The Novel Role of Interleukin-1 Receptor-Associated Kinase 1 in the Signaling Process Controlling Innate Immunity and Inflammation

Fang, Youjia

29 May 2009

Obesity-induced chronic inflammation plays a key role in the pathogenesis of insulin resistance and the metabolic syndrome. Proinflammatory cytokines can cause insulin resistance in adipose tissue, skeletal muscle and liver by inhibiting insulin signaling transduction. Interleukin-1 receptor-associated kinase-1 (IRAK-1) is a serine/threonine kinase functioning in Toll-like Receptor signaling pathways, and plays an important role in inflammation and immune response. In our studies, we demonstrated that IRAK-1 is involved with the negative regulation of PI3K-Akt dependent signaling pathway induced by insulin and TLR 2&4 agonists. Out data also indicate that IRAK-1 can interact with IRS-1 protein both in vivo and in vitro. The binding sites for the IRAK1-IRS1 biochemical interaction are IRS-1's PH domain and IRAK-1's proline-rich LWPPPP motif. Our studies also indicate that IRAK-1 is involved with the negative regulation of glycogen synthesis through inhibiting PI3K-Akt signaling pathway and thus releasing GSK3β's inhibitory effect on glycogen synthase. Moreover, our studies also suggest that IRAK-1 is involved in the activation of transcription factors CREB and ATF-1 by stimulating CREB-Ser133 and ATF-1 phosphorylation. CREB transcription factor family induces genes involved in cellular metabolism, gene transcription, cell cycle regulation, cell survival, as well as growth factor and cytokine genes. That may partially explain our finding that IRAK-1 may be also involved with cell proliferation and survival pathway. / Master of Science

CREB

IRS-1

GSK3β

insulin resistance

Akt

TLRs

IRAK-1

VEGF stimulates activation of ERK5 in the absence of C-terminal phosphorylation preventing nuclear localization and facilitating AKT activation in endothelial cells

17 November 2023

Yes / Extracellular-signal-regulated kinase 5 (ERK5) is critical for normal cardiovascular development. Previous studies have defined a canonical pathway for ERK5 activation, showing that ligand stimulation leads to MEK5 activation resulting in dual phosphorylation of ERK5 on Thr218/Tyr220 residues within the activation loop. ERK5 then undergoes a conformational change, facilitating phosphorylation on residues in the C-terminal domain and translocation to the nucleus where it regulates MEF2 transcriptional activity. Our previous research into the importance of ERK5 in endothelial cells highlighted its role in VEGF-mediated tubular morphogenesis and cell survival, suggesting that ERK5 played a unique role in endothelial cells. Our current data show that in contrast to EGF-stimulated HeLa cells, VEGF-mediated ERK5 activation in human dermal microvascular endothelial cells (HDMECs) does not result in C-terminal phosphorylation of ERK5 and translocation to the nucleus, but instead to a more plasma membrane/cytoplasmic localisation. Furthermore, the use of small-molecule inhibitors to MEK5 and ERK5 shows that instead of regulating MEF2 activity, VEGF-mediated ERK5 is important for regulating AKT activity. Our data define a novel pathway for ERK5 activation in endothelial cells leading to cell survival. / This research was funded by grants from: North West Cancer Research (NWCR): M.J.C. and A.K.M.; Medical Research Council (MRC DiMeN PhD): M.J.C. and K.A.; Biotechnology and Biological Sciences Research Council (BBSRC DTG Studentship): M.J.C., C.E.P.G., B.W. and G.N.N.; and Wellcome Trust Institutional Strategic Fund: M.J.C. and A.K.M.

Angiogenesis

ERK5

EGF

EGFR

VEGF-A

VEGFR-2

AKT

Endothelial cells

Effets anti-tumoraux du VIP dans des cellules de neuroblastome / Antitumurals effects of VIP in neuroblastoma cells

Boisvilliers, Madryssa de

12 November 2015

Le neuroblastome (NB) est un cancer pédiatrique dérivé de la crête neurale. Les NB à haut risque sont des tumeurs peu différenciées présentant une amplification de MYCN et les plus agressives possèdent en plus une mutation d'ALK. Pour améliorer le traitement de ces tumeurs, les nouvelles thérapies cherchent à induire la différenciation cellulaire, l'inhibition de MYCN et la réduction de la signalisation d'ALK. Les résultats obtenus indiquent que le VIP induit une neuritogenèse dans les cellules de NB à haut risque SK-N-DZ et Kelly, et réduit en plus l'expression de MYCN dans les cellules Kelly, comme précédemment observé pour les cellules IMR-32. En parallèle, le VIP diminue l'invasion des cellules Kelly et IMR-32 et réduit également l'activité d'AKT qui est impliquée dans la signalisation d'ALK, dans les cellules Kelly qui présentent la mutation ALK F1174L. Certains effets du VIP sont dépendants de la PKA. Des analogues du PACAP, un peptide apparenté au VIP, présentent une efficacité supérieure à celle du VIP dans les cellules Kelly. Les effets du VIP sur la neuritogenèse et l'expression de MYCN dans ces cellules sont médiés par le récepteur VPAC2 qui peut avoir une localisation nucléaire dans les lignées cellulaires et les cellules de patients atteints de NB. Une délocalisation de ce récepteur nucléaire par ses propres ligands est observée. De plus, des cellules souches mésenchymateuses humaines dérivées du tissu adipeux induisent la différenciation des cellules de NB via les peptides VIP et/ou PACAP. L'ensemble de ces résultats indiquent que le VIP et des analogues du PACAP agissent sur des processus moléculaires et cellulaires qui pourraient réduire l'agressivité des NB à haut risque, et pourraient donc présenter un intérêt pour une nouvelle thérapie. / Neuroblastoma (NB) is a pediatric cancer derived from neural crest. High-risk NB are poorly differentiated tumors with MYCN amplification and the most aggressive forms in addition have an ALK mutation. To improve the treatment of these tumors, the new therapies aim to induce cell differentiation, inhibition of MYCN and reduction of ALK signaling. The obtained results indicate that the neuropeptide VIP induces neuritogenesis in high-risk SK-N-DZ and Kelly NB cells, and in addition reduces the expression of MYCN in Kelly cells, as previously observed in IMR-32 cells. In parallel, VIP decreases Kelly and IMR-32 cell invasion and also reduces the activity of AKT that is involved in the signaling of ALK, in Kelly cells harboring the mutation ALK F1174L. Most of these VIP effects are PKA-dependent. Analogs of PACAP, a VIP-related peptide, exhibit a higher efficiency than VIP in Kelly cells. VIP effects on neuritogenesis and MYCN expression in these cells are mediated by the VPAC2 receptor which can have a nuclear localization in the NB cell lines and in NB from patients. A relocation of this nuclear receptor by its own ligand is observed. Moreover, human mesenchymal stem cells derived from adipose tissue induce NB cells differentiation via VIP and/or PACAP peptides. Taken together, these results indicate that VIP and PACAP analogs act on molecular and cellular processes that might reduce aggressiveness of high-risk NB, and thus could be of interest for new therapy.

Vip

Pacap

Analogues

Différenciation

Mycn

Akt

Pka

Invasion

ATSCs

Vip

Pacap

Analogs

Differentiation

Mycn

Akt

Pka

Invasion

ATSCs

571.6

572.8

Voies de signalisation et marqueur sérique de la prolifération cellulaire dans l’adénomyose / Cell signalling and serum marker of cell proliferation in adenomyosis

Streuli, Marie Isabelle

06 November 2015

L’adénomyose est une pathologie chronique bénigne de l’utérus caractérisée par une infiltration du myomètre par du tissu endométrial composé de glandes et de stroma avec une hypertrophie et une hyperplasie des cellules musculaires lisses adjacentes. Cette maladie fréquente de la femme en âge de procréer cause des symptômes invalidants comme des dysménorrhées, des saignements utérins anormaux et une infertilité. L’adénomyose utérine est souvent associée à d’autres pathologies gynécologiques bénignes œstrogéno-dépendantes comme les léiomyomes utérins et l’endométriose. Les options thérapeutiques médicamenteuses sont purement symptomatiques et non-curatives et l’adénomyose reste une cause majeure d’hystérectomie. Les mécanismes physiopathologiques qui aboutissent au développement de l’adénomyose sont probablement multifactoriels et ne sont que partiellement compris actuellement. Selon la théorie la plus communément admise, l’adénomyose trouve son origine dans la couche basale de l’endomètre avec une invagination de cellules entre les faisceaux musculaires et/ou le long de vaisseaux lymphatiques. De multiples facteurs pourraient être impliqués dans l’initiation de cette invasion, notamment une résistance à l’action de la progestérone, une production intra-lésionnelle d’œstrogènes par activation de l’aromatase, des anomalies myométriales prédisposant à l’invasion, des lésions tissulaires induites par la grossesse, l’accouchement, le dyspéristaltisme utérin ou iatrogènes et des anomalies de l’endomètre le prédisposant à l’invasion. Dans un premier temps nous détaillons, dans un article de revue, les traitements médicamenteux actuellement utilisés pour traiter les symptômes causés par l’adénomyose et discutons les mécanismes physiopathologiques qui pourraient être la cible de nouveaux traitements médicamenteux. Ensuite, nous exposons les résultats de l’étude in vitro des voies de signalisation cellulaires des mitogen-activated protein kinases (MAPKs) et phosphatidylinositol 3 kinase/Akt/mammalian target of rapamycin (PI3K/mTOR/Akt) dans les cellules musculaires lisses utérines issues de femmes avec de l’adénomyose et de témoins sans adénomyose. Nous montrons une augmentation de la prolifération des cellules myométriales avec une activation in vitro de la voie MAPK/ERK chez les femmes avec de l’adénomyose en comparaison avec les témoins. L’activation de la voie PI3K/mTOR/Akt n’est pas significativement différente. La production de dérivés réactifs de l’oxygène et leurs voies de détoxification ne sont pas différentes dans les cellules myométriales de femmes avec de l’adénomyose et celles de témoins, ce qui suggère une activation de la voie des MAPK/ERK indépendante des dérivés réactifs de l’oxygène. Nos résultats montrent que des inhibiteurs des protéines kinases et le rapanalogue temsirolimus contrôlent la prolifération des cellules myométriales in vitro, ce qui suggère une implication des voies de signalisation MAPK/ERK et PI3K/mTOR/Akt dans la prolifération des cellules musculaires lisses dans l’adénomyose et les léiomyomes. Finalement, nous avons étudié l’ostéopontine comme biomarqueur sérique dans une cohorte de femmes en âge de procréer opérées pour des pathologies gynécologiques bénignes. La présence d’endométriose a été déterminée chirurgicalement et les lésions endométriosiques ont été confirmées histologiquement et classées en lésions superficielles, endométriomes ou lésions invasives profondes. La présence d’adénomyose a été déterminée par imagerie par résonance magnétique préopératoire et deux types d’adénomyose ont été caractérisés : l’adénomyose diffuse, l’adénomyose focale avec ou sans lésions diffuses associées. L’ostéopontine sérique est diminuée en cas d’adénomyose focale et de lésions d’endométriose profonde en comparaison avec des témoins sains et augmentée dans l’endométriose superficielle en comparaison avec l’endométriose profonde. (...) / Adenomyosis is chronic benign uterine disease characterized by myometrial infiltration by endometrial tissue – both glands and stroma – with hypertrophy and hyperplasia of surrounding smooth muscle cells. This frequent disease occurring in reproductive age women causes invalidating symptoms such as dysmenorrhoea, abnormal uterine bleeding and infertility. Adenomyosis is frequently associated with other estrogen-dependant gynaecologic diseases such as uterine leiomyomas and endometriosis. Medical treatments are non-curative and act purely by alleviating symptoms and adenomyosis remains a major cause of hysterectomy. Physiopathological mechanisms underlying the disease are probably multifactorial and currently not fully elucidated. According to the most widely accepted theory adenomyosis originates from the basal layer of the endometrium which invaginates between smooth muscle cell bundles and/or along lymphatic vessels. Multiple factors could be implicated in triggering this invasion, amongst others resistance to progesterone, intra-lesional production of estrogens through aromatase activation, myometrial anomalies predisposing to invasion, tissue lesions induced by pregnancy, labour, uterine dysperistaltism or iatrogenic and endometrial anomalies predisposing to invasion. First, in a clinical review article, we detail current medical therapies used to alleviate adenomyosis-associated symptoms and discuss physiopathological mechanisms that could be targets for novel medical treatments. We then describe an in vitro study on the activation of the mitogen-activated protein kinases (MAPKs) and phosphatidylinositol three kinase/mammalian target of rapamycin/Akt (PI3K/mTOR/Akt) signalling pathways in uterine smooth muscle cells derived from women with adenomyosis and from adenomyosis-free controls. We show an increased proliferation of uterine smooth muscle cells related to the in vitro activation of the MAPK/ERK pathway in women with adenomyosis compared to controls. The activation of PI3K/mTOR/Akt was not significantly different. The production of reactive oxygen species and their detoxification enzymes were not different in uterine smooth muscle cells of women with adenomyosis compared to controls suggesting a reactive oxygen species independent activation of the MAPK/ERK pathway. Our results also show that inhibitors of protein kinases and the rapanalogue temsirolimus control the in vitro proliferation of uterine smooth muscle cells suggesting an implication of both MAPK/ERK and PI3K/mTOR/Akt in the proliferation of uterine smooth muscle cells in adenomyosis and leiomyomas. Finally, we studied osteopontin as a serum biomarker in a cohort of reproductive-age women undergoing surgery for benign gynaecological conditions. The presence of endometriosis was determined surgically and endometriosis lesions were confirmed histologically and classified into superficial lesions, endometriomas and deep infiltrating lesions. The presence of adenomyosis was determined by magnetic resonance imaging before surgery and women were classified according to two types of adenomyosis: diffuse adenomyosis, focal adenomyosis with or without associated diffuse lesions. Osteopontin levels were decreased in case of focal adenomyosis and deep infiltrating endometriosis compared to disease-free women and increased in superficial endometriosis compared to deep infiltrating endometriosis. Osteopontin, a secreted glycoprotein implicated in inflammation and in tumor-metastasis, is not a biomarker of disease severity in endometriosis and adenomyosis but could reflect events implicated in peritoneal dissemination of endometriosis lesions.

Adénomyose

Signalisation cellulaire

MAPK

PI3K/mTOR/Akt

Biomarqueur

Ostéopontine

Adenomyosis

Cell-signalling

MAPKs

PI3k/mTOR/Akt

Biomarker

Osteopontin

571.96

Ativação e bloqueio, da via de sinalização do PI3K, em células cultivadas de carcinoma epidermóide: correlação com a expressão das proteínas AKT, B-catenina, ciclina D1 e PTEN / PI3K signaling pathway activation and inactivation in head and neck squamous cell carcinoma: correlation with AET, B-catenin, cyclin D1 and PTEN expression

Sales, Katiuchia Uzzun

11 October 2006

O carcinoma epidermóide de cabeça e pescoço é responsável por 90% das neoplasias malignas, nesta região. Molecularmente, inúmeras vias de sinalização, ainda não muito bem compreendidas, são responsáveis pelo seu crescimento e invasão para tecidos vizinhos, além de metástases para órgãos distantes. Este trabalho destinou-se a avaliar o crosstalk entre as vias de sinalização do Wnt e PI3K, quando células de carcinoma epidermóide (HN6 e HN31) e queratinócitos imortalizados (HaCat), foram estimulados com 50nM Wortmannin (metabólito fúngico que mimetiza a função da PTEN) e 10ng/ml EGF (fator de crescimento epitelial). Para isto, proteínas-chave, pertencentes a estas vias, foram localizadas e quantificadas no interior celular: PTEN, ?-catenina, Akt, pAkt e Ciclina D1. As técnicas de imunofluorescência e western blot foram utilizadas, respectivamente, para observar a localização e os níveis destas proteínas, nos diferentes compartimentos celulares. Os resultados mostraram que a ativação da via do PI3K, pelo EGF, promoveu a proliferação celular, independentemente da via de sinalização do Wnt. Quando as células foram tratadas com wortmannin, houve depleção dos níveis citosólicos e totais de pAkt associada ao acúmulo citoplasmático de ciclina D1. Igualmente, não houve alteração nos níveis da proteína ?-catenina. Ademais, detectou-se a presença de PTEN nuclear em todas as linhagens estudadas. Desta forma, estas células de carcinoma epidermóide de cabeça e pescoço, apresentaram mecanismos de bloqueio e de ativação da proliferação celular, predominantemente, por atividade das proteínas PTEN (atividades citoplasmática e nuclear) e Akt, após o tratamento com wortmannin e EGF. / Head and neck squamous cell carcinoma (HNSCC) represents 90% of all head and neck malignancies. Cancer growth, invasion and metastasis are due to several signaling pathways that, unfortunately, are not completely understood. The aim of this study was the crosstalk evaluation between PI3K and Wnt signaling pathways in two different HNSCC cell lines (HN6 and HN31) and HaCat cell line (immortalized keratinocytes), treated with 50nM wortmannin and 10ng/ml EGF (epidermal growth factor). Western blot and imunofluorescence were performed in order to analyze Wnt, PTEN and PI3K signaling key target proteins: PTEN, Akt, CyclinD1 and ?-catenin. Results showed that ?-cateninindependent cellular proliferation was promoted by PI3K signaling pathway EGF-dependent activation. After wortmannin treatment, correlation between decreased phospho-Akt levels and cytosolic cyclin D1 accumulation was found. Also, all cell lines exhibited nuclear PTEN activity. Taking these results together, we conclude that the Cyclin D1 positive and negative modulations, after EGF and wortmannin treatments, were due to, respectively, Akt and PTEN proteins.

Akt

AKT

B-catenin

B-catenina

Carcinoma epidermóide

Ciclina D1

Cyclin D1

EGF

EGF

HNSCC

PTEN

PTEN

Wortmannin

Wortmannin

Bases moleculares da depleção de glutationa sobre a pontencialidade, diferenciação e envelhecimento de células-tronco de pele / Molecular basis of glutathione depletion upon the potenciality, differentiation potential and aging of skin stem cells

Forni, Maria Fernanda Pereira de Araújo Demonte

14 March 2013

A pele está em contínua auto-renovação graças a vários nichos de células-tronco presentes neste tecido. Células progenitoras epidérmicas surgem durante o desenvolvimento embrionário e contribuem para a reposição celular da epiderme durante todo o período de vida dos mamíferos. Neste trabalho, buscou-se analisar o papel da depleção de glutationa durante a estratificação da epiderme embrionária e na manutenção da homeostase no tecido adulto. Encontramos evidências de que este tiol tem um importante papel durante a proliferação da epiderme e formação do folículo capilar. As alterações observadas na ausência de GSH foram relacionados com um padrão diferencial de fosforilação dos fatores de transcrição forkhead-homeobox- tipo-O (FOXO). Em resumo, foi estabelecida uma correlação entre o estado de GSH, a fosforilação de FOXO e o desenvolvimento da epiderme. Para melhor estudar a importância do balanço de GSH, na pele do adulto, e seu papel na manutenção deste tecido, camundongos foram tratados com um inibidor da síntese de GSH e, com N-aceti-lcisteína. Foi observado um aumento da fosforilação de Akt, padrões alterados de fosforilação FOXO e aumento da expressão de genes de genes relacionados à diferenciação. Estes resultados mostram que a via Akt/FOXO desempenha um papel importante na manutenção e diferenciação de células-tronco epidermais. O envelhecimento cronológico leva a alterações morfológicas/funcionais que conduzem à diminuição da auto-renovação, o que ocorre concomitantemente com uma diminuição dos níveis de GSH na pele. Utilizamos, também, animais idosos e avaliamos quais mecanismos eram compartilhados pelo envelhecimento e a depleção deste tiol. Observou-se que uma resposta hiperproliferativa ligada à exaustão de células-tronco pode ser o elo entre a depleção de GSH e o envelhecimento. A influência desse processo também foi investigada no compartimento dérmico, através da análise do impacto da depleção de glutationa sobre a osteogênese de células-tronco mesenquimais murinas. Quando induzidas a se diferenciarem em osso (Alizarin-Red+/Von-Kossa-stain +, aumento dos níveis de mRNA para fosfatase alcalina/osteopontina/osterix), o balanço GSH/GSSG e seu sistema antioxidante correlato é diferencialmente regulado em células-tronco mesenquimais derivadas da derme. Sendo regulado de uma forma redox-dependente através da via de MAPKs. A depleção de GSH leva à diminuição nos níveis de osteogênese em favor da adipogênese, levando ao processo comumente associado ao envelhecimento denominado \"adipogenic switc\". Em conclusão, os dados obtidos permitem propor um papel central para a glutationa na manutenção/comprometimento de células-tronco na pele. / The skin is continuously self-renewing thanks to several stem cell niches. Epidermal progenitor cells arise during embryonic development and contribute to the replenishment of the epidermis during the lifetime of mammals. We set out to analyze the glutathione (GSH) antioxidant system during embryonic epidermis stratification and follicle development and the effect of glutathione withdrawal in this process. We found that glutathione plays an important role during epidermis proliferation and hairshaft formation. The changes observed in the absence of GSH were related to a differential phosphorylation pattern of the forkhead-homeobox-type-O (FOXO) transcription factors. In brief, a correlation between GSH status, FOXO phosphorylation and skin development was established. To further study the importance of GSH in adult skin maintenance and understand the effects of ROS in the Akt/FOXO pathway, we treated cells and mice with an inhibitor of GSH synthesis, and with N-acetyl-cysteine. Increased Akt phosphorylation, altered FOXO phosphorylation patterns and increased gene expression of differentiation-related genes were observed. Our results show that the Akt/FOXO pathway plays an important role in maintenance/differentiation of epidermal stem cells. Chronological ageing leads to morphological/functional changes causing a decline in self-renewal, as well as decreased levels of GSH. We also observed that a cell cycle hyperproliferative response was the link between stem cell exaustion in GSH-depletion and ageing. Dermal mesenchymal stem cells (MSCs), are capable of adipo-chondro- and osteogenesis. Little is known about the impact of ROS in MSC differentiation. We induced murine skin MSCs to differentiate into bone (Alizarin-Red/Von-Kossastain+, increased levels of mRNA for alkalinephosphatase/ osteopontin/osterix). In brief, the balance of GSH/GSSG and related antioxidant system is differentially regulated during this process, found to be regulated in a redox-dependent fashion through the MAPK pathway. When depleted, GSH leads to an adipogenic switch in MSC differentiation. In conclusion, our data leads us to propose a central role for glutathione in the maintenance/commitment of stem cells in skin.

Aging

Akt/FOXO

Akt/FOXO

Células-tronco

Envelhecimento

Expressão gênica

Gene expression

Glutathione

Glutationa

MAPK

MAPK

Pele

Skin stem cell

Análise comparativa da expressão imuno-histoquímica da via PI3K-AKT-mTOR em displasias epiteliais, lesões irritativas e carcinomas espinocelulares / Comparative analysis of the immunohistochemical expression of PI3K-AKT-mTOR in epithelial dysplasia, irritative lesions and squamous cell carcinomas

Martins, Fabiana Martins e

08 May 2013

A leucoplasia é a mais comum das lesões potencialmente malignas (LPM) da mucosa bucal acometendo cerca de 2% da população. A via PI3K- AKT-mTOR, tem papel importante na carcinogênese em diversos tumores, incluindo o câncer de cabeça e pescoço e estudos têm apontado os inibidores do mTOR como promissores agentes de avaliação terapêutica. Desta forma, no presente estudo avaliamos a expressão imuno-histoquímica de lesões bucais diagnosticadas clinicamente como leucoplasias, comparando-as com carcinomas espinocelulares (CEC), hiperqueratoses irritativas (HI) e mucosa normal (MN). Foram avaliados 186 casos, divididos em 5 grupos tais como displasia epitelial de alto risco (DAR), displasia epitelial de baixo risco (DBR), CEC, HI e MN. Os casos foram retirados do arquivo do Serviço de Patologia Cirúrgica da Disciplina de Patologia Bucal da Faculdade de Odontologia da Universidade de São Paulo. As informações clínicas, relativas ao sexo e idade dos pacientes e localização das lesões foram compiladas. Todas as lesões selecionadas foram observadas ao HE por dois patologistas, ao microscópio de luz para confirmação dos diagnósticos. As proteínas pesquisadas incluiram: pAKT, pmTOR, pS6, e p4EBP1. A marcação dos diversos anticorpos foi quantificada com o auxílio da aquisição de imagens realizada com o uso de um fotomicroscópio. Na imagem capturada (aumento de 400x), foi observada a presença ou ausência de células marcadas, bem como, numa segunda análise, a quantidade percentual das mesmas. Na primeira análise, o padrão de marcação foi classificado em positivo e negativo e, na segunda, foi classificado em graus de 0 a 3. As variáveis do estudo foram avaliadas pelos testes Qui-quadrado e o teste F, ANOVA e posteriormente foi realizada uma regressão logística univariada. Entre todos os casos de mucosa oral normal, foi encontrada positividade somente para o anticorpo pS6, em 50%dos casos; nas HI houve marcações positivas para a pS6 (em 54,8% dos casos) e p4EBP1 (em 22,6% dos casos). Nas DBR foi observada a imunorreatividade aos anticorpos pS6 (em 67,4% dos casos), pAKT(em 56,2% dos casos), p4EBP1(em 41,7%dos casos) e pmTOR (em 29,2% dos casos), já nas DAR houve positividade para a pS6 (em 74% dos casos), pAKT (em 68% dos casos), p4EBP1 (em 44% dos casos) e pmTOR (em 28% dos casos). Os CECs expressaram pAKT ( em 83,3% dos casos), pS6 (em 77,4% dos casos), p4EBP1(em 50% dos casos) e pmTOR (em 50%dos casos). Quando se considerou o resultado da marcação positiva ou negativa, houve diferença estatisticamente significante, ente os grupos, em relação ao número de casos que expressaram as proteínas pAKT, pmTOR e p4EBP1, sendo que o grupo dos CECS foi o que apresentou maior frequência de imunorreatividade para todos os anticorpos estudados. Comparando-se apenas as lesões de CEC e DEO, observou-se que mais casos de CEC foram positivos para pAKT e pmTOR e não observou-se diferença na expressão do p4EBP1. Logo, podemos concluir que todas as proteínas estudadas, exceto a pS6, representam bons biomarcadores no que se concerne à diferenciação entre MN, HI, DEO e CEC. Entretanto somente as proteínas pAKT e pmTOR podem ser relacionadas à carcinogênese oral . / Leukoplakia is the most common potentially malignant lesion (PML) of the oral cavity affecting approximately 2% of the population. PI3K-AKT-mTOR pathway plays an important role in carcinogenesis in many tumors, including head and neck cancer, and several studies have showed mTOR inhibitors as promising therapeutic agents. In this study we evaluated the immunohistochemical expression of oral lesions diagnosed clinically as leukoplakia and squamous cell carcinoma (SCC), comparing them to normal mucosa (NM) and frictional hyperkeratosis (FR). We evaluated 186 cases, divided into 5 groups including high risk dysplasia (HRD), low risk dysplasia (LRD), SCC, NM and FR. The cases were obtained from the archives of the Oral Pathology Laboratory of the School of Dentistry of the University of São Paulo. Clinical information regarding sex, age of the patient and location of the lesions were compiled. The slides (HE staining) were observed by two pathologists and all cases were re-evaluated under light microscope. The proteins investigated were: pAKT, pmTOR, PS6, and p4EBP1. The staining pattern of the antibodies was quantified by acquiring images using a photomicroscope. In the captured image (400x magnification), the total of counted labeled cells, were divided by the total number of cells present in the field captured. The staining pattern was classified into positive and negative and also divided into degrees starting from 0 to 3. The study variables were evaluated by chi-square test, ANOVA F and univariate logistic regression analysis. Among all the cases of MN, positivity was found only for pS6 (50% of cases); in FH cases immunoreactivity was observed in pS6 (54.8% of cases) and 4EBP1 (22.6% of cases). In LRD immunoreactivity was observed in pS6 (67.4% of cases), pAKT (56.2% of cases), p4EBP1 (41.7% of cases) and pmTOR (29.2% of cases), while for HRD cases positivity was found for pS6 (74% of cases), pAKT (68% of cases), p4EBP1 (44% of cases) and pmTOR (28% of cases). In SCCs cases positivity was found for pAKT (83.3% of cases), PS6 (77.4% of cases), p4EBP1 (50% of cases) and pmTOR (50% of cases). Statistically significant differences were observed in all positive study groups for the proteins pAKT, pmTOR and p4EBP. After the evaluation of SCC and the oral dysplasia groups, there were statistically significant differences for the study groups that showed imunorretivity for the proteins pAKT and pmTOR. Therefore, we conclude that all the proteins of the study are good biomarkers to differentiate normal tissue from OD and SCC, but only pAKT and pmTOR proteins could be related to carcinogenesis.

AKT

AKT

Biomarcadores

Biomarkers

Carcinoma espinocelular

Displasia epitelial

Epithelial dysplasia

Leucoplasia oral

mTOR

mTOR

Oral leukoplakia

Squamous cell carcinoma

Mécanismes de régulation de la balance prolifération/différenciation érythroïde par les facteurs de transcription GATA-1, FOG-1, E2F et la voie de signalisation Akt / Control mechanisms of the balance between proliferation and erythroid differentiation by transcription factors GATA-1, FOG-1, E2F and Akt signaling pathway

Lefevre, Carine

18 March 2013

Avec plus de 100 milliards de globules rouges produits chaque jour, le lignage érythroïde présente la plus grande capacité de production cellulaire chez le mammifère adulte. Cette production requiert une balance fine entre la prolifération cellulaire, régulée principalement par la voie de signalisation érythropoïétine (Epo)/PI3K/Akt, et la différenciation érythroïde induite par le couple de facteurs de transcription GATA-1/FOG-1. Des interconnexions entre ces deux grands systèmes ont été décrites dans le laboratoire : 1) le facteur de transcription GATA-1 est phosphorylé par Akt en réponse à l’Epo et cette phosphorylation semble avoir un rôle dans la différenciation érythroïde ; 2) GATA-1 est capable d’interagir avec la protéine du rétinoblastome pRb, impliquée dans la régulation du cycle cellulaire, et le complexe formé est nécessaire à l’érythropoïèse terminale.L'objectif de ma thèse était d’étudier les mécanismes moléculaires impliqués dans la balance prolifération/différenciation cellulaire au cours de l’érythropoïèse, et en particulier de déterminer le rôle moléculaire et physiologique de la phosphorylation de GATA-1 par Akt en réponse à l’Epo. Nos travaux ont montré que cette phosphorylation est une des clefs de la dynamique de l’érythropoïèse. Dans sa forme non phosphorylée, GATA-1 ralentit le cycle cellulaire via le complexe GATA-1/pRb/E2F. Cette étape préliminaire est nécessaire à la mise en place de la différenciation érythroïde terminale. La phosphorylation de GATA-1 induit d’une part la dissociation de GATA-1/pRb/E2F favorisant l’expansion cellulaire, et d’autre part la formation du complexe GATA-1/FOG-1 nécessaire à l’activation des gènes érythroïdes. Ce modèle apporte une explication moléculaire au blocage de la différenciation érythroïde terminale induite par le mutant GATA-1V205G qui n’interagit pas avec FOG-1. Ainsi, la phosphorylation constitutive de GATA-1V205G et l’augmentation de la quantité relative de FOG-1 permettent de restaurer la différenciation érythroïde induite par ce mutant in vitro. Enfin, l’étude d’un modèle murin exprimant une protéine GATA-1 non phosphorylable par Akt montre l’apparition d’une anémie létale lorsque la voie IGF-1 est inhibée. Cela démontre l’importance de la dynamique moléculaire induite par la phosphorylation de GATA-1, et met en évidence le rôle majeur de l’IGF-1 dans l’érythropoïèse in vivo.En conclusion, nous proposons un nouveau modèle moléculaire de la régulation de la balance prolifération/différenciation érythroïde dans lequel la phosphorylation de GATA-1 par Akt coordonne la distribution de GATA-1 dans deux complexes protéiques fonctionnels différents : GATA-1/pRb/E2F versus GATA-1/FOG-1. Nous mettons également en évidence l’IGF-1 comme acteur central de la compensation mise en place in vivo pour pallier à l’absence de phosphorylation de GATA-1. / With more than 100 billion red blood cells generated every day, the erythroid lineage has the largest output of cell production in adult mammals. This production requires a tight balance between cell proliferation, mainly controlled by erythropoietin (Epo)/PI3K/Akt signaling pathway, and erythroid differentiation induced by GATA-1 and FOG-1 transcription factors. Various links between these two processes have been previously demonstrated in the laboratory: 1) Epo-activated Akt directly phosphorylates GATA-1 transcription factors, and this phosphorylation seems to be involved in erythroid differentiation; 2) GATA-1 binds to the cell cycle regulator retinoblastoma protein (pRb), and the resulting complex is essential for terminal erythropoiesis.We investigated the molecular mechanisms involved in the cell proliferation/differentiation balance during terminal erythropoiesis; in particular, we studied the molecular and physiological role of Epo-induced GATA-1 phosphorylation. Our findings suggest that this phosphorylation is one of the key processes in erythropoiesis dynamics. In its unphosphorylated form, GATA-1 can break cell cycle progression via GATA-1/pRb/E2F complex. This preliminary step is necessary for terminal erythroid differentiation. GATA-1 phosphorylation promotes GATA-1/pRb/E2F dissociation, allowing cell cycle progression, and GATA-1/FOG-1 binding, necessary to activate erythroid genes. Our model provides a molecular explanation for the arrest of terminal erythroid differentiation observed in the non-FOG-1-binding mutant GATA-1V205G. We show that the constitutive phosphorylation of GATA-1V205G and the increase of FOG-1 protein amount rescue erythroid differentiation in vitro. Finally, knock-in expression of unphosphorylatable GATA-1 in mice leads to lethal anemia when the IGF-1 signaling pathway is inhibited. This shows the importance of the molecular dynamics of GATA-1 phosphorylation, and highlights the major role of IGF-1 in erythropoiesis, in vivo.In conclusion, we propose a new molecular model for the control of the balance between proliferation and erythroid differentiation. GATA-1 phosphorylation by Akt coordinates the involvement of GATA-1 in two different functional protein complexes: GATA-1/pRb/E2F and GATA-1/FOG-1. We also highlight the major role of IGF-1 in compensating for the lack of GATA-1 phosphorylation in vivo.

Erythropoïèse

GATA-1

Phosphorylation

Akt

FOG-1

IGF-1

Erythropoiesis

GATA-1

Phosphorylation

Akt

FOG-1

IGF-1

Avaliação in vitro da expressão das proteínas PTEN, Akt, Mdm2 e p53 em células de carcinoma epidermóide de cabeça e pescoço submetidas a ação de EGF e 17-AAG / In vitro evaluation of the expression of PTEN protein, Akt, Mdm2 and p53 in cells of squamous cell carcinoma of head and neck under the action of EGF and 17-AAG

Pontes, Flavia Sirotheau Corrêa

03 September 2007

O carcinoma epidermóide de cabeça e pescoço é responsável por 90% das neoplasias malignas, nesta região. Molecularmente, inúmeras vias de sinalização, ainda não muito bem compreendidas, são responsáveis pelo seu crescimento e invasão para tecidos vizinhos, além de metástases para órgãos distantes. Este trabalho destinou-se a avaliar o crosstalk entre as vias de sinalização do PTEN, Akt, Mdm2 e p53 em quatro linhagens de células de carcinoma epidermóide (HN6, HN19, HN30 e HN31) e queratinócitos imortalizados (HaCat), estimulados com EGF (fator de crescimento epitelial) e 17-AAG. Para observar a localização e os níveis de PTEN, Akt, Mdm2 e p53 nos diferentes compartimentos celulares estas proteínas foram localizadas e quantificadas no interior celular através das técnicas de imunofluorescência e western blot, respectivamente. Os resultados mostraram que a ativação da via do PI3K/Akt, pelo EGF, promoveu a proliferação celular, sendo HN31 a linhagem celular de melhor resposta proliferativa. Quando as células foram tratadas com 17-AAG a linhagem HN31 foi a que melhor traçou um perfil apoptótico com diminuição dos níveis de Akt, ausência de Mdm2 e aumento dos níveis de PTEN e p53. As linhagens celulares HN6 e HN19 continuaram apresentando níveis significativos de Akt e Mdm2, o que sugere um potencial mais agressivo devido a manutenção do comportamento proliferativo e anti-apoptótico destas linhagens. / Head and neck squamous cell carcinoma (HNSCC) represents 90% of all head and neck malignancies. Cancer growth, invasion and metastasis are due to several signaling pathways that, unfortunately, are not completely understood. The aim of this study was the crosstalk evaluation among PTEN, Akt, Mdm2 and p53 signaling pathways in four different HNSCC cell lines (HN6, HN19, HN30 and HN31) and HaCat cell line (immortalized keratinocytes), all of than treated with 10ng/ml EGF (epidermal growth factor) and 2?M 17-AAG. Western blot and imunofluorescence were performed in order to analyze PI3K/Akt signaling key target proteins: PTEN, Akt, Mdm2 and p53. Treatment of HNSCC cell lines with EGF resulted in activation of the PI3K/Akt pathway and enhanced cell proliferation. The results showed higher proliferative activity in HN31 cell line. The treatment of HNSCC cell lines with 17-AAG inhibited the proliferation in various levels. HN31 cell lines expressed PTEN and p53 in high levels and low expression for Akt and Mdm2 proteins. These findings suggest that 17-AAG can induce p53-dependent apoptosis in HN31 cell lines. On the contrary, HN6 and HN19 cell lines displayed high levels of Akt and Mdm2 proteins, resulting in decreased apoptosis and increased aggressive potential.

17-AAG

17-AAG

Akt

Akt

Carcinoma epidermóide

EGF

EGF

HNSCC

Mdm2

Mdm2

p53

p53

PTEN

PTEN

Avaliação in vitro da expressão das proteínas PTEN, Akt, Mdm2 e p53 em células de carcinoma epidermóide de cabeça e pescoço submetidas a ação de EGF e 17-AAG / In vitro evaluation of the expression of PTEN protein, Akt, Mdm2 and p53 in cells of squamous cell carcinoma of head and neck under the action of EGF and 17-AAG

Flavia Sirotheau Corrêa Pontes

03 September 2007

O carcinoma epidermóide de cabeça e pescoço é responsável por 90% das neoplasias malignas, nesta região. Molecularmente, inúmeras vias de sinalização, ainda não muito bem compreendidas, são responsáveis pelo seu crescimento e invasão para tecidos vizinhos, além de metástases para órgãos distantes. Este trabalho destinou-se a avaliar o crosstalk entre as vias de sinalização do PTEN, Akt, Mdm2 e p53 em quatro linhagens de células de carcinoma epidermóide (HN6, HN19, HN30 e HN31) e queratinócitos imortalizados (HaCat), estimulados com EGF (fator de crescimento epitelial) e 17-AAG. Para observar a localização e os níveis de PTEN, Akt, Mdm2 e p53 nos diferentes compartimentos celulares estas proteínas foram localizadas e quantificadas no interior celular através das técnicas de imunofluorescência e western blot, respectivamente. Os resultados mostraram que a ativação da via do PI3K/Akt, pelo EGF, promoveu a proliferação celular, sendo HN31 a linhagem celular de melhor resposta proliferativa. Quando as células foram tratadas com 17-AAG a linhagem HN31 foi a que melhor traçou um perfil apoptótico com diminuição dos níveis de Akt, ausência de Mdm2 e aumento dos níveis de PTEN e p53. As linhagens celulares HN6 e HN19 continuaram apresentando níveis significativos de Akt e Mdm2, o que sugere um potencial mais agressivo devido a manutenção do comportamento proliferativo e anti-apoptótico destas linhagens. / Head and neck squamous cell carcinoma (HNSCC) represents 90% of all head and neck malignancies. Cancer growth, invasion and metastasis are due to several signaling pathways that, unfortunately, are not completely understood. The aim of this study was the crosstalk evaluation among PTEN, Akt, Mdm2 and p53 signaling pathways in four different HNSCC cell lines (HN6, HN19, HN30 and HN31) and HaCat cell line (immortalized keratinocytes), all of than treated with 10ng/ml EGF (epidermal growth factor) and 2?M 17-AAG. Western blot and imunofluorescence were performed in order to analyze PI3K/Akt signaling key target proteins: PTEN, Akt, Mdm2 and p53. Treatment of HNSCC cell lines with EGF resulted in activation of the PI3K/Akt pathway and enhanced cell proliferation. The results showed higher proliferative activity in HN31 cell line. The treatment of HNSCC cell lines with 17-AAG inhibited the proliferation in various levels. HN31 cell lines expressed PTEN and p53 in high levels and low expression for Akt and Mdm2 proteins. These findings suggest that 17-AAG can induce p53-dependent apoptosis in HN31 cell lines. On the contrary, HN6 and HN19 cell lines displayed high levels of Akt and Mdm2 proteins, resulting in decreased apoptosis and increased aggressive potential.

17-AAG

Akt

Carcinoma epidermóide

EGF

Mdm2

p53

PTEN

17-AAG

Akt

EGF

HNSCC

Mdm2

p53

PTEN