Remodelamento da matriz extracelular da medula óssea em desnutrição protéica: possível relação da via de AKT com a expressão de fibronectina e metaloproteinases de matriz / Extracellular matriz remodeling of the bone marrow in protein malnutrition: possible relationship of AKT pathway with expression of fibronectin and matriz metalloproteínases.

Silva, Graziela Batista da

26 April 2016

A desnutrição proteica (DP) pode ocasionar alterações na matriz extracelular (MEC) de diferentes órgãos e tecidos, inclusive o hematopoético, com comprometimento funcional. Estudos do nosso laboratório demonstraram, em modelo murino de DP, aumento da expressão proteica de fibronectina (FN) no estroma medular ósseo in vivo, principalmente na região subendosteal (local de fixação da célula tronco progenitora hemopoética). Já in vitro, no estroma medular ósseo, observou-se tanto o aumento quanto a diminuição de FN e a presença de suas isoformas. Essas alterações de FN parecem estar envolvidas com a hipoplasia da medula óssea (MO) em camundongos desnutridos. As modificações quantitativas de FN podem ser devidas: (i) à ação das metaloproteinases de matriz (MMP) responsáveis pela degradação das proteínas da MEC; (ii) aos inibidores de metaloproteinases (TIMP) que regulam a degradação da MEC; (iii) às alterações transcricionais, reguladas pela via de AKT/mTOR, que controla os splicing alternativos na FN, resultando em isoformas dessa proteína; (iv) a processos pós-transcricionais modulados por LC3, que aumenta a tradução do RNAm de FN. Assim, o objetivo deste estudo foi elucidar os mecanismos que alteram o turnover de FN no estroma medular ósseo em modelo murino de DP. Utilizamos camundongos, C57BL/6J machos, adultos, separados em dois grupos: controle e desnutrido, alimentados, ad libitum, com ração contendo 12% e 2% de proteína, respectivamente. Após cinco semanas de indução à desnutrição os camundongos foram eutanasiados, e coletado o material biológico. Avaliamos: o estado nutricional, o hematológico, a histologia da MO femoral bem como a determinação imunohistoquímica da FN, MMP-2 e MMP-9, determinação da expressão de FN e suas isoformas em células totais da MO, o estabelecimento do estroma medular ósseo in vitro, por 28 e 35 dias de cultivo. A partir das culturas foram avaliadas a expressão de RNAm de FN e suas isoformas, MMP-2, MMP-9, TIMP-1, TIMP-2, AKT, mTOR e LC3α e β, quantificação de MMP-2, MMP-9, TIMP-1, TIMP-2,TNFα, TGFβ e IL-1β e determinação de LC3β e proteínas da via de AKT/mTOR. Não observamos alterações na expressão do RNAm de FN e suas isoformas ex vivo e in vitro, mas um aumento da deposição de FN na MO.Também não observamos modificações na imunolocalização de MMP-2 e MMP-9 na MO e na atividade dessas proteínas no sobrenadante de culturas de células estromais in vitro, mas houve aumento da expressão do RNAm de MMP-9 em 28 dias de cultivo. Não detectamos alterações na expressão de RNAm e na concentração de TIMP-1 e TIMP-2 no sobrenadante das culturas. Houve redução significativa de TNFα e TGFβ no sobrenadante das culturas de 28 dias. Observamos aumento da expressão do RNAm de mTOR em culturas de 28 dias e LC3α e LC3β em 35 dias de células estromais. Encontramos menor fosforilação de PI3K, AKT, PTEN, mTOR e mTOR total e aumento de LC3β em culturas de 28 dias, mas redução de LC3β em 35 dias. Em função dos dados inferimos que a DP conduz a alterações da FN que não estão relacionadas à ação de MMPs e TIMPs e sim a modificações de LC3β e da via de AKT/mTOR. / Protein malnutrition (PM) can lead changes in extracellular matrix (ECM) from several organs and tissues, including hematopoietic, with functional impairments. Research from our laboratory demonstrated, in a murine model of protein malnutrition, increase in proteic expression of fibronectin (FN) in vivo bone marrow stroma, principally in subendosteal region (attachment site of hematopoietic stem/progenitor cell - HSPC). It was observed as both an increase and a decrease in the presence of FN and its isoforms in vitro bone marrow stroma. These FN changes seem to be related to bone marrow (BM) hypoplasia in malnourished mice. Quantitative FN changes may be due to: (i) action of matrix metalloproteinases (MMP) responsible for ECM proteins degradation; (ii) tissue inhibitors of metalloproteinases (TIMP) that regulate ECM degradation; (iii) transicional changes regulated by AKT/mTOR pathway, which controls alternative splicing in FN, resulting in isoforms from this protein; (iv) post-transcriptional processes modulated by LC3 that increases FN mRNA translation. Therefore, the aim of this study was to elucidade the mechanisms that changes the FN turnover in bone marrow stroma in a murine model of PM. C57BL/6J, adult and male mice were used and divided into two groups: control and malnourished, fed ad libitum with ration containing 12% and 2% of protein, respectively. After five weeks of induction malnutrition, mice were euthanized and the biological material was collected. We evaluated: nutritional and hematologic status, the femoral BM histology, immunohistochemistry determination of FN, MMP-2 and MMP-9, the FN and its isoforms expression determination in total BM cells, establishment of in vitro bone marrow stroma for 28 and 35 days of culture. From the cultures were evaluated FN mRNA expressions and its isoforms, MMP-2, MMP-9, TIMP-1, TIMP-2, AKT, mTOR, LC3α and β, quantification of MMP-2, MMP-9, TIMP-1, TIMP-2,TNFα, TGFβ and IL-1β and determination of LC3β and AKT/mTOR proteins. No changes were observed, ex vivo and in vitro, in the expression of FN mRNA and its isoforms, but there was a FN deposition increase in BM. We did not observe modifications in MMP-2 e MMP-9 immunolocalization in BM and in these proteins activity in the supernatant of in vitro stromal cell culture, but there was an increase in MMP-9 mRNA expression after 28 days of culture. We did not detect changes in mRNA and in TIMP-1 and TIMP-2 expressions in the supernatant of cultures. There was significant reduction of TNFα and TGFβ in the cultures supernatant of 28 days. We observed an increase of mTOR RNAm in 28 days cultures and also LC3α and LC3β in stromal cells with 35 days. We found lower phosphorylation of PI3K, AKT, PTEN, mTOR e total mTOR and an LC3β increase in 28 days cultures, yet an LC3β reduction in 35 days. According to the data we conclude that PM leads to FN changes that are not related to MMPs and TIMPs actions, but the LC3β and AKT/mTOR pathway modifications.

AKT/mTOR

AKT/mTOR

Extracellular matrix

Hemopoese e desnutrição proteica

Hemopoiesis

LC3β

LC3β

Malnutrition

Matrix metalloproteinases

Matriz extracelular

Metaloproteinases de matriz

Analysis of signaling mechanisms essential to mature B cell viability

Patke, Alina

08 October 2007

Die Langlebigkeit reifer periphärer B Zellen ist abhängig von mindestens zwei Überlebenssignalen, einem tonischen Signal, welches vom B Zellrezeptor ausgeht und dem Zytokin B Zell aktivierender Faktor der TNF-Familie (BAFF). BAFF fördert nicht nur das Überleben von reifen B Zellen, sondern kontrolliert auch deren Funktionstüchtigkeit, indem es vielschichtige physiologische Prozesse wie Zellwachstum und –metabolismus, Energiehaushalt und Eintritt in den Zellzyklus reguliert. Zwei BAFF-induzierte molekulare Mechanismen, zum einen die Aktivierung des Akt Signaltransduktionsweges sowie die erhöhte Expression der onkogenen kinase Pim-2 zum anderen, führen zu Veränderungen in Effektorproteinen welche in der Lage sind diese physiologischen Zellveränderungen auszulösen. Die BAFF-induzierte Aktivierung von Akt hängt von der klassischen Proteinkinase C (PKC) beta ab und sowohl PKC beta-defiziente B Zellen als auch Mäuse zeigen Anzeichen von Unsensitivität gegenüber BAFF-Stimulation. Die Proteintyrosinkinase Syk spielt eine Rolle während der frühen B Zellentwicklung und wird in reifen B Zellen durch Stimulation des B Zellrezeptors aktiviert. Induzierbare Inaktivierung von Syk in Mäusen führt zum Verschwinden reifer B Zellen aus den periphären lymphoiden Organen, was auf eine unverzichtbare Funktion von Syk in der Vermittlung des tonischen B Zellrezeptorsignals schliessen läßt. / The maintenance of mature peripheral B cells depends on at least two survival cues, tonic signaling from the B cell receptor (BCR) complex and the extracellular cytokine B cell activating factor of the TNF family (BAFF). In addition to enhancing viability, BAFF controls the functional efficiency of the peripheral B cell pool by regulating complex physiological processes including cell growth, metabolism, energy homeostasis and entry into the cell cycle. BAFF-mediated induction of two molecular mechanisms, namely activation of the Akt signal transduction pathway and upregulation of the oncogenic kinase Pim-2 results in the modification of effector proteins including transcription factors and regulators of protein synthesis which are capable of executing the observed cellular physiological changes. The classic protein kinase C beta is instrumental in BAFF-induced Akt-activation and PKC beta-deficient B cells and mice show signs of partial refractiveness to BAFF. The protein tyrosine kinase Syk plays a role in early B cell development and is activated in mature B cells by immunogenic BCR-stimulation. Inducible ablation of Syk in mice results in the loss mature B cells from the peripheral lymphoid organs and reveals an indispensable function for Syk in tonic BCR survival signaling.

Ueberleben von B Lymphozyten

Syk

BAFF

Akt

B cell survival

Syk

BAFF

Akt

570 Biowissenschaften, Biologie

32 Biologie

WW 9120

ddc:570

Voies de signalisation cobalamine-dépendantes de l'expression du gène MDR-1 : Une cible pharmacologique nouvelle pour la chimiothérapie ? / Repression cobalamin-dependent signaling pathways of MDR-1 gene : A new pharmacological target for chemotherapy?

Gkikopoulou, Effrosyni

13 December 2012

La résistance aux agents anticancéreux souvent observée en chimiothérapie s'accompagne d'une augmentation de l'expression des gènes tels que MDR-1, gérée par des réactions de méthylation cellulaire. La physiologie des réactions de méthylation régulant l'expression de MDR-1 est insuffisamment connue. La méthionine synthase est l'enzyme clé du cycle métabolique de la méthionine et possède comme cofacteur la cobalamine (vitamine B12), suggérant un rôle crucial du couple cobalamine / méthionine synthase dans la survenue de la chimio-résistance par l'intermédiaire de la méthylation. Nous avions trouvé que l'ajout de cobalamine à des cellules d'adénocarcinome hépatique conduisait à une répression du gène MDR-1 qui ne passe pas par la méthylation du promoteur. Notre objectif est d'explorer et d'étudier les voies métaboliques situées entre le cycle de la méthionine et l'expression du gène MDR-1. Des techniques chromatographiques, électrophorétiques, de culture cellulaire, de pharmacotoxicologie et d'expression génique sont utilisées sur la lignée HepG2. La répression cobalamine-dépendante du gène MDR-1 est associée à une activation de la PLD, une diminution du facteur de signalisation Akt ainsi qu'à une inhibition de Cox2. Le ciblage pharmacologique de ces voies semble potentialiser l'effet d'agents utilisés en chimiothérapie. Cette étude devrait permettre de mieux comprendre des mécanismes de chimiorésistance, de déterminer des paramètres d'optimisation de l'utilisation de ces anticancéreux en relation avec l'expression de MDR-1 elle même en relation avec le statut vitaminique B et peut être d'orienter la recherche en chimiothérapie vers de nouvelles voies thérapeutiques / A key factor of chemioresistance is an increased expression of MDR-1 gene, partly controlled by cellular methylation reactions. Until now, the physiology of these reactions is not clearly known. The main intracellular metabolic pathway, generating methyl donors, is the methionine cycle, the activity of which is strongly depending on B-group vitamins (B12, B9). Thus, MDR-1 gene expression may be controlled by the activity of the methionine cycle and consequently presence of these vitamins. The aim of this study is to determine if, and to elucidate how, the methionine cycle influences the MDR-1 gene expression. Chromatography, pharmacotoxicology, cell culture techniques, gene and protein expression studies have been used on the human hepatocarcinoma cell line HepG2. We showed that cobalamin-induced MDR-1 gene repression was associated with phospholipase D activation, Akt phosphorylation, and Cox-2 co-repression in a complex and intricated manner. We may suggest that targeting these pathways could potentiate chimotherapy. This work shoiuld allow 1) a better understanding of mechanisms explaining why some anticancer agents may become inactive, 2) to optimize utilisation of these agents in relationship with MDR-1 gene expression and the B vitamin status, 3) to evaluate impacts of nutritionnal factors (cobalamine) in MDR-1 gene expression and 4) probably developp possible ways to improve chemotherapy

Multi-drogue résistance

Vitamine B12

Phospholipase D

Akt

Cyclooxygénase 2

Multidrug resistance

Vitamin B12

Phospholipase D

Akt

Cyclooxygenase 2

572.58

615.6

Contrôle de la masse et du phénotype musculaires en hypoxie : leçons tirées de modèles de croissance du muscle squelettique chez le rongeur / Control of muscle mass and phenotype in hypoxia : lessons drawn from muscle growth models in rodent

Chaillou, Thomas

08 December 2011

Le muscle squelettique s'adapte en réponse à diverses influences en modulant sa masse et ses propriétés contractiles et métaboliques. Il est ainsi rapporté que l'hypoxie sévère a un effet délétère sur la masse et les capacités oxydatives du muscle, et pourrait ralentir la maturation du phénotype contractile au cours du développement post-natal. Cependant, les mécanismes de contrôle de cette plasticité musculaire ne sont pas clairement identifiés. Le but de ce travail était de déterminer le rôle de l'hypoxie environnementale sur le contrôle de la masse et l'adaptation du phénotype du muscle en croissance (hypertrophie de surcharge du plantaris après ablation de ses muscles agonistes et régénération du soléaire après lésions étendues induites par la notexine). L'exposition hypoxique limite transitoirement l'hypertrophie induite par la surcharge fonctionnelle, tandis qu'elle accentue la fonte musculaire en réprimant la formation et la croissance des néo-fibres au cours des étapes précoces de la régénération. Ces résultats seraient en partie expliqués par la désactivation partielle de la principale voie de protéosynthèse, la voie mTOR, par un mécanisme indépendant d'Akt. Parmi les inhibiteurs endogènes de mTOR étudiés (REDD1, BNIP-3 et l'AMPK), nous montrons que l'activation prononcée de l'AMPK en hypoxie pourrait réprimer l'activité de mTOR au cours de la régénération, alors que le mécanisme responsable de l'inhibition de mTOR n'a pas pu être identifié dans le modèle de surcharge. Le système protéolytique ubiquitine/protéasome-dépendant, évalué à partir de l'expression des atrogènes MURF1 et MAFbx, pourrait également expliquer en partie l'altération de l'hypertrophie de surcharge en hypoxie. Nos résultats soulignent par ailleurs que l'activité des cellules satellites serait réprimée au cours des premiers jours de régénération musculaire, conduisant à réduire la formation et la croissance des myotubes. Malgré cette perturbation précoce de la croissance musculaire, l'exposition prolongée en hypoxie ne limite pas l'hypertrophie de surcharge et la récupération de la masse du muscle lésé. Ceci démontre que les signaux anaboliques induits dans ces deux situations de croissance musculaire l'emportent très largement sur les signaux cataboliques de l'hypoxie. L'analyse des propriétés métaboliques et contractiles met en évidence que l'hypoxie altère les capacités oxydatives du muscle en croissance, mais les mécanismes impliqués dans cette réponse adaptative restent à identifier. Par ailleurs, l'hypoxie ne constitue pas un stimulus métabolique suffisant pour altérer la transition du phénotype contractile du muscle en surcharge et la récupération complète du phénotype contractile du muscle lésé. Elle contribue uniquement à ralentir très modérément et transitoirement l'adaptation phénotypique du muscle en surcharge, et à modifier le profil contractile du muscle durant la phase de dégénérescence musculaire. / Skeletal muscle adapts to various influences, by modulating both its mass and contractile and metabolic properties. It was reported that severe hypoxia impairs muscle mass and oxidative capacities and could reduce the fast-to-slow fiber transition during post-natal development. However, mechanisms involved in muscle plasticity during hypoxia exposure are not clearly identified. This work aimed to determine the role played by ambient hypoxia on the control of muscle mass and muscle phenotype during muscle growth (functional overload-induced hypertrophy of plantaris after removal of its synergist muscles and regeneration of soleus after extensive injury induced by notexin injection). Hypoxia exposure transiently minimizes the overload-induced hypertrophy, while it enhances the muscle-mass loss by repressing the formation and growth of nascent fibers during the early steps of regeneration. These results could be partly due to an impairment of the mTOR signaling activation, the main pathway involved in protein synthesis, independently of Akt. Among the endogenous repressors of mTOR studied (REDD1, BNIP-3 and AMPK), we show that the marked activation of AMPK in hypoxia could repress mTOR activity during regeneration, whereas the mechanism involved in mTOR inhibition remains unknown in the overload model. The ubiquitin/proteasome-dependant system, assessed from expression of the two atrogenes MURF1 and MAFbx, could also partly explain the hypoxia-induced alteration of muscle hypertrophy. Nevertheless, our findings show that activity of satellite cells could be repressed during the first days of regeneration, leading to reduce formation and growth of myotubes. Although muscle growth is early impaired, prolonged hypoxia exposure does not limit the overload-induced hypertrophy and the muscle mass recovery of injured muscle. This demonstrates that anabolic signals induced in these models of drastic muscle growth widely prevail on hypoxia-induced catabolic signals. The analysis of metabolic and contractile properties shows that hypoxia alters oxidative capacities in growing muscle, but mechanisms involved in this adaptive response remain to be elucidated. Moreover, hypoxia is not a sufficient metabolic stimulus to impair the fast-to-slow fiber transition in overloaded muscle, and the complete recovery of the contractile phenotype in injured muscle. It only contributes to transiently and modestly slow down the fast-to-slow fiber shift in overloaded muscle, and to modify the contractile profile of muscle during the degeneration phase.

Altitude

Hypertrophie de surcharge

Régénération musculaire

De signalisation Akt/mTOR

Atrogènes

Cellules satellites

Altitude

Overload-induced hypertrophy

Muscle regeneration

Akt/mTOR signaling pathway

Atrogenes

Satellite cells

610

Efeito apoptótico do Celecoxib em linhagens celulares derivadas de carcinoma epidermóide de boca / Apoptotic effect of Celecoxib in cell lines derived from oral squamous cell carcinoma

Vechio, Aluana Maria da Costa Dal

04 August 2011

O Celecoxib, antiinflamatório não esteroidal, inibidor seletivo da COX-2, tem se mostrado um importante agente anticarcinogênico, mas o seu papel no carcinoma epidermóide de boca (CEB) não é totalmente compreendido. Sabe-se que diversas alterações genéticas estão associadas à patogênese do CEB, a neoplasia maligna mais comum de cabeça e pescoço. Algumas dessas alterações comprometem proteínas pertencentes à via de sinalização do Akt, envolvida em diferentes fenômenos celulares. É sabido que Akt pode ativar o fator de transcrição NF-kB, o qual tem importante participação na fisiologia normal e no câncer. A proteína COX-2, descrita inicialmente em processos inflamatórios, está associada com a oncogênese e recentemente tem sido associada com a via de sinalização do Akt e com o NF-kB. Portanto, o objetivo deste estudo foi analisar o efeito do Celecoxib sobre linhagens celulares de carcinoma epidermóide de boca e verificar a localização intracelular e a expressão das proteínas pAkt, NF-kB e COX-2 em linhagens celulares de carcinoma epiermóide de boca após o tratamento com o Celecoxib.Através da técnica de imunofluorescência, foram analisados os padrões de expressão das proteínas pAkt, NFkB e COX-2 em quatro linhagens celulares de carcinoma epidermóide bucal submetidas ao tratamento com Celecoxib, cuja a dose e o tempo foram obtidos a partir de ensaios de viabilidade celular. Também se realizou ensaio de apoptose celular. Como controle utilizou-se células não tratadas com o medicamento. O Celecoxib na dose de 30 M por 24 horas causa apoptose.Na técnica de western blot, somente a linhagem SCC15 apresentou uma diminuição significativa para a COX-2. Entretanto, para p-Akt e NF-kB nenhuma alteração na expressão foi observada entre os grupos controle e tratado.Na imunofluorescência, houve alteração no padrão de expressão das proteínas pAkt, NF-kB e COX-2, quando se comparou os grupos contrele e tratado. Portanto, o Celecoxib pode ser um eficaz agente terapêutico, uma vez que demonstrou grande eficácia na inibição da proliferação celular de linhagens celulares de CEB. / Celecoxib, nonsteroidal anti-inflammatory COX-2 selective inhibitor, has proven to be an important anticancer agent. However its role in oral squamous cell carcinoma (OSCC) is not entirely understood. This is the most common malignancy of head and neck regionand it is known that various genetic alterations are associated with its pathogenesis. Some of these changes affect proteins belonging to the Akt signaling pathway, involved in different cellular processes. It is known that Akt can activate the transcription factor NF-kB, which has important role in normal physiology and cancer.The COX-2 proteinwas firstly described in the inflammatory processes, is associated with oncogenesis and has recently been related with the Akt signaling pathwayand with NF-kB. Therefore, the aim of this study was to analyze the effect of Celecoxib on squamous cell carcinoma cell lines and to determine pAkt, NF-kB and COX-2 intracellular localization and levels of expressionin this cell lines after treated with Celecoxib. By immunofluorescence, we analyzed the pAkt, NF-kB and COX-2 expression patterns in four oral squamous cell carcinoma cell lines treated with Celecoxib, which the dose and time were obtained from cell viability assays. Cellular apoptosis assay was also performed. As control the cells were not treated with this drug. Celecoxibcauses apoptosisin the dose of 30 M for 24 hours. In the western blottechnique, only the SCC15 cell line shows a significant decrease for COX-2. However, for p-Akt and NF-kB no change in expression was observed between control and treated groups. On immunofluorescence, there were changes in the pAkt, NFkB and COX-2protein expression pattern when the control group was compared with treated group. Therefore, the Celecoxib can be an effective therapeutic agent, since it has shown great efficacy in thecelular proliferation inhibition of the OSCC cell lines.

Apoptose

Apoptosis

Carcinoma epidermóide

Celecoxib

Celecoxib

COX-2

COX-2

p-Akt/NF-kB pathway

Squamous cell carcinoma

Via de sinalização p-Akt/NF-kB

"Análise da expressão e mecanismos de ação da proteína AKt em células cultivadas de carcinoma epidermóide bucal humano" / Analysis of the expression and pathways of Akt protein in human squamous cell carcinoma cultured cells

Salles, Felipe Torquato

16 September 2005

Como neoplasia maligna que mais acomete a cavidade oral, o carcinoma epidermóide gera infinidade de estudos acerca de sua gênese e progressão. O variado perfil genético e protéico observado leva a freqüente insucesso nas terapias adotadas, contribuindo para pobres prognósticos. Este estudo visa compreender melhor o papel da proteína Akt, tida como chave para a proliferação de diversas neoplasias, frente ao estímulo das células derivadas de carcinoma epidermóide humano em cultura (HaCat, HN6, HN19, HN30, HN31) com EGF 10ng/ml e TGF β 5ng/ml. Para tanto, analisou-se a expressão de pAkt, ciclina D1, Bad, caspase-3 e PTEN, através de imunofluorescência, western-blot e imunoprecipitação. Os resultados mostraram aumento da expressão de pAkt e ciclina D1 frente ao tratamento com EGF, bem como diminuição de Bad e PTEN, com exceção de HN31. A imunoprecipitação revelou neste caso que pAkt previne a apoptose através de inativação direta de Bad. Já nas células tratadas com TGF β , obtivemos resultados diferentes do esperado para este supressor de tumor. A expressão de pAkt mostrou-se aumentada nas linhagens celulares, mas estável em HN19 e HN31. Ciclina D1 mostrou aumento em HN6 e HN30, manutenção em HaCat e HN19 e diminuição em HN31. HaCat mostrou queda dos níveis de caspase-3 e Bad, manutenção em HN6, aumento em HN30, aumento somente de Bad em HN31 e HN19 com níveis inalterados após o tratamento para ambas as proteínas. Estes achados sugerem o importante papel desempenhado pelo EGF nas linhagens de carcinoma epidermóide estudadas, e como esta via é importante candidata a ser visada em tratamentos quimioterápicos. A ação do TGF β mostrou discrepâncias, revelando seu comportamento dúbio frente os diversos tipos celulares, e sugerindo possível relação entre este receptor e a via do pAkt, o que requer estudos mais apropriados. A baixa ocorrência de apoptose também reforça esta possibilidade, mostrando como a via do Akt é essencial para a progressão neoplásica e pode estar relacionada a mais eventos celulares do que já sabido. / Squamous cell carcinoma raises a great interest regarding carcinogenesis and its proliferative pathways, due to the high incidence and poor prognosis. The broad genetic and proteic profiles contribute to this poor prognosis. The present study aims to better comprehend the role played by pAkt, key protein for the development of many neoplasms. Cell lines derived from oral squamous cell carcinoma (HaCat, HN6, HN19, HN30 and HN31) were induced with 10ng/ml EGF and 5ng/ml TGF β . The expressions of pAkt, cyclin D1, Bad, caspase-3 and PTEN were analyzed through immunofluorescence, western-blot and immunoprecipitation. Results showed higher pAkt and cyclin D1 expression after EGF treatment, as well as a decrease in Bad and PTEN levels, except for HN31. Immunoprecipitation revealed that pAkt prevents apoptosis through Bad direct inactivation. However, TGF β treatment revealed different results, from what expected for this tumor supressor. pAkt expression revealed to be increased in all cells lines, but stable for HN19 and HN31. HaCat exhibited decreased levels of caspase-3 and Bad, which were unaltered in HN6, augmented in HN30. HN31 revealed only Bad increased levels, and no alterations in HN19. These findings suggest the crucial role played by EGF stimulation in the studied cell lines, and a good candidate to be targeted by chemotherapeutical approaches. TGF β treatment showed discrepancies, revealing diverse behaviors in the different cell lines. An exhisting relation between TGF β receptors and pAkt pathway may not be discharged, requiring further studies. The low occurrence of apoptosis reinforces this possibility, showing how important is Akt and related pathways for neoplastic progression, and its possible relation to cellular events not described to date.

akt

Akt

Carcinogênese

Carcinogenesis

Carcinoma epidermóide

Cell culture

Cell cycle

Ciclo celular – EGF - TFG &#946

Cultura celular

EGF – TFG &#946

Squamous cell carcinoma

Contribuição da via de sinalização IGF-I/Akt/mTOR na atrofia muscular desencadeada pela insuficiência cardíaca: influência do treinamento físico aeróbico / Contribution of IGF-I/Akt/mTOR signaling pathway to the muscular atrophy induced by heart failure: influence of aerobic exercise training

Bacurau, Aline Villa Nova

31 October 2013

A insuficiência cardíaca (IC) é a via final comum da maioria das cardiomiopatias e outras doenças do aparelho circulatório. Considerando a prevalência crescente e a morbimortalidade associada representa um importante problema de saúde pública. Em quadros mais avançados, além do comprometimento funcional, portadores de IC apresentam perda de massa muscular excessiva que pode culminar em caquexia cardíaca; condição que contribui para o mau prognóstico e a mortalidade aumentadas. A massa muscular é regulada pelo balanço entre estímulos anabólicos e catabólicos. A quinase Akt vêm sendo considerando uma importante quinase na regulação do crescimento muscular por controlar o anabolismo proteico. Dessa forma, ativadores da Akt (IGF-I e insulina), bem como proteínas alvo da sinalização da Akt (mTOR e GSK3) são importantes mediadores na manutenção da massa muscular e podem ser regulados por estímulos metabólicos, nutricionais e mecânicos. Assim, o objetivo desse estudo foi avaliar a contribuição da via de sinalização IGF-I/Akt/mTOR na atrofia muscular desencadeada pela IC tanto em humanos quanto em modelo experimental, bem como o efeito do treinamento físico aeróbico (TFA). Nossos resultados demonstraram que em biópsias do vasto lateral de pacientes portadores de IC classe II houve redução na expressão de mRNA de todas as isoformas de IGF-I e na expressão das proteínas IGFBP-3, Akt1, GSK3, pGSK3Ser9, mTOR e tendência a redução na pmTORSer2448 (p=0,08) e aumento na pAMPKThr172. Esses resultados foram acompanhados pela redução no VO2 pico desses pacientes. O TFA de 12 semanas levou a um aumento não significativo na expressão de mRNA da isoforma IGF-I Ea (p=0,07) e IGF-I PAM (p=0,06). Também observou-se aumento na pAMPKThr172 e tendência a aumento na Akt1 (p=0,07) e mTOR (p=0,06). Em modelo experimental de IC, no músculo sóleo observou-se redução na expressão das proteínas IGF-I, PI3K, pAktSer473,pGSK3Ser9 e aumento da pAMPKThr172. O TFA de 8 semanas promoveu aumento na expressão do mRNA das isoformas de IGF-I Ea, Eb e IGF-I PAM, bem como na expressão das proteínas IGFI, PI3K, pAktSer473, pmTORSer2448 e redução na pAMPKThr172. O conjunto de alterações promovido pelo TFA foi associado à maior tolerância ao esforço físico e ganho no desempenho motor em Rota Rod, além de prevenir a atrofia muscular. Quando esses animais foram tratados com rapamicina, um inibidor farmacológico da mTOR, o efeito do TFA na prevenção da atrofia muscular foi abolido. Juntos, esses resultados apoiam a hipótese de que a via de sinalização IGF-I/Akt/mTOR está envolvida no reestabelecimento muscular na IC induzida pelo TFA / Heart failure (HF) is a common ultimate consequence for the most cardiomyopathies and other diseases from circulatory system. Due its growing prevalence and morbimortality is an important public-health problem. In more advanced cases, besides functional impairment, HF patients present an excessive skeletal muscle loss which can lead to cardiac cachexia; a condition associated to a poor prognostic and increased mortality. Skeletal muscle mass is regulated by the balance between anabolic and catabolic stimuli. Akt kinase, although involved with the protein synthesis pathway, is able to regulates the skeletal muscle growth via anabolism and catabolism control. An importante role in the skeletal muscle growing has been attributed to the Akt kinase due its ability to control protein synthesis. Thus, activators (IGF-I and insulin) as well as target proteins in the Akt signaling pathway (mTOR and GSK3) are important mediators in the skeletal muscle mass homeostasis being regulated by anabolic, nutritional and mechanic stimuli. Therefore, the aim of the presente study was to evaluate the contribution of IGF-I/Akt/mTOR contribution to the muscle atrophy induced by HF in humans and mice. Additionally, the effect of aerobic exercise training were evaluated. Our data demonstrated that in biopsies obtained in the vastus lateral from class II IC patients occurred a reduction in the expression of all the forms of IGF investigated and in the expression of proteins such as IGFBP-3, Akt1, GSK3, pGSK3Ser9, mTOR, and tendency to reduce pmTORSer2448 (p=0.08) and to increase pAMPKThr172. These results were accompained by the reduction of peak VO2 in these patients. Twelve weeks of aerobic exercise training promoted a non-significant increase in the expression of the IGF-I Ea (p=0.07) and IGF-I PAM (p=0.06) mRNA expression. Moreover, it was observed an increase to pAMPKThr172, and tendency of increase for Akt1 (p=0.07) and mTOR (p=0.06) mRNA expression. In a experimental model of IC, it was observed a reduction in the expression of IGF I, PI3K, pAktSer473, pGSK3Ser9 and increase of pAMPKThr172. Eight weeks of aerobic exercise training increased the mRNA of IGF-I Ea, Eb and IGF-I PAM isoforms, as well as in the expression of IGF-I, PI3K, pAktSer473, pmTORSer2448 and pAMPKThr172 reduction. The changes induced by aerobic exercise training were associated with a higher tolerance to exercise and motor performance in rota rod besides prevent muscular atrophy. When treated with a inhibitor of mTOR, rapamycin, the adaptations induced by aerobic exercise training were blunted, supporting the hypothesis that the IGF-I/Akt/mTOR signaling pathway is involved in the recovering of muscle mass induced by physical training

Aerobic exercise training.

Heart failure

IGF-I/Akt/mTOR

IGF-I/Akt/mTOR

Insuficiência cardíaca

Músculo esquelético

Skeletal muscle

Treinamento físico aeróbico

"Estudo da expressão das proteínas PTEN e Akt em células derivadas de carcinoma epidermóide bucal em câmara de invasão" / Study of expression of PTEN and Akt protein in OSCC cell lines submitted to in vitro assay method.

Capuano, Ana Carolina Thome

30 January 2006

PTEN é um gene supressor de tumor, que resulta na proteína citoplasmática de mesmo nome, e possui a capacidade de modular a apoptose e o ciclo celular, assim como de inibir a migração celular. Por outro lado, o oncogene Akt promove a sobrevida celular e impede a apoptose. A ativação de Akt é inversamente relacionada com a ausência de PTEN em uma variedade de neoplasias malignas. Neste estudo, linhagens celulares derivadas de carcinoma epidermóide bucal (HN6, HN30, HN31 e uma linhagem de células controle, HaCat) foram submetidas ao método de invasão in vitro e clones celulares altamente invasivos foram isolados. Através das técnicas de imunofluorescência e Western blot foi verificada a expressão de ambas as proteínas nos novos clones (denominados HN6.1, HN30.1, HN31.1 e HaCat.1) e comparada às linhagens controle. A técnica da zimografia também foi realizada, desde que várias metaloproteinases (MMPs) têm demonstrado possuir papel importante no processo de invasão e metástase dos CEB. Nossos resultados revelaram que todas as linhagens celulares e seus respectivos clones invasivos mostraram marcação citoplasmática e nuclear para PTEN e pAkt, respectivamente. A exceção foi a HaCat.1 que apresentou marcação predominantemente citoplasmática para pAkt. A análise do Western blot revelou que os clones invasivos expressam menor quantidade de PTEN, não significantes estatisticamente. Essa diminuição foi expressiva somente na linhagem HaCat.1 (p<0.05). Em relação ao pAkt, foi observado uma discreta superexpressão dessa proteína nas linhagens invasivas de CEB. Contrariamente, a linhagem HaCat.1 sofreu uma significante diminuição de pAkt (p<0,05). Finalmente, a zimografia mostrou um discreto aumento de MMP-2 latente e/ou um significante aumento de MMP-9 ativa em todos os clo nes invasivos. Nossos resultados sugerem que não há uma relação inversa consistente e significativa entre as proteínas PTEN e Akt no processo de invasão in vitro com células derivadas de CEB. Não há somente um padrão de sinalização PTEN-PI3K-Akt no processo de carcinogênese desta neoplasia. A linhagem celular HaCat.1 se comportou diferente das linhagens derivadas de CEB e provavelmente sofreu diferenciação. Um aumento estatisticamente significante de secreção de MMP-9 ativa foi observado em 2 das 3 linhagens de CEB estudadas / PTEN is a tumor suppressor gene that encodes a dual phosphates protein capable to modulate apoptosis and cell cycle and prevent cellular migration. On the other hand, Akt oncogene promotes both cell cycle progression and inhibits apoptosis. Akt activation is inversely correlated with PTEN lost in a variety of cancers. In this study, highly invasive clones of OSCC cell lines (HN6, HN30, HN31 and a control cell line, HaCat) were isolated using an in vitro assay method. The expression of both proteins in these cells was compared by immunofluorescence and western blot technique. The metalloproteinase activation was analyzed by gelatin zimography, since several MMPs have been shown to play an important role in the invasion and metastasis of OSCC. All OSCC cell lines and its new clones showed cytoplasmatic and nuclear staining for PTEN and pAkt, respectively. The western blot analysis revealed no significant decrease of PTEN expression in the most invasive clones (named HN6.1, HN30.1 and HN31.1). Only HaCat.1 had a significant decrease (p<0,05). However, there was no significant increase of Akt in the invasiveness clones and oppositely the expression of Akt was strongly reduced (p<0,05) in the HaCat.1. Finally, the zimography showed a discrete increase of inactive MMP-2 and/or a significant increase of active MMP-9 in all the most invasive cell lines. In conclusion, no correlation was seen between PTEN and pAkt in the process of invasion in vitro. There is not only a linear PTEN-PI3K-Akt pathway in OSCC. The HaCat.1 had a different behavior in relation to OSCC cell lines and probably allowed cellular differentiation. In addition, a significant increase of active MMP-9 was seen in 2 of 3 lines of cells derived from OSCC

Carcinoma epidermóide bucal

Cell culture

Cultura de células

Oral squamous cell carcinoma

Análise do fator inibitório da migração de macrófagos (MIF) associado a via de sinalização PI3K/AKT na carcinogênese oral / Analysis of migration inhibitory factor macrophage (MIF) signaling associated with PI3K / AKT in oral carcinogenesis

Guimarães, Letícia Drumond de Abreu

16 December 2016

O processo da carcinogênese é provocado por múltiplos estágios, envolvendo desordens potencialmente malignas, iniciação, invasão, progressão e metástase. O prognóstico do carcinoma epidermoide de boca (CEB) ainda permanece desfavorável devido ao diagnóstico tardio. Para mitigar esta complicação, biomarcadores tem sido utilizados para ajudar no diagnóstico precoce e entender melhor a influência sobre a carcinogênese oral, onde vias de sinalização são ativadas, principalmente a PI3K/AKT. MIF foi relacionada a progressão de diversos tipos cânceres, porém pouco se sabe seu papel na evolução do CEB. Por isso, o objetivo deste estudo foi identificar e caracterizar através do padrão de expressão imuno-histoquímico proteínas participantes da via de sinalização de PI3K/AKT: AKT1 e PAKT e sua associação com a expressão de MIF em fragmento de mucosa, hiperqueratose sem e com displasia e CEB correlacionando com a progressão da doença e características clinico-demográficos. Foram utilizados 73 blocos de parafina, avaliados quanto à porcentagem da expressão de cada marcador e coletados os dados clínicos epidemiológicos referentes para correlaciona-los à imunomarcação. A imunonopositividade ocorreu nos casos de mucosa normal, sem e com displasia e CEB. Nos casos de mucosa normal foram positivos para PAKT (50%), AKT (60%), MIF (80%). Em sem displasia, foi observado imunomarcação para PAKT (50%) e MIF (50%). Com displasia houve marcação PAKT (81,81%) e MIF (81%). Nos espécimes de CEB ocorreu em PAKT(100%), AKT (95,23%) e MIF (90,5%). Todos os anticorpos tiveram alta expressão no CEB em comparação com a mucosa normal (p<0,0001), sem displasia (p<0,0001) e com displasia (p<0,0001). Observou-se também influência sobre o fator de risco como tabagismo, etilismo e etnia, respectivamente para os grupos sem displasia, CEB e com displasia. Assim, estas proteínas podem ser consideradas potenciais marcadores preditores do CEB. / The carcinogenesis process is caused by multiple stages, involving potentially malignant disorders, initiation, invasion, progression and metastasis. The prognosis of squamous cell carcinoma (CEB) remains unfavorable due to late diagnosis. To mitigate this complication, biomarkers have been used to aid in early diagnosis and better understand the influence on oral carcinogenesis, which are activated signaling pathways, particularly PI3K / AKT. MIF was related to progression of many types cancers, but its role in the evolution of CEB is little known. Therefore, the aim of this study was to identify and characterize by the expression pattern of immunohistochemical participants proteins signaling pathway PI3K / AKT: AKT1 and PAKT and its association with MIF expression in normal mucosa, hyperkeratosis with and without dysplasia and CEB correlating with the progression of the disease and clinical and demographic characteristics. 73 paraffin blocks were used, in which evaluated the percentage of expression of each marker and collected epidemiological clinical data to correlate them to immunostaining. The imunonopositividade occurred in cases of normal mucosa, hyperkeratosis with and without dysplasia. In cases of normal mucosa were positive for PAKT (50%), AKT (60%), MIF (80%). In no dysplasia, immunostaining was observed PAKT (50%) and MIF (50%). With dysplasia was marking PAKT (81.81%) and MIF (81%). In CEB specimens occurred in PAKT (100%), AKT (95.23%) and MIF (90.5%). All antibodies had high expression in the CEB compared to normal mucosa (p <0.0001) without dysplasia (p <0.0001), and dysplasia (p <0.0001). It was also observed influence on the risk factors such as smoking, alcohol consumption and the ethnicity, respectively, for with dysplasia groups, CEB and without dysplasia. Thus, these proteins can be considered potential early diagnostic markers of CEB.

Carcinogênese

Carcinogenesis

Carcinoma epidermoide

Leucoplasia bucal

Leukoplakia oral

MIF

MIF

Oncogene Protein v-akt

Proteína Oncogênica v-akt

Squamous cell carcinoma

Huntingtine et mitose / Huntingtin and mitosis

Molina-Calavita, Maria

22 October 2012

La maladie de Huntington (MH) est une maladie neurodégénérative héréditaire autosomique dominante. Elle résulte d’une expansion anormale de glutamines (polyQ) dans la partie N-terminale de la protéine huntingtine (HTT ; codé par HTT). La MH est caractérisée par la dysfonction et la mort de cellules neuronales dans le cerveau, entraînant l’apparition de symptômes cognitifs, psychiatriques et moteurs, dévastateurs chez les patients. De nombreuses études sur des modèles animaux et cellulaires montrent que l’expansion polyQ dans la protéine mutante conduit à un gain de nouvelles fonctions toxiques, ainsi qu’à la perte de fonctions neuroprotectives de la protéine sauvage. Pendant ma thèse, je me suis intéressée à la description et à la validation fonctionnelle d’un nouvel outil pour étudier la HTT : pARIS-htt. pARIS-htt est un gène synthétique construit pour faciliter le clonage et le marquage de la protéine HTT totale. En utilisant différentes approches cellulaires, nous avons montré que pARIS-htt peut remplacer le rôle de la HTT endogène dans le transport de vésicules du Golgi ainsi que du brain derived neurotrophic factor (BDNF). La version mutante de pARIS-htt ne peut pas restaurer cette fonction. Parallèlement, nous avons généré deux variants de pARIS-htt avec soit une délétion dans la région d’interaction de la HTT avec la dynéine, moteur moléculaire se dirigeant vers l'extrémité négative des microtubules, soit avec la huntingtin associated protein 1 (HAP1), l’un de ses interacteurs. Dans les expériences de remplacement du gène, aucun des deux mutants n’a restauré le transport vésiculaire.Un autre aspect de ma thèse a été d’étudier le rôle de la HTT au cours de la mitose. Nous avons mis en évidence l’importance de la HTT dans le contrôle de l’orientation du fuseau. Cette fonction est perdue lorque la HTT est mutée, mais restaurée lorsque celle-ci est phosphorylée par Akt à la sérine 421. Le contrôle de l’orientation du fuseau est particulièrement important durant la neurogénèse puisque cette orientation ainsi que le mode de division sont impliqués dans la détermination des devenirs cellulaires. Cette fonction de la HTT est conservée chez la D. melanogaster.Cette étude a donc permis de mieux comprendre les fonctions de la HTT, et de proposer de nouvelles cibles thérapeutiques pour traiter la MH. / Huntington disease (HD) is an autosomal-dominant neurodegenerative disorder caused by the pathogenic expansion of the poly-glutamine (polyQ) N-terminal stretch in the huntingtin protein (HTT; encoded by HTT). HD is characterized by the dysfunction and death of neurons in the brain, leading to devastating cognitive, psychiatric, and motor symptoms in patients. Studies in multiple cell and animal model systems support the notion that polyQ expansion in mutant HTT leads to the gain of new toxic functions and loss of the neuroprotective functions of the wild-type HTT. During my thesis, I focused on the description and functional validation of a new tool to study HTT: pARIS-htt. pARIS-htt is a synthetic gene built to facilitate cloning and tagging of full-length HTT. Using different cellular approaches, we showed that pARIS-htt can replace endogenous HTT in the transport of Golgi and brain derived neurotrophic factor (BDNF) containing vesicles. pARIS-htt mutant version could not restore vesicular transport when endogenous HTT was knocked-down. Moreover, we generated pARIS-htt deletion mutants for HTT interaction domain with dynein, a minus-end directed motor protein, and huntingtin associated protein 1 (HAP1), a HTT interactor. Both deletion mutants failed to restore vesicular transport in gene replacement assays. Another aspect of my thesis was the study of HTT during mitosis. We showed that HTT monitors spindle orientation though its interaction with diverse proteins involved in cell division. This function is lost when HTT is mutated and can be reverted by Akt phosphorylation at serine 421. The control of spindle orientation is particularly important during neurogenesis since spindle orientation and the mode of division of apical progenitors are implicated in the determination of cell fate. This function of HTT is conserved in D. melanogaster. This study contributes to the understanding of HTT functions and suggests new therapeutical approaches to treat HD.

Maladie de Huntington

Huntingtine

Polyglutamines

Transport intracellulaire

Mitose

Neurogenèse

Akt

Phosphorylation

Moteurs moléculaires

Huntington’s disease

Huntingtin

Polyglutamine

Intracellular transport

Mitosis

Neurogenesis

Akt

Phosphorylation

Molecular motors