatoire. Nous avions préalablement montré que la surexpression de cLyn, chez la souris, conduit à un syndrome inflammatoire de la peau, ressemblant au psoriasis. Sur la base de ce résultat, nous avons voulu savoir si Lyn jouait un rôle dans cette maladie chronique de la peau. L’analyse de l’expression de Lyn chez des patients souffrant de psoriasis a montré que Lyn était surexprimée dans la peau lésionnelle par rapport à la peau non lésionnelle ou saine, résultats confirmés dans deux modèles de psoriasis chez la souris. De façon intéressante, nous avons montré que l’augmentation de l’expression de Lyn se situe à la fois dans le derme et dans l’épiderme chez l’homme et chez la souris, indiquant que le recrutement de cellules immunitaires dans la peau lésionnelle mais aussi la modulation de Lyn dans les kératinocytes sont impliqués. Par ailleurs, une augmentation de l’expression de Lyn a été observée dans les kératinocytes humains stimulés par le TNF-α et l'IL-17A. Afin de déterminer le rôle de Lyn dans cette maladie cutanée nous l’avons induit chez des souris déficientes pour Lyn. Une réduction significative du phénotype cutanée a été observée dans les souris LynKO, identifiant Lyn comme un nouvel acteur dans la pathogénie du psoriasis. De plus, nos résultats ont établi que l’expression de Lyn dans les kératinocytes semblait suffisante pour le maintien du phénotype psoriasique, indiquant un nouveau rôle de Lyn dans les kératinocytes. Au cours de ce travail, nous avions observé que les caspases inflammatoires étaient activées dans la peau lésionnelle de patients atteints du psoriasis. Les caspases inflammatoires, suite à leur activation, vont cliver l’IL-1β et l’IL-18, ce qui conduit à leur maturation. Nous avons alors voulu savoir si les caspases participaient au développement du psoriasis. Nous avons pu montrer que lorsque nous induisions du psoriasis chez des souris, l’invalidation des caspases inflammatoires ou son inhibition pharmacologique réduisait de façon significative le développement de la maladie. Bien que les cellules immunitaires et les kératinocytes soient capables de secréter de l’IL-1β via l’activation de l’inflammasome, nos données ont établi que seule l’activation des caspases inflammatoires dans le système immunitaire semblait nécessaire pour une réponse inflammatoire complète. En résumé, l’ensemble de mon travail de thèse a permis de montrer un mécanisme moléculaire par lequel la kinase Lyn régule négativement la voie apoptotique mitochondriale, ce qui peut contribuer à la transformation et/ou la résistance des cellules cancéreuses. D’autre part, nos résultats montrent que Lyn pourrait être un régulateur important du psoriasis, et notre étude indique que les caspases inflammatoires activées dans les cellules immunitaires sont impliquées dans la pathogenèse du psoriasis. A ce jour, bien que plusieurs traitements aient été développés pour le psoriasis, la maladie reste non résolue, donc le développement de cibles thérapeutiques contre Lyn et les caspases inflammatoires pourraient être intéressant pour le traitement de la maladie. / The Src family kinase, of which Lyn is one member, plays a key role in controlling many biological processes. Lyn has a well-established function in hematopoietic cells, presenting an important role in the regulation of hematopoietic abnormalities. In fact, Lyn plays a key role in maintaining several kind of leukemia, and furthermore it expression is altered in solid tumors. Different studies have shown that Lyn has an anti-apoptotic role. Lyn can be cleaved by caspases, cysteine proteases involved in apoptosis and inflammation, giving a new protein with a cytosolic location, different from the WT and membrane-anchored form. We have shown that the cytosolic form of Lyn (cLyn) regulated Bim, a pro-apoptotic member of the Bcl-2 family, involved in the control of mitochondrial apoptosis. We have identified that Bim is phosphorylated on tyrosine 92 and 161 by Lyn, resulting in an inhibition of its pro-apoptotic function, increasing its interaction with anti-apoptotic members such as Bcl-XL, thus limiting the permeabilization of mitochondrial outer membrane and impairing cell apoptosis. Lyn also has a pro-inflammatory role. We have previously shown that overexpression of the caspase-cleaved form of Lyn, in mice, leads to an inflammatory skin syndrome, resembling human psoriasis. Based on this result, we wanted to know if Lyn played a role in this chronic skin disease. Analysis of Lyn's expression in psoriasis patients showed that Lyn was overexpressed in lesional skin compared to non-lesional or healthy skin, which was subsequently confirmed in two mouse models of psoriasis disease. Interestingly, we have shown that the increase in Lyn expression is in both the dermis and the epidermis in humans and in mice, indicating that recruitment of immune cells into lesional skin but also the modulation of Lyn in keratinocytes are involved. To determine the role of Lyn in this skin disease we induced a psoriasis-like phenotype in Lyn deficient mice. A significant reduction in cutaneous phenotype was observed in LynKO mice compared to WT mice, identifying Lyn as a new player in the pathogenesis of psoriasis. In addition, our results established that Lyn expression in keratinocytes seemed crucial and sufficient for the maintenance of the psoriasis phenotype, indicating a new role of Lyn in the regulation of keratinocytes. During this work, we observed that inflammatory caspases were activated in lesional skin from psoriasis patients. Inflammatory caspases, following their activation within the inflammasome, will cleave IL-1β and IL-18, leading to their maturation. We then wanted to know if inflammatory caspases participated in the development of psoriasis. We were able to show that when we induced a psoriasis-like disease in mice, the invalidation of inflammatory caspases or its pharmacological inhibition significantly reduced the development of the disease compared to WT mice. Although immune cells and keratinocytes were able to secrete IL-1β via activation of the inflammasome, our data established that only activation of inflammatory caspases in the immune system seemed necessary for a complete inflammatory response. In summary, my thesis shows a molecular mechanism by which Lyn tyrosine kinase negatively regulates the mitochondrial apoptotic pathway, which may contribute to the transformation and/or chemotherapeutic resistance of cancer cells. On the other hand, our results show that Lyn could be an important regulator of psoriasis and our study indicates that inflammatory caspases activated in immune cells are involved in the pathogenesis of psoriasis. To date, although several treatments have been developed for psoriasis, the disease remains unresolved, so the development of therapeutic targets against Lyn and inflammatory caspases could be of interest for the treatment of the disease.

Famille des Src protéines

Lyn

Famille de Bcl-2 protéines

Bim

Caspases pro-inflammatoires

Psoriasis

Src-family kinase

Lyn

Bcl-2 family

Bim

Inflammatory caspases

Psoriasis

Le clivage du récepteur de l'inositol 1,4,5-trisphosphate n'est pas un évènement essentiel au processus apoptotique

Elkoreh, Ghadi

January 2011

L'apoptose est le processus principal d'autodestruction d'une cellule en réponse à divers stimuli. Cette forme de mort cellulaire, conservée à travers l'évolution est nécessaire au développement embryonnaire, à l'éducation du système immunitaire et à l'homéostasie des organismes pluricellulaires. Ce processus est débalancé dans plusieurs pathologies prolifératives et dégénératives. Durant l'apoptose, un groupe de protéases à cystéine nommées caspases jouent [joue] un rôle essentiel dans l'exécution du signal de mort cellulaire. Ces enzymes clivent une multitude de substrats dans des cascades d'activation menant au démantèlement de la cellule. Un de ces substrats est le récepteur de l'inositol 1,4,5-trisphosphate de type 1 (IP[indice inférieur 3]R-1). Il s'agit d'un canal calcique intracellulaire situé sur la membrane du réticulum endoplasmique jouant un rôle primordial dans la régulation du Ca[indice supérieur 2+] intracellulaire. Le clivage de l'IP[indice inférieur 3]R-1 perturberait ainsi l'homéostasie calcique, essentielle à la survie de la cellule. Afin d'étudier l'importance du clivage de l'IP[indice inférieur 3]R-1 par la caspase-3 dans le processus de l'apoptose, des mutants du récepteur ont été générés et leurs propriétés ont été comparées à celles du récepteur de type sauvage. Le site de reconnaissance par les caspases (DEVD[flèche vers le bas]R) a été aboli dans les mutants IEVA[flèche vers le bas]R et DEVA[flèche vers le bas]R, alors qu'une courte séquence (ENLYFQ[flèche vers le bas]S) reconnue par la protéase TEV du virus de la mosaïque du tabac a été introduite dans un troisième mutant qui ne peut être clivé par les caspases (DEVA[flèche vers le bas]R). Avec ces mutants, nous avons obtenu des résultats qui confirment que l'IP[indice inférieur 3]R-1 est clivable par la caspase-3 (et aussi par la caspase-7), mais sous des conditions extrêmes (en présence de plus de dix fois le niveau physiologique des caspases). Par contre, le clivage de l'IP[indice inférieur 3]R-1 ne se produit pas in cellulo, dans des conditions apoptotiques normales où la caspase 3 est activée. Ces résultats suggèrent que l'IP[indice inférieur 3]R-1 n'est pas un bon substrat de la caspase 3, parce que son clivage n'est pas efficace, et surtout parce qu'il n'a pas lieu à chaque fois que la mort cellulaire par apoptose est induite. Ces résultats montrent que l'IP[indice inférieur 3]R-1 ne possède pas le profil d'un substrat de caspase dont le clivage est fondamental pour le bon déroulement de l'apoptose.

Substrats

Protéases

Caspases

IP[indice inférieur 3]R-1

Calcium

Apoptose

THE INTERPLAY BETWEEN THE EXPRESSION AND FUNCTIONS OF WNT13 ISOFORMS DURING APOPTOSIS IN BOVINE AORTIC ENDOTHELIAL CELLS

Tang, Tao

01 January 2009

Wnt proteins are crucial for development/homeostasis by controlling cell fate including apoptosis (Moon RT et al. 1997). Three humanWnt13 isoforms were identified: the secreted Wnt13A, mitochondrial Wnt13B, and nuclear Wnt13C forms; and nuclear Wnt13 had an increased sensitivity to LPS/TNF-induced apoptosis in primary endothelial cells (EC); both Wnt13B and C mRNA contain two start codons (AUG+1 and +74), but the same protein encoded from AUG+74 by Wnt13C was expressed lower than Wnt13B (Struewing IT et al.2006). We hypothesize that during EC apoptosis, the nuclear Wnt13C expression is regulated translationally; nuclear Wnt13 favors apoptosis through regulating the activity/expression of apoptosis-related factors; Wnt13 isoforms may have differential effects on EC apoptosis and apoptosis-related factors. 1. The protein levels, but not the mRNA levels of Wnt13C were induced by apoptosis-inducers. And the Myc-tag insertion at the AUG+1 in Wnt13C mRNA inhibited its expression, indicating the RNA sequences/structures are critical. Therefore, nuclear Wnt13C is regulated during apoptosis at translational levels. 2. Nuclear Wnt13 increased caspase-3/7 expression with/without LPS, followed by an increase in LPS-induced caspase-3/7 cleavage; and nuclear Wnt13 upregulated the pro-apoptotic Bcl-2 family member Bim expression, suggesting that nuclear Wnt13 increased caspase activation through upregulating caspase and Bim expression. Wnt13 isoforms increased EC apoptosis with different strengths: nuclear > mitochondrial > secreted forms. 3. Both caspase-3 and Bim are FOXO target genes; and nuclear Wnt13 increased the nuclear localization of FOXOs, suggesting increased FOXO activity. Nuclear Wnt13 also upregulated SOD2, another FOXO target gene related to oxidative stress-resistance. Nuclear Wnt13 did not increase FOXO activity at the SOD2 promoter, but increased the SOD2-intron 2 element luciferase activity upon LPS, where a novel putative FOXO site was found, implying intron 2 may be responsible for enhanced SOD2 transcription by nuclear Wnt13. Altogether, our results pinpoint the interplay between the expression and functions of Wnt13 forms during EC apoptosis, forming a positive cycle further facilitating the apoptotic program completion, which is important for EC homeostasis.

Medical Nutrition

Nutrition

Novel Interactors of X-linked Inhibitor of Apoptosis Protein : Expression and Effects on Tumor Cell Death

Steen, Håkan

January 2008

<p>Programmed cell death, or apoptosis, has during the last decade received a lot of attention due to its involvement in a large number of pathological conditions. Since death is always irreversible, it is important for cells to fully control the initiation and execution of this process. One of many apoptosis-regulatory proteins is XIAP, which blocks the action of caspases, a family of proteases that are important during apoptosis. However, apoptosis inhibitors have to be tightly controlled since too little cell death can lead to the development of tumors and other diseases. This thesis is the result of an aspiration to fully understand the function and regulation of XIAP.</p><p>By using the yeast-2-hybrid system, we identified two novel binding partners of XIAP. The first, GPS2, was found to bind XIAP and inhibit its ability to block caspase-activity. In addition, GPS2 induced caspase-mediated cell death in two different tumour cell lines and XIAP inhibited this effect.</p><p>The second binding partner, Nulp1, preferentially bound XIAP in the presence of the apoptosis-inducer staurosporine. Nulp1 induced or sensitized cell lines to cell death when overexpressed, but this was not blocked by caspase-inhibitors or XIAP, suggesting a different reason for binding than apoptosis regulation. With the aim to understand the Nulp1-XIAP interaction, we continued to study Nulp1 <i>in vivo</i> and <i>in vitro</i>. We studied three different splice variants of Nulp1 and found that they were regulated by poly-ubiquitination and nuclear shuttling. Also, Nulp1 was expressed in embryonic mice, especially in the cortical plate, hippocampal neurons and cerebellar granular neurons. Expression of Nulp1 decreased with age but was still present in cerebellar deep nuclei and Purkinje cells of adult mice. </p><p>To summarize, we have identified GPS2 as an apoptosis-inducing factor and an inhibitor of XIAP <i>in vitro</i>, and Nulp1 as a XIAP-interacting protein during staurosporine-induced apoptosis.</p>

Neurobiology

XIAP

tumor cell death

apoptosis

caspases

basic helix-loop-helix protein

Neurobiologi

Études des modifications de la réponse apoptotique induites par le virus de l'hépatite C dans des foies normaux et infectés et dans la lignée cellulaire HuH7 contenant ou non un réplicon sous-génomique du virus

André, Aurélie

January 2004

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Hépatite C

Apoptose/mort cellulaire

Gènes de la famille Bcl-2

Caspases

MAP kinases

Altération du ripoptosome dans la leucémie aiguë myéloïde / Alteraction of ripoptosome in acute myeloid leukemia

Nugues, Anne-Lucie

28 November 2013

Les protéines receptor-interacting protein kinase 1 (RIP1) et RIP3 ont été identifiées comme intervenant dans la régulation de la mort cellulaire apoptotique ou nécroptotique mais également dans la survie cellulaire. Ces deux protéines possèdent un domaine sérine/thréonine kinase, un domaine d’interaction spécifique RHIM (RIP homotypic interacting motif) et diffèrent dans leur domaine C-terminal car seule RIP1 possède un domaine de mort. Ces protéines font partie d’un ensemble de protéines régulatrices nommé ripoptosome. Des études ont montré une altération du ripoptosome dans les leucémies lymphoïdes chroniques (LLC) et les leucémies aigües lymphoïdes (LAL). Nous nous sommes intéressés aux leucémies aigües myéloïdes (LAM). L’analyse de l’expression des protéines RIP1 et RIP3 a été réalisée dans des blastes triées CD34+ de patients atteints de LAM ou dans des cellules CD34+ de donneurs sains en Q-RT-PCR. Les premières analyses montrent que RIP3 est significativement sous-exprimée chez les patients atteints de LAM en comparaison avec les cellules CD34+ issues de donneurs sains. Aucune différence n’a été mise en évidence pour l’expression de RIP1 dans les deux types de cellules CD34+. Afin de comprendre l’implication de l'extinction de RIP3 dans les LAM, nous avons étudié sa réexpression dans une lignée cellulaire leucémique murine (DA1-3b) où RIP3 n’est pas exprimée par métylation de son promoteur, au moyen d'un système d’expression conditionnelle (LacSwith II, IPTG). Après 10h d’induction de l’expression, on constate que la protéine RIP3 sauvage (RIP3-WT) induit une apoptose dans les cellules DA1-3b. Afin de déterminer l’implication des domaines de RIP3, nous avons utilisé une protéine mutante kinase Dead (RIP3-KD, activité kinase abolie) et une protéine mutante dans la séquence d’interaction spécifique avec RIP1 (RIP3-RHIM). L’analyse de la mortalité cellulaire en cytométrie en flux et en microscopie électronique montre que les protéines RIP3-WT et -KD induisent toutes les deux la mort apoptotique des cellules DA1-3b respectivement de 15% et de 50% après 10h d’expression. On constate donc que la protéine RIP3-KD induit une mort plus importante et plus précoce que la protéine sauvage. La protéine RIP3 mutée dans son domaine RHIM ne peut plus induire de mort cellulaire. Il semble donc que le domaine kinase de RIP3 jouerait un rôle régulateur dans la mort cellulaire induite par RIP3. L’utilisation du modèle de leucémie murine DA1-3b a permis de réaliser un étude in vivo de l’expression conditionnelle de RIP3-WT et -KD. Seule l'expression de RIP3-KD est capable de prolonger significativement la survie des souris.De plus, il a été démontré que RIP3 pouvait également induire la nécroptose dans les cellules lorsque l’apoptose ne peut aboutir, notament lorsque les caspases sont inhibées à l’aide d’un inhibiteur de pan-caspases le Z-VAD-FMK. Le traitement des cellules exprimant RIP3-WT par 50µM de Z-VAD-FMK induit une plus forte mortalité (45%) des cellules tandis que dans les cellules exprimant RIP3-KD, l’inhibiteur des caspases inhibe complètement le processus apoptotique et permet la survie des cellules (10%). Une étude en microscopie électronique a permis de déterminer que la présence de Z-VAD-FMK induit un switch de l’apoptose vers la nécroptose. Il semble donc que le domaine de kinase possède un rôle important dans la signalisation de la nécroptose car la protéine RIP3-KD n’est plus capable d’initier le switch entre l’apoptose et la nécroptose. Quelques données préliminaires semblent indiquer que les calpaïnes ainsi que la caspase 12 pourraient également être impliquées dans la balance apoptose/nécroptose. [...] / The receptor-interacting protein kinase 1 (RIP1) and 3 (RIP3) are key signaling molecules in the regulation of apoptotic cell death or in the execution of a specific instance of regulated necrosis, named necroptosis, as well as in cell survival processes. These proteins have in common a serine/threonine kinase domain and a specific interacting motif RHIM (RIP homotypic interacting motif), while they differ in their C-terminal domain, as only RIP1 is characterized by a death domain. They belong to a family of regulatory proteins forming a cell death-inducing platform, referred to as Ripoptosome. Previous studies showed that the ripoptosome was altered in chronic lymphoid leukemia (CLL) and acute lymphoid leukemia (ALL). We decided to focus our studies on acute myeloid leukemia (AML).Expression profile of RIP1 and RIP3 was established by Q-RT PCR on CD34+ sorted cells of AML patients or healthy donors. Our first results show that if RIP3 is significantly under expressed in CD34+ cells of AML patients compared to healthy donors, there was no difference in RIP1 expression pattern in both cell types.To further understand the functional relevance of RIP3 down-regulation in the leukemia, we used a murine leukemic cell line (DA1-3b) in which RIP3 promoter is methylated, inhibiting its expression.A conditional expression system in DA1-3b cells has been realized (LacSwith II). IPTG (Isopropyl-beta-D-thiogalactoside) treatment (1mM) allows expression of the proteins of interest in these cell lines. We noticed that, 10 hours after expression’s induction, the wild-type RIP3 protein (RIP3-WT) induces apotptosis in DA1-3b cells. In order to decipher the role of each RIP3 domains in this cell-death-induced phenomenon, several mutants were employed. We used a mutant protein with a non functional kinase domain, RIP3 Kinase Dead (KD) and a mutant unable to interact with RIP1, RIP1-RHIM. Cell death analysis, performed by flow cytometry and by electron microscopy, shows that both RIP3-WT and RIP3-KD induce apoptosis in DA1-3b cells (respectively 15% and 50%) after 10 hrs of expression. However, these results show that RIP3-KD induces a stronger and more rapid cell-death than the wild-type protein. In agrement with previous findings, we found that the protein mutated in the RHIM domain cannot engage a cell-death process. Our results thereby suggest that the RIP3 kinase domain palys a major regulatory role in cell-death.Taking advantage of a mouse model of leukemia, we also performed an in vivo study of conditional expression RIP3-WT and –KD. As a matter of fact, DA1-3b cells, obtained from C3H mice are able to induce a leukemia in these mice after transplantation. We have shown that the inducible expression of RIP3-KD in DA1-3b cells can increase significatively mice survival. Moreover, we have shown that, in certain conditions, RIP3 could also induce necroptosis when apoptosis is prevented by a pan-caspase inhibitor, Z-VAD-FMK. Treating RIP3-WT expressing cells with 50µM of Z-VAD-FMK induces a strong mortality (45%) while it inhibits totally the apoptotic process in RIP3-KD expressing cells, allowing cell survival (10%).Using electronic microscopy, we were able to demonstrate that the use of Z-VAD-FMK leads to a switch from apoptosis to necroptosis. Thus, as the kinase dead protein is not able to induce this switch, the kinase domain could play an important role in necroptotic signaling. Preliminary results suggest that calpains, as well as caspase 12, could also be involved in apoptosis/necroptosis balance. It has been shown that RIP1 and RIP3 could play a role in Nf-kB pathway regulation. Studying the effects of RIP3-KD expression on Nf-kB pathway, we were able to demonstrate that it led to a specific cleavage of Nf-kB p65 protein, forming two fragments of about 25 kDa and 40 kDa. [...]

Nécroptose

Apoptose

Leucémie aiguë myéloïde

Facteur de transcription NF-Kappa B

Récepteurs à domaine de mort

Caspases