Prise en charge des thymomes chez l'homme : développement de cultures de cellules épithéliales dérivées de tumeurs pour la compréhension des dérégulations de la cellule tumorale / Management of human thymomas : development of thymic epithelial cell cultures derived from tumors for the understanding of tumoral cells dysregulation

Maury, Jean-Michel

23 May 2019

Les tumeurs épithéliales thymiques (TET) humaines sont rares (250 - 300 cas/an en France). On distingue les thymomes de type A, AB ou B d'évolution lente avec une survie actuarielle > 95% à 5 ans pour les stades précoces et les carcinomes thymiques d'évolution plus sévère avec une survie actuarielle à 5 ans < 20% pour les stades IV. La pierre angulaire du traitement des TET est l'exérèse chirurgicale complète, facteur pronostique le plus significatif identifié à ce jour. Les récidives des TET, essentiellement pleurales pour les thymomes et générales pour les carcinomes thymiques, sont de prise en charge complexe. Les avancées thérapeutiques sont limitées notamment par l'absence de modèles d'étude de la cellule épithéliale thymique tumorale. Dans le cadre d'une prise en charge multidisciplinaire des récidives pleurales métastatiques, nous avons développé la pleurectomie de cytoréduction associée à une chimio hyperthermie (cisplatine/ mitomycine ; 42°C) intra thoracique (CHIT) pour la prise en charge des métastases pleurales de thymome. Chez des patients sélectionnés (n=19), la médiane de survie sans récidive était de 53 mois et les survies actuarielles à 1 an et 5 ans étaient respectivement de 93% et 86%. Cette technique chirurgicale innovante a permis de développer une alternative à la morbide pleuro pneumonectomie. L'efficacité de la CHIT pose des questions sur le rôle de l'hyperthermie et sur le type de chimiothérapie à associer. Avec pour objectif d'améliorer la prise en charge des patients, la connaissance de la biologie tumorale thymique et l'identification de potentielles cibles thérapeutiques sont des voies de recherche importantes pour améliorer la survie des patients. Nous avons développé des cultures de cellules épithéliales thymiques dérivées in vitro de 12 TET (11 thymomes A, AB ou B et un carcinome thymique), caractérisées par leur potentiel prolifératif et leur expression de cytokératine. La voie PI3K / Akt / mTOR joue un rôle clé dans de nombreux cancers ; plusieurs études de phases I / II ont rapporté un effet positif des inhibiteurs de mTOR pour le contrôle de l'évolution du thymome chez les patients. Nous avons mis en évidence l'expression et l'activation des effecteurs mTOR, Akt et P70S6K dans les thymomes et dans les cellules épithéliales thymiques dérivées in vitro. Nous avons montré l'efficacité de la rapamycine, inhibiteur de mTOR, à réduire la prolifération cellulaire (30%) sans induire de mort cellulaire. Nos résultats suggèrent que l'activation de la voie Akt / mTOR participe à la prolifération cellulaire associée à la croissance tumorale. Nous avons établi un nouvel outil permettant l'étude de la dérégulation cellulaire au cours des thymomes. Dans un contexte de tumeurs rares, ces cellules permettront d'aborder des études mécanistiques in vitro et de tester l'efficacité de drogues anti tumorales / Human thymic epithelial tumors (TETs) are rare (250 – 300 cases/ year in France). We distinguish thymomas (A, AB and B subtypes) with indolent evolution (5 years actuarial survival in early stages >95%) and more aggressive thymic carcinomas (5 years actuarial survival <20% in stage IV). Surgical complete resection when feasible is the corner stone of a multimodal therapy and the most significant factor on survival. Relapse of TETs principally in pleura for thymomas (75%) and general for thymic carcinomas are difficult to treat. Therapeutics advances are limited given the lack of studies models of tumoral thymic epithelial cell. In a multidisciplinary approach for the treatment of metastatic pleural relapse of thymomas we developed an innovative surgical technique: cytoreductive pleurectomy associated with hyper thermic intra pleural chemotherapy (Cysplatin/ Mitomycin; 42°C) (ITCH). In selected patient (n=19), ITCH provides an efficient alternative to the morbid pleuro pneumonectomy. The median of free disease survival was 53 months, one year and five years actuarial survival were respectively 93% and 86%. However, the effectiveness of ITCH procedure questions on the played role ok hyperthermia, on the choice of chemotherapy association. With the aim to improve TETs therapies, the knowledge of TETs biology to identify potential target therapies is currently challenging. We developed an in vitro study model of tumoral thymic epithelial cells derived from 12 TETs (11 A, AB and B thymomas and one thymic carcinoma) characterized by their proliferative abilities and the cytokeratin expression. The PIK3 / Akt / mTOR pathway is implicated in numerous cancers. Several phase I, II studies advocate the potential role of mTOR inhibitors in the control of the metastatic disease. We highlighted the expression and the activation of mTOR, Akt and P70S6K effectors in TETs and in thymic epithelial cells in vitro derived. We showed the efficacy of rapamycin (mTOR inhibitor) in the inhibition (-30%) of in vitro cell proliferation without cell death induction. Our results suggest the implication of the PIK3 / Akt / mTOR pathway in the tumoral cell growth. We established a new tool to study cell dysregulation in TETs. In the context of rare tumors, these cells could allow in vitro mechanistic studies and test the efficacy of new anti tumoral therapies

Tumeurs thymiques

Chirurgie

Plèvre

Akt/ mTOR

Rapamycine

Prolifération cellulaire

Thymic tumors

Surgery

Pleura

Tumoral thymic epithelial cells

Akt/ mTOR

Rapamycin

Cell proliferation

570

Specificity of developmental- and growth factor-dependent phosphorylation of Akt isoforms in neurons

Schrötter, Sandra

12 September 2016

Ein Signalweg während der neuronalen Entwicklung im adulten Gehirn ist der PI3K-PTEN-Akt Signalweg. Akt ist eine Kinase die drei verschiedene Isoformen besitzt, welche durch die Phosphorylierung von S473 und T308 aktiviert werden. KO Modelle der Isoformen haben gezeigt, dass nicht alle Funktionen von anderen Isoformen kompensiert werden können. Die genaue Rolle der einzelnen Isoformen in einem neuronalen Zusammenhang ist nur wenig untersucht. Ziel dieser Arbeit war, eine detaillierte Analyse der einzelnen Akt Isoformen nach der Aktivierung des PI3K-PTEN Signalweges. Dazu wurde im Labor eine neue Methode zur isoelektrischen Fokussierung etabliert., welche Proteine nach ihrer Ladung trennt und somit eine Analyse der Dynamik von Akt Phosphorylierungen in neuronalen Zellen erlaubt. Im Zuge dieser Arbeit konnten wir bisher unerkannte Merkmale der Akt Aktivierung und Phosphorylierung identifizieren. Wir konnten zeigen, dass die S473 und T308 Phosphorylierung in Neuroblastomazellen unabhängig voneinander auftreten kann und, dass verschiedene Akt1 Moleküle unterschiedlich auf die Inhibition von PI3K reagieren. Außerdem konnten wir Verschiebungen in der Aktivierung und in der Expression der unterschiedlichen Isoformen während der postnatalen Gehirnentwicklung der Ratte feststellen. Des Weiteren konnten wir zeigen, dass die Aktivierung von Akt von dem Signal und dem Alter der Neurone abhängig ist. Noch nicht vollständig differenzierte Neurone reagieren vor allem auf BDNF Stimulation, wohingegen adulte, differenzierte Neurone hauptsächlich auf EGF reagieren und dort explizit Akt2 über EGFR und PI3K-p110α Signale aktiviert wird. Im Gegensatz dazu führt der Verlust von PTEN zu einer Aktivierung von hauptsächlich Akt1. Zusammenfassend zeigt diese Arbeit einen komplexen Zusammenhang der Phosphorylierung von Akt auf, welcher Signal- und Entwicklungsabhängig ist bei dem unterschiedliche Akt Populationen auf Wachstumsfaktoren und auf PTEN Verlust reagieren. / A major pathway involved in neuronal development is the PI3K-PTEN-Akt pathway. Akt comprises three isoforms, which are activated by phosphorylation of the residues S473 and T308. KO animals for the isoforms have shown differential as well as redundant functions of the three isoforms. However, their individual role in neuronal signaling pathways has not yet been studied in great detail. The aim of this study was to obtain further insight into differential Akt isoform signaling in response to changes in the activity of PI3K and PTEN pathway. A new isoelectric focusing method was established, which allowed us to separate Akt proteins according to their charge, therefore, providing a refined read-out to study dynamics of Akt phosphorylation in a neuronal background. In the course of this project we were able to identify previously undescribed features of Akt phosphorylation and activation. First, we could provide evidence for an uncoupling of the two activating phosphorylation events at S473 and T308 in neuroblastoma cells and differential sensitivities of Akt1 forms towards PI3K inhibition. Secondly, we found a transient shift in Akt isoform activation and abundance during postnatal rat brain development. Thirdly, we were able to show that the activation of different Akt isoforms is dependent of the upstream signal as well as the age of the neuron. Immature neurons were found to be highly responsive to BDNF treatment, whereas mature neurons were most responsive to EGF stimulation leading exclusively to activation of Akt2 in an EGFR- and PI3K/p110α-dependent manner. Stimulation of Akt phosphorylation by the loss of PTEN led to an activation of mainly Akt1 forms, which suggests inherent differences in the Akt pools that are accessible to growth factors dependent PI3Ks as compared to the pools that are controlled by PTEN. In summary, this thesis demonstrates the presence of complex phosphorylation events of Akt in a developmental- and signal-dependent manner in neurons.

Akt

Isoelektrische Fokusierung

PI3K Signalweg

Neuronalentwicklung

Akt

Isoelectric focusing

Neurodevelopment

PI3K signaling

570 Biowissenschaften, Biologie

32 Biologie

WW 2203

WD 5060

ddc:570

Einfluss von Celecoxib auf die Entstehung und den Verlauf einer kardialen Hypertrophie / Celecoxib modulates the development and progress of cardiac Hypertrophy

Grüber, Meike

29 March 2011

No description available.

610 Medizin, Gesundheit

Medicine

Hypertrophie

Herzinsuffizienz

Celecoxib

Akt-Signalweg

Aorten Banding

Hypertrophy

Heart failure

Celecoxib

Akt signalling

Aortic banding

44.61

MED 411: Kardiologie

Einfluss von Kisspeptin-10 auf die knochengerichtete Migration und Invasion von Mammakarzinomzellen / Influence of kisspeptin-10 on the bone-directed migration and invasion of breast cancer cells

Olbrich, Teresa

15 June 2011

No description available.

610 Medizin, Gesundheit

Medicine

Mammakarzinom

Metastasierung

Kisspeptin-10

SDF-1/CXCR4

Akt-Proteinkinase

breast cancer

metastases

Kisspeptin-10

SDF-1/CXCR4

Akt proteinkinase

44.81 Onkologie

M

Urocortin 2 Aktivierte Signalwege in isolierten Kaninchen-Ventrikelmyozyten / Urocortin 2 Activated signaling pathways in isolated myocyte of the ventricle of rabbits

Renz, Susanne

31 July 2012

No description available.

610 Medizin, Gesundheit

MED 205 Wissenschaftssystem

Medicine

Urocortin 2

eNOS

Akt

Phospholamban

p44/42-MAPK

Urocortin 2

phospholamban

Akt

p44/42-MAPK

eNOS

44.85 Kardiologie, AngiologieHier: Herz

Blutkreislauf

Régulation et rôle de la ligase de l'ubiquitine Itch dans la signalisation cellulaire

Azakir, Bilal Ahmad

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Itch

Itch

Ubiquitylation

Ubiquityation

EGFR

EFGR

Endophiline

Endophilin

Cbl

Cbl

Akt

Akt

JNK

JNK

Endocytose

Endocytosis

Phosphorylation

Phosphorylation

tBID

tBID

Apoptose

Apoptosis

Etude de l'impact de la protéine antimicrobienne humaine hCAP18/LL-37 sur le cancer du sein / Study on the impact of the human antimicrobial peptide hCAP18/LL-37 in the breast cancer

Zreika, Sami

15 December 2011

Le peptide hCAP18/LL-37, une partie de la défense immunitaire innée, a maintenant été reconnu comme multifonctionnelle pour les cellules eucaryotes. Nos études démontrent sa contribution au développement du cancer, montrant qu'il est surexprimé dans la plupart des tumeurs mammaires humaines, active la signalisation la famille de ERBB et augmente le potentiel métastatique des cellules cancéreuses du sein. Notre comparaison des deux lignées du cancer du sein n'a pas révélé de récepteurs communs, mais une structure peptidique identiques mais de chiralité différente est pré requis pour le peptide dans toutes ses activités. Nous émettons l'hypothèse que LL-37 active indirectement des récepteurs transmembranaires en se liant à la membrane cellulaire. Des peptides tronqués dérivés de LL-37 inhibent ses activités et peuvent aider à concevoir une future thérapie anticancéreuse. / The peptide hCAP18/LL-37, part of the innate immune defense, has now been recognized as multifunctional for eukaryotic cells. Our studies demonstrate its contribution to cancer development, showing that it is overexpressed in most human breast tumors, activates ERBB signaling and increases the metastatic potential of breast cancer cells. Our comparison on two breast cancer lines did not reveal any common receptors but identical structural prerequisites for the peptide in all its activities. We hypothesize that LL-37 indirectly activates transmembrane receptors by attaching to the cellular membrane. Truncated derivatives inhibit its activities and may help to design a future anticancer therapy.

LL-37

Migration cellulaire

ERBB

MAPK

AKT signalisation

Peptide inhibiteur

D-énantiomère

LL-37

Cell migration

ERBB

MAPK

AKT signaling

Inhibitory peptide

D-enantiomer

Inibidores de fosfodiesterases e o controle de processos proteolíticos na atrofia muscular induzida pelo diabetes mellitus / Phosphodiesterase inhibitor and the control of proteolitical processes in muscular atrophy induced by diabetes mellitus

Arcaro Filho, Carlos Alberto [UNESP]

27 April 2018

Submitted by Carlos Alberto Arcaro Filho (carlos_arcaro@hotmail.com) on 2018-07-13T23:08:25Z No. of bitstreams: 1 Tese Final - Carlos Alberto Arcaro Filho.pdf: 7378512 bytes, checksum: cb295c066a7be41be3508e2daf64d24f (MD5) / Approved for entry into archive by Maria Irani Coito null (irani@fcfar.unesp.br) on 2018-07-16T13:17:13Z (GMT) No. of bitstreams: 1 arcarofilho_ca_dr_arafcf_int.pdf: 7378512 bytes, checksum: cb295c066a7be41be3508e2daf64d24f (MD5) / Made available in DSpace on 2018-07-16T13:17:14Z (GMT). No. of bitstreams: 1 arcarofilho_ca_dr_arafcf_int.pdf: 7378512 bytes, checksum: cb295c066a7be41be3508e2daf64d24f (MD5) Previous issue date: 2018-04-27 / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Considerando os avanços no conhecimento acerca dos mecanismos que controlam o metabolismo de proteínas na musculatura esquelética que permitiram a busca por novas opções para o tratamento das atrofias musculares, o presente estudo teve como objetivo a compreensão do potencial antiproteolítico de inibidores de fosfodiesterase, PDE (pentoxifilina, inibidor não-seletivo de PDE; rolipram, inibidor seletivo de PDE4) em músculos esqueléticos de ratos submetidos à atrofia muscular devido à insuficiência insulínica (diabetes mellitus experimental), com ênfase na elucidação da participação de componentes da sinalização do AMP cíclico (AMPc) nesta resposta. Ratos normais e diabéticos (60 mg/kg de estreptozotocina, administração intravenosa) foram tratados com salina (NS e DS) ou com 2 mg/kg de rolipram (NROL e DROL), ou com 25 mg/kg de pentoxifilina (NPTX e DPTX) durante 3 dias, por via intraperitoneal. Após três dias de tratamento, músculos soleus e extensor digitorum longus (EDL) foram removidos, pesados, congelados e processados para diversas análises: (i) conteúdo de AMPc (ensaio imunoenzimático); (ii) atividades das proteases proteassoma, calpaínas e caspase-3 (uso de substratos específicos fluorigênicos); (iii) níveis proteicos e/ou níveis de fosforilação de componentes das vias proteolíticas, efetores intracelulares sinalizatórios e fatores de transcrição (Western blotting); (iv) determinação dos níveis séricos de insulina e citocinas pró-inflamatórias. Foram realizados experimentos ex-vivo, para verificar a ação direta dos fármacos no controle da proteólise muscular e ativação de efetores intracelulares, via incubações dos músculos na presença de rolipram ou de agonistas de EPAC (Exchange protein directly activated by cAMP) e de PKA (proteína quinase dependente de AMPc), proteínas efetoras ativadas pelo AMPc. Também foram realizados experimentos no Laboratório do Prof. Dr. Marco Sandri, no Venetian Institute of Molecular Medicine, Padova, Itália, para a avaliação do papel de PDE4D no controle do processo autofágico-lisossomal em músculos esqueléticos de camundongos jejuados. Os tratamentos de animais diabéticos com rolipram (DROL) ou com pentoxifilina (DPTX) promoveram uma redução nas atividades do proteassoma e calpaínas em soleus e EDL, bem como nos níveis de componentes-chave do sistema proteolítico ubiquitina-proteassoma (MuRF-1, atrogin-1, conjugados poliubiquitinados), e aumento nos níveis de calpastatina (inibidor das calpaínas). Interesante ressaltar que o grupo DROL apresentou redução na atividade e níveis proteicos de caspase-3, em ambos os músculos, enquanto que o grupo DPTX apenas em músculos EDL. Contribuindo com a redução observada na atividade de caspase-3, houve uma redução nos níveis de Bax (proteína pró-apoptótica) e aumento nos níveis de Bcl-2 (proteína anti-apoptótica) em ambos os músculos de animais DROL. Animais diabéticos tratados com salina (DS) apresentaram aumento nas atividades das três proteases, bem como nos níveis de componentes participantes destes processos proteolíticos. Animais normais e diabéticos tratados com salina (NS e DS) apresentaram níveis de AMPc basais e semelhantes entre si, tanto em soleus quanto em EDL, enquanto que os tratamentos de ratos normais e diabéticos com pentoxifilina (NPTX e DPTX) ou rolipram (NROL e DROL) promoveram aumentos de AMPc, em ambos os músculos. Um dos mecanismos que podem estar envolvidos na inibição da proteólise muscular após aumentos nas concentrações de AMPc envolve a proteína EPAC, responsável por integrar a sinalização do AMPc e a sinalização insulínica via ativação da quinase AKT. Animais diabéticos tratados com pentoxifilina ou com rolipram apresentaram aumento nos níveis proteicos de EPAC 1 e na fosforilação de AKT, quando comparados ao grupo DS. Observamos também um aumento na fosforilação inibitória de fatores de transcrição FoxO 1 e 3a em ambos os músculos de animais DROL. Podemos sugerir que parte das ações de rolipram que culminaram em ativação de AKT e inibição de FoxO na musculatura esquelética possam estar associadas aos aumentos observados nos níveis circulantes de insulina em animais DROL. Investigamos, apenas nos animais tratados com rolipram, a possibilidade de participação da proteína PKA no controle da proteólise muscular. Em animais DROL houve ativação da PKA, verificada tanto pelo aumento na fosforilação de substratos de PKA, bem como do fator de transcrição CREB, em soleus e EDL. Vale destacar que animais DS apresentaram níveis reduzidos de p-CREB e de substratos fosforilados por PKA em soleus e EDL. Animais diabéticos tratados com os inibidores de PDE apresentaram uma diminuição de citocinas pró-inflamatórias séricas (TNF-, PTX e ROL; IL-1, ROL) e aumento nos níveis de insulina sérica (ROL) em relação aos animais DS. Nos estudos ex vivo, as incubações de músculos soleus e EDL com rolipram levaram a uma redução da proteólise total, bem como aumento na fosforilação de substratos de PKA e de AKT. Músculos soleus e EDL incubados com agonistas de EPAC apresentaram aumento na fosforilação de AKT, enquanto que a incubação com agonista de PKA promoveu aumento na fosforilação dos substratos de PKA (em ambos os músculos) e aumento na fosforilação de AKT (apenas em EDL), quando comparados aos músculos incubados na ausência do fármaco. Nos estudos para compreensão do papel de PDE4D no controle do processo autofágico-lisossomal, observou-se que o silenciamento gênico da PDE4D em músculos tibialis anterior promoveu uma preservação da massa muscular e da área da fibra em animais jejuados, quando comparados ao músculo controle. Músculos flexor digitorium brevis, silenciados para PDE4D, apresentaram diminuição na expressão de proteínas-chave do processo autofágico-lisossomal, tais como LC3 e p62. Estes resultados evidenciam os mecanismos que podem estar envolvidos na ação direta de inibidores de PDE no controle do metabolismo proteico muscular esquelético, via ativação de duas vias dependentes de AMPc: (i) a via PKA/CREB, que pode participar do controle da transcrição de Bcl-2 e calpastatina, bem como na inativação direta de caspases, inibindo assim os processos proteolíticos dependentes de caspase-3 e calpaínas, (ii) a via EPAC/AKT, via fosforilação e inibição de FoxO 1 e 3A, regulando a expressão dos atrogenes (MuRF-1 e atrogin-1) e promovendo uma diminuição na atividade do sistema ubiquitina-proteassoma. Além disso, o tratamento com inibidores de PDE diminuem o processo inflamatório e aumentam os níveis circulantes de insulina, ações que podem contribuir para os efeitos antiproteolíticos. Evidências iniciais também sugerem que PDE4D participa no controle do sistema autofágico-lisossomal na musculatura esquelética. Todos estes resultados indicam que PDE participam no controle de processos proteolíticos, portanto inibidores de PDE emergem como uma opção interessante na ativação da sinalização do AMPc na musculatura esquelética, com vistas à utilização futura no tratamento de quadros de perda de massa muscular durante situações de atrofia. / Considering the advances in the knowledge of the mechanisms controlling the protein metabolism in skeletal muscles that allowed the discover of new options for the treatment of muscle atrophies, the present study aimed to understand the antiproteolytic potential of phosphodiesterase (PDE) inhibitors (pentoxifylline, a non-selective PDE inhibitor; rolipram, a selective PDE 4 inhibitor), in skeletal muscles of rats submitted to muscle atrophy due to insulin insufficiency (experimental diabetes mellitus), with emphasis on the elucidation of the participation of cyclic AMP (cAMP) signaling components. Normal and diabetic rats (60 mg/kg streptozotocin, intravenous administration) were treated intraperitoneally with saline (NS and DS) or with 2 mg/kg rolipram (NROL and DROL) or with 25 mg/kg pentoxifylline (NPTX and DPTX) for 3 days. After three days of treatments, soleus and extensor digitorum longus (EDL) muscles were removed, weighed, frozen and processed for several analyzes: (i) cAMP content; (ii) activities of proteasome, calpain and caspase-3 (use of specific fluorigenic substrates); (iii) protein levels and/or phosphorylation levels of components of proteolytic pathways, intracellular signaling effectors and transcription factors (Western blotting); (iv) determination of serum insulin and proinflammatory cytokines levels. Ex vivo experiments were performed to verify the direct action of the drugs in the control of muscle proteolysis and activation of intracellular effectors, via muscle incubations in the presence of rolipram or agonists of EPAC (Exchange protein directly activated by cAMP) and PKA (cAMP-dependent protein kinase), intracellular effectors activated by cAMP. Experiments were also carried out in the Laboratory of Prof. Dr. Marco Sandri at the Venetian Institute of Molecular Medicine, Padova, Italy, for the evaluation of the role of PDE4D in controlling the autophagic-lysosomal process in skeletal muscles of starved mice. Treatments of diabetic animals with rolipram (DROL) or pentoxifylline (DPTX) promoted a reduction in the activities of proteasome and calpain in soleus and EDL, as well as reduced the levels of key components of the ubiquitin-proteasome system (MuRF-1, atrogin-1, polyubiquitinated conjugates), and increased the levels of calpastatin (calpain inhibitor). Interestingly, DROL rats showed a reduction in the activity and in the protein levels of caspase-3 in both muscles, whereas DPTX rat had reductions only in EDL muscles. Contributing to the reduction in caspase-3 activity, it was observed a reduction in the content of Bax (pro-apoptotic protein) and an increase of Bcl-2 (anti-apoptotic protein) in both muscles of DROL rats. Diabetic animals treated with saline (DS) showed an increase in the activities of the three proteases, as well as increases in the levels of components belonging to these proteolytic processes. Normal and diabetic animals treated with saline (NS and DS) had basal and similar levels of cAMP in both soleus and EDL, whereas the treatments of normal and diabetic rats with pentoxifylline (NPTX and DPTX) or with rolipram (NROL and DROL) promoted increases in cAMP in both muscles. One of the mechanisms that may be involved in the muscle proteolysis inhibition after increases in cAMP involves the EPAC protein, responsible for integrating the cAMP and the insulin signaling pathways via AKT activation. Diabetic animals treated with pentoxifylline or with rolipram showed an increase in the protein levels of EPAC 1 and in the phosphorylation of AKT, when compared with the DS group. We also observed an increase in the phosphorylation (inhibitory) of FoxO 1 and 3a in both muscles of DROL rats. It can be suggested that part of the rolipram actions causing AKT activation and FoxO inhibition in skeletal muscles may be associated with the increases in the circulating levels of insulin observed in DROL animals. It was investigated, only in animals treated with rolipram, the possible involvement of PKA in the control of muscle proteolysis. DROL rats had activation of PKA, verified both by the increase in the phosphorylation of PKA substrates, as well as in the phophorylation of the transcription factor CREB, in soleus and EDL. DS rats had decreased levels of p-CREB and of the PKA substrates, in soleus and EDL. Diabetic animals treated with PDE inhibitors showed a decrease in serum proinflammatory cytokines (TNF-, PTX and ROL; IL-1, ROL) when compared with DS. In ex vivo studies, incubations of soleus and EDL with rolipram caused a reduction of the total proteolysis as well as an increase in the phosphorylation of PKA substrates and and of AKT. Soleus and EDL muscles incubated with EPAC agonist showed increased in the AKT phosphorylation, whereas incubation with PKA agonist promoted an increase in the phosphorylation of PKA substrates (in both muscles) and and increase in the AKT phosphorylation (EDL), when compared with muscles incubated in the absence of the drugs. In studies to understand the role of PDE4D in the control of the autophagic-lysosomal process, it was observed that the PDE4D gene silencing in anterior tibialis muscles caused a preservation of the muscle mass and fiber area in fasted animals when compared with control muscle. Flexor digitorium brevis muscles, silenced for PDE4D, showed a decreased expression of key proteins of the autophagic-lysosomal process, such as LC3 and p62. These results suggested the mechanisms that may be involved in the direct action of PDE inhibitors in the control of skeletal muscle protein metabolism, through activation of two cAMP-dependent pathways: (i) the PKA/CREB pathway, which may participate in transcriptional control of Bcl-2 and calpastatin, as well as causing direct inactivation of caspases, thus inhibiting the proteolytic processes dependent on caspase-3 and calpains, (ii) the EPAC/AKT pathway, via phosphorylation and inhibition of FoxO 1 and 3a factors, regulating the expression of atrogenes (MuRF-1 and atrogin-1) and promoting a decrease in activity of ubiquitin-proteasome system. Treatments with PDE inhibitors also decreased the inflammatory process and increased the circulating linsulin levels, which may be contributing to the antiproteolytic responses. Initial evidence also suggests that PDE4D participates in the control of the autophagy-lysosomal system in skeletal muscles. All these results indicate that PDE participate in the control of proteolytic processes, therefore PDE inhibitors emerge as an interesting option to activate the cAMP signaling in the skeletal muscles, which may be used in the future in treatments muscle mass loss during atrophy situations. / FAPESP: Processo 2013/18861-2 / FAPESP: Processo 2014/12202-0 / FAPESP: Processo 2017/02348-5

Atrofia muscular

Fosfodiesterase do tipo 4

Rolipram

Pentoxifilina

AMP cíclico

PKA

EPAC

AKT

Diabetes mellitus

Muscle atrophy

Phosphodiesterase type 4

Rolipram

Pentoxifylline

Cyclic AMP

PKA

EPAC

AKT

diabetes mellitus

Sulfeto de hidrogênio durante o choque endotoxêmico: modulação da produção de PGD2 na AVPO e de citocinas periféricas durante as fases de hipotermia e febre / Hydrogen sulfide during endotoxic shock: Modulation of PGD2 production in AVPO and peripheral cytokines during hypothermia and fever

Rodrigo Alberto Restrepo Fernández

25 August 2017

As respostas termorregulatórias ao lipopolissacarídeo (LPS) são influenciadas por moduladores que aumentam (febrigênicos) ou diminuem (criogênicos) a temperatura corporal (Tb). Entre eles, o neurotransmissor gasoso sulfeto de hidrogênio (H2S) modula a inflamação sistêmica induzida por endotoxina em ratos, agindo como uma molécula anti-inflamatória e criogênica, embora os mecanismos subjacentes ainda sejam pouco compreendidos. Considerando que a endotoxina é um ligando para o Toll-like receptor 4 (TLR4) e que evidências recentes revelam um cross-talk entre a via de sinalização TLR e fosfo-Akt (p-Akt), o objetivo do presente estudo foi investigar se o H2S atua como um mediador antiinflamatório e antipirético durante as fases termorregulatórias que ocorrem no choque endotoxêmico (hipotermia e febre) induzido por lipopolissacarídeo bacteriano (LPS, 2,5 mg / kg intraperitoneal (ip)) através da modulação sobre a produção de prostaglandina D2 (PGD2) e a ativação de Akt na área pré-óptica ântero-ventral do hipotálamo (AVPO). A Tb profunda de ratos mantidos a uma temperatura ambiente de 25 °C foi registrada antes e depois da inibição farmacológica da enzima cistationina ?-sintase (CBS - responsável pela produção endógena de H2S no cérebro) usando aminooxiacetato (AOA, 100 pmol, intracerebroventricular (icv)), combinado ou não com administração de LPS. Para esclarecer os mecanismos responsáveis por esses ajustes da resposta imune, foram determinados na AVPO os níveis de H2S, a produção de PGD2 e o perfil de expressão das proteínas CBS, p-Akt e p-CREB. Além disso, foi analisada a concentração de citocinas plasmáticas (IL-1?, IL-6, IL-10, TNF?, IFN-? , E IL-4). A injeção ip de LPS causou hipotermia típica seguida de febre. Os níveis de AVPO H2S aumentaram significativamente durante a hipotermia quando comparado com ratos eutérmicos e febris. A microinjeção icv de AOA não causou nenhuma alteração na Tb nem na produção basal de PGD2 durante a eutermia. Em ratos tratados com LPS, o AOA causou uma atenuação na queda da Tb durante a fase de hipotermia e uma febre exacerbada, simultaneamente com o aumento na produção de PGD2 e abolição do aumento induzido pela endotoxina na atividade de Akt. Durante a fase de febre, a expressão relativa de CBS esteve significativamente diminuída enquanto a expressão relativa de p-Akt esteve aumentada, quando comparado com ratos eutérmicos e hipotérmicos. As citocinas plasmáticas aumentaram durante a inflamação sistêmica, mas apenas a IL-4 mostrou um padrão semelhante em relação à Akt. Estes dados são consistentes com a noção de que o neurotransmissor gasoso H2S modula as fases de hipotermia e febre durante o choque endotoxêmico, atuando como uma molécula criogênica. Este papel anti-inflamatório durante a inflamação sistémica envolve uma regulação positiva da PGD2, de Akt e da IL-4 plasmática. / Thermoregulatory responses to lipopolysaccharide (LPS) are affected by modulators that increase (pro-pyretic) or decrease (cryogenic) body temperature (Tb). Among them, the gaseous messenger hydrogen sulfide (H2S) modulates endotoxin-induced systemic inflammation being an anti-inflammatory and cryogenic molecule, although the underlying mechanisms are still poorly understood. Since endotoxin is a Toll-like receptor 4 (TLR4) ligand and recent evidence indicates that there is a possible a cross-talk between the TLR and phospho-Akt (p-Akt) signaling pathway, the current study aimed to investigate whether H2S acts as an anti-inflammatory and anti-pyretic mediator during thermoregulatory phases of endotoxic shock (hypothermia and fever) induced by bacterial lipopolysaccharide (LPS, 2.5 mg/kg intraperitoneal (ip)) through the modulation of prostaglandin D2 (PGD2) production and activation of Akt in the anteroventral preoptic region of the hypothalamus (AVPO). Deep Tb in rats kept at an ambient temperature of 25 °C, was recorded before and after pharmacological inhibition of the enzyme cystathionine ?-synthase (CBS - responsible for H 2S endogenous production in the brain) using aminooxyacetate (AOA; 100 pmol/1 ?l intracerebroventricular (icv)) combined or not with endotoxin administration. To clarify the mechanisms responsible for these adjustments on immune response were verified in the AVPO H 2S levels, PGD2 production and expression profiles of CBS, p-Akt and p-CREB. In addition, plasma cytokines concentration (IL-1?, IL-6, IL-10, TNF?, IFN-?, and IL-4) was analyzed. Intraperitoneal injection of LPS caused typical hypothermia followed by fever. Intracerebroventricular microinjection of AOA neither affected Tb nor basal PGD2 production during euthermia. Levels of AVPO H2S were significantly increased during hypothermia when compared to both euthermic and febrile rats. In LPS-treated rats, AOA increased Tb values during hypothermia and fever, along with enhanced PGD2 production and abolition of endotoxin-induced increase in Akt activity. During fever, CBS relative expression was significantly decreased whereas p-Akt was significantly increased when compared to both euthermic and hypothermic rats. Plasma cytokines were increased during systemic inflammation, but only IL-4 showed a similar pattern in relation to Akt. These data are consistent with the notion that the gaseous messenger H2S modulates hypothermia and fever during endotoxic shock, acting as a cryogenic molecule. This anti-inflammatory role during systemic inflammation involves a H2S-induced up-modulation of PGD2, Akt and plasma IL-4.

Akt

Choque endotoxêmico

Citocinas

Febre

Hipotermia

Prostaglandina D2 (PGD2)

Sulfeto de hidrogênio (H2S)

Akt

Cytokines

Endotoxic shock

Fever

Hipothermia

Hydrogen sulfide (H2S)

Prostaglandin D2 (PGD2)

Mutações de PTEN nas leucemias linfóides agudas T / PTEN mutation in T-cell acute lymphoblastic leukemia

Jotta, Patricia Yoshioka, 1985-

21 August 2018

Orientador: José Andres Yunes / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T05:50:44Z (GMT). No. of bitstreams: 1 Jotta_PatriciaYoshioka_D.pdf: 8922035 bytes, checksum: 3734371a320410ba431d6e6ce6579e55 (MD5) Previous issue date: 2012 / Resumo: A leucemia linfóide aguda (LLA) é o câncer mais frequente na infância, e destas, 15% são do tipo T (LLA-T). A hiperativação da via PI3K/Akt tem sido amplamente descrita em tumores e em linhagens celulares de LLA-T. PTEN é o principal regulador negativo dessa via e frequentemente encontra-se inativado em cânceres humanos. Com frequência, pacientes com LLA-T apresentam mutações ativadoras de NOTCH1. NOTCH1 pode regular transcricionalmente PTEN, contudo ainda não está claro como as mutações ativadoras de NOTCH1 influenciariam a expressão de PTEN nas LLA-T. Nós encontramos uma ocorrência de 11 (17,7%) mutações no éxon 7 do PTEN em 62 casos de LLA-T estudados consecutivamente. Contudo, nenhuma mutação foi encontrada na análise de 71 casos de LLA-B derivada. A maioria das mutações de PTEN apresentavam inserções/deleções de mais de 3 nucleotídeos. Não encontramos associação entre mutações em PTEN e o gênero, a idade e a contagem de glóbulos brancos ao diagnóstico. Pacientes com alterações no PTEN apresentaram uma tendência a pior sobrevida global (OS, p=0.07). Dentre os pacientes de LLA-T classificados como alto risco (n=56), aqueles possuindo anormalidades no PTEN mostraram-se associados significativamente a menor OS (p=0.019) e sobrevida livre de leucemia (LFS 47% vs 76%; p=0.045). As curvas de LFS foram significativamente diferentes (p=0.003), mesmo considerando apenas pacientes que atingiram a remissão no dia 28 do tratamento para a análise. Nosso estudo também mostrou que pacientes com mutações em NOTCH1 apresentavam aumento na transcrição de MYC e menor expressão de PTEN mRNA comparados a pacientes com NOTCH1 selvagem. Nós recentemente demonstramos que células de LLA-T apresentavam fosforilação de PTEN mediada por CK2, resultando na estabilização e consequentemente inativação da proteína PTEN. Corroborando ao estudo anterior, os casos de LLA-T analisados, independente do status de mutação em NOTCH1, expressam níveis significativamente mais altos de proteína PTEN do que controles normais. Para avaliar o impacto da regulação transcricional de NOTCH e a inativação postranscricional por CK2 de PTEN, nós tratamos as células de LLA-T com inibidores de gamma-secretase (DAPT e de CK2 (DRB/TBB). Nosso estudo enfatiza a relevância biológica e clínica da regulação do PTEN em LLA-T. E sugerimos o uso combinado de inibidores de gamma-secretase e CK2 devem possuir potencial terapêutico nas LLA-T / Abstract: T-cell acute lymphoblastic leukemia (T-ALL) accounts for approximately 15% of pediatric ALL. Patients with T-ALL are at increased risk of relapse compared with children treated for B-cell precursor ALL. Mutations in the phosphatase and tensin homolog (PTEN) gene leading to PTEN protein deletion and subsequent activation of the PI3K/Akt signaling pathway are common in cancer. PTEN is the main negative regulator of the PI3K/Akt survival pathway. T-ALL patients frequently display NOTCH1 activating mutations and Notch can transcriptionally down-regulate the tumor suppressor PTEN. However, it is not clear whether NOTCH1 mutations associate with decreased PTEN expression in primary T-ALL. We report that PTEN exon 7 mutations occurred in 11 (17.7%) out of 62 consecutive pediatric T-cell acute lymphoblastic leukemia (T-ALL) but in none of 71 precursor B-ALL patients. Most PTEN mutations were insertions/deletions of more than 3 nucleotides. No associations were found between PTEN mutation and age, gender, WBC at diagnosis, early response to therapy and remission rate. Patients with PTEN mutation (n=11) had a tendency toward worse overall survival (OS, p=0.07). Remarkably, PTEN mutations were significantly associated with lower OS (p=0.019) and leukemia-free survival (LFS 47% vs 76%, p=0.045) within patients classified in the high risk group (n=56). LFS curves were significantly different (p=0.003) even if only patients who reached remission on day 28 were considered for analysis. We compared patients with or without NOTCH1mutations and report that the former presented higher MYC transcript levels and decreased PTEN mRNA expression. We recently showed that T-ALL cells frequently display CK2-mediated PTEN phosphorylation, resulting in PTEN protein stabilization and concomitant functional inactivation. Accordingly, the T-ALL samples analyzed, irrespectively of their NOTCH1 mutational status, expressed significantly higher PTEN protein levels than normal controls. To evaluate the integrated functional impact of NOTCH transcriptional and CK2 post-translational inactivation of PTEN, we treated TALL cells with both the gamma-secretase inhibitor DAPT and the CK2 inhibitors DRB/TBB. Our data suggest that combined use of gamma-secretase and CK2 inhibitors may have therapeutic potential in T-ALL. And emphasize the biological and clinical relevance of PTEN regulation in pediatric T-ALL / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Proteína PTEN

Proteínas PI3K/Akt

Receptor Notch1

PTEN protein

PI3K/Akt proteins

Notch1 receptor