Tabhys: um peptídeo com atividade lectínica extraído de Tabernaemontana hystrix / Tabhys: a peptide with lectin activity extracted from Tabernaemontana hystrix

Peron, Gabriela

31 August 2015

Lectinas são proteínas que possuem pelo menos um domínio não catalítico que se liga reversível e especificamente a um monossacarídeo ou oligossacarídeo. A capacidade de ligação a diferentes tipos de açúcares torna essas moléculas ferramentas úteis no estudo de diversos processos celulares específicos. Embora as lectinas de plantas sejam amplamente estudadas, aquelas referentes à família Apocynaceae ainda são pouco exploradas. Resultados prévios obtidos pelo nosso grupo de pesquisa mostraram que extratos brutos de súber do caule da apocinácea Tabernaemontana hystrix Steud apresenta atividade hemaglutinante. Além de aglutinar eritrócitos do sistema ABO, a putativa aglutinina foi capaz de estimular a síntese de RNAm de IL-6 e TGF- beta em células esplênicas de camundongos. À vista disso, no presente projeto tivemos como objetivo identificar, caracterizar bioquimicamente e avaliar o possível potencial imunoestimulador da aglutinina de T. hystrix. Os extratos de T. hystrix obtidos por meio da farinha de raspas do súber apresentaram atividade hemaglutinante, o que não foi observado no extrato do caule destituído de súber e no extraído das folhas. Para comprovar que se tratava da atividade observada anteriormente, obtivemos a inibição da hemaglutinação com a glicoproteína fetuína, mas não houve inibição por monossacarídeos. Foi determinado um protocolo de isolamento da hemaglutinina com precipitação do extrato do súber com sulfato de amônio, cuja atividade foi recuperada no material precipitado na faixa de 30 a 60% de saturação, seguido de cromatografias sequenciais por (1) interação hidrofóbica (HiTrap Octyl), (2) troca catiônica (HiTrap SP), (3) fase reversa (EC Nucleosil C18) e (4) afinidade (Blue Sepharose). Nessas colunas a atividade foi recuperada do (1) material não retido e dos eluatos (2 e 4) com 1M e 0,5M de NaCl, respectivamente, e (3) 83% de acetonitrila. Esse protocolo produziu uma preparação homogênea contendo um peptídeo cuja análise eletrofóretica revelou massa molecular (MM) aproximada de 3kDa e concentração hemaglutinante mínima de 50g/mL. A fim de determinar se esse peptídeo formava estrutura quaternária (dímeros, tetrâmetros, etc.), característica da maioria das lectinas de plantas, submeteu-se a preparação a uma eletroforese em gel nativo (PAGE), não sendo observadas mudanças na MM do peptídeo e nem a presença de outras moléculas com MM maiores que pudessem estar associadas a ele, o que sugere que a aglutinina de T. hystrix (denominado aqui de Tabhys) é um peptídeo de MM aproximada de 3kDa. O fato da heveína, um dos peptídeos lectínicos com atividade antifúngica mais estudado, ter especificidade por quitina nos motivou a tentar o isolamento do peptídeo em coluna desse polissacarídeo. Observou-se atividade hemaglutinante e presença de peptídeo com MM de 3kDa no material eluído com Ácido acético a 0,1M da coluna de quitina. Curiosamente, nenhuma de nossas preparações foram capazes de inibir o crescimento do fungo Trichophyton rubrum. O peptídeo purificado foi testado quanto a sua capacidade em induzir a proliferação celular e a produção de citocinas em células esplênicas murinas. Os resultados dos ensaios de RT-PCR em tempo real e citometria de fluxo demonstraram que o a aglutinina de T. hystrix não foi capaz de estimular a proliferação de linfócitos, entretanto, induziu o aumento de mensagem para a citocina TGF-beta, cujo pico de produção ocorreu em célula estimuladas com 37ng/mL. Neste estudo, relatamos a presença de um peptídeo no extrato de T. hystrix com atividade hemaglutinante, o que é relativamente raro e novo. Devido a isso, este estudo pode proporcionar novas perspectivas e paradigmas nos estudos das lectinas a nível molecular e estrutural. / Lectins are proteins that have at least one non-catalytic domain that binds specifically and reversibly to a monosaccharide or oligosaccharide. This ability to bind to different types of sugars makes these molecules useful tools in the study of various specific cellular processes. Although the plant lectins are widely studied, those belong to Apocynaceae family are still little explored. Previous results obtained by our research group showed that bark crude extracts from Tabernaemontana hystrix Steud (Apocynaceae) had hemagglutination activity. Besides to agglutinate erythrocytes from ABO blood group system, the putative agglutinin induced the synthesis of IL-6 and TGF-beta mRNA in mouse spleen cells. Here we aim to identify, characterize biochemically and evaluate the possible immunostimulatory potential of T. hystrix agglutinin. The haemagglutination activity was obtained from crude extracts of bark flour, but not of flours of stems without bark and leaves. The activity of the bark extract was similar to that from the previous study, since the haemagglutination was inhibited by the glycoprotein fetuin, but not by monosaccharides. An isolation protocol was determined by using ammonium sulfate precipitation, with haemagglutination activity recovered in the range of 30-60% of saturation, and sequential chromatography procedures: (1) hydrophobic interaction (HiTrap Octyl), (2) cation-exchange (HiTrap SP), (3) reverse phase (EC Nucleosil) and (4) affinity (BlueSepharose) chromatography. From these columns the activity was recovered in the (1) unbound material, and eluates (2 and 4) with 1M and 0,5M of NaCl, respectively, and (3) 83% acetonitrile. On the basis of electrophoresis analysis, the protocol produced a preparation comprised of only band corresponding a peptide with molecular weight (MW) of about 3-kDa, with minimum haemagglutination concentration of 50g/ml. To determine if this molecule arrangement had a quaternary structure arrangement, a feature of most known lectins, we submitted the preparation to a native electrophoresis. Because there was neither change in migration pattern nor presence of molecules of higher molecular mass, we suggested that T. hystrix peptide (Tabhys) is a peptide with MW of about 3-kDa. Since hevein, which is a most studied lectin-like peptide with antifungal activity, binds specifically to chitin, we performed an affinity chromatography in the chitin column with bark extract. We observed haemagglutination activity and the presence of peptide with MW of 3-kDa in the material bound to column and eluted with 0,1M acetic acid. Curiously, this peptide was not able to inhibit the growth of the fungus Trichophyton rubrum. Thereafter, when the purified peptide was used to stimulate murine spleen cells, we detected the expression of TGF-beta message, with a peak production obtained in cell stimulated with 37 ng/mL of Tabhys. In the current study, we isolated a peptide from crude extract of T. hystrix bark with haemagglutination activity, providing new perspectives in molecular and structural researches of peptide lectins.

Hemagglutinins

Hemaglutininas

Lectin-like peptides.

Lectinas de plantas

Peptídeos lectina-símiles.

Plant lectins

Tabernaemontana hystrix Steud.

Tabernaemontana hystrix Steud.

TGF-beta

TGF-beta

Wirkungen der L-Arginingabe bei immun-vermittelter akuter und chronischer Glomerulofibrose

Peters, Harm

12 December 2000

Die fortschreitende Vermehrung extrazellulärer Matrixproteine ist zentrales Kennzeichen von chronisch-progressiver Niereninsuffizienz. L-Arginin ist eine semi-essentielle Aminosäure und über seinen endogenen Metaboliten Stickoxid (NO) in komplexer Weise mit renaler Matrixvermehrung verbunden. In dieser Arbeit wurde untersucht, wie sich die Gabe von L-Arginin auf die Matrixexpansion bei experimenteller, immun-vermittelter Nierenerkrankung auswirkt. Im Modell der akuten Anti-Thy1-Glomerulonephritis der Ratte und der chronischen Lupusnephritis der MRL/lpr-Maus wurde gezeigt, daß die Aktivierung des L-Arginin-NO-Stoffwechsels sowohl mit günstigen als auch mit ungünstigen Wirkungen auf die renale Matrixakkumulation verbunden ist. Diese "duale" Wirkung von L-Arginin ist im wesentlichen als Ausdruck der "ambivalenten" Wirkung von NO zu deuten. Antifibrotische Wirkungen von L-Arginin stehen in enger Verbindung mit einer gesteigerten endothelialen NO-Synthese. Neben renaler Blutdrucksenkung vermittelt die endotheliale NO-Synthase auch parakrin wichtige antifibrotische Effekte. Profibrotische Wirkungen von L-Arginin stehen in engem Zusammenhang mit einer gesteigerten NO-Synthese durch induzierbare, destruktive NO-Synthasen. Folgen sind verstärkte Organschädigung und beschleunigte Progression von renaler Funktionseinschränkung. / Ongoing expansion of extracellular matrix proteins is a hallmark of progressive chronic renal insufficiency. L-Arginine is a semi-essential amino acid and alters renal matrix accumulation via its endogenous metabolite nitric oxide (NO) in a complex manner. The present study analyzed how administration of L-arginine affects renal matrix accumulation in experimental immune-mediated disease. In acute anti-Thy1 glomerulonephritis of the rat and chronic lupus nephritis of MRL/lpr-mice, activation of the L-arginine-NO-pathway was related to both beneficial and detrimental actions on renal matrix accumulation. This "dual" effect of L-arginine administration essentially reflects the "ambivalent" nature of NO. Antifibrotic actions of L-arginine are associated with increased endothelial NO synthesis. In addition to lowering glomerular blood pressure, endothelial NO production mediates important paracrine antifibrotic actions. Profibrotic effects of L-arginine are related to increased NO production by inducible, destructive NO synthases, resulting in increased organ damage and accelerated progression of chronic kidney insufficiency.

L-Arginin

Stickoxid

TGF-ß

renale Fibrose

nitric oxide

L-arginine

TGF-ß

renal fibrosis

610 Medizin

33 Medizin

YK 8300

ddc:610

Effekte onkolytischer Adenoviren auf die Aktivität zellulärer Signaltransduktionswege in Gliomzellen

Treue, Denise

04 June 2012

Die Therapie des häufigsten primären Hirntumors bei Erwachsenen, des Glioblastoms, gestaltet sich aufgrund der relativen Resistenz gegen Bestrahlung und Zytostatika schwierig und resultiert in einer äußerst schlechten Prognose. Ziel dieser Arbeit war die Identifikation von zellulären Faktoren, die bei einer Behandlung mit dem neuartigen onkolytischen Virus Ad5-Delo3RGD (ΔE1A-13S, ΔE19K, ΔE3, zusätzliches RGD-Motiv) eine Bedeutung hinsichtlich des Ansprechens auf die Therapie haben. Dazu erfolgte nach der Transduktion von Gliomzellen mit adenoviralen Vektoren, mit unterschiedlichem E1A-Status, eine Analyse der Modulation der globalen Genexpression. Die E1A-Deletante, Ad5-Ad312, war replikationsinkompetent in Gliomzellen und hatte infolgedessen nur einen marginalen Einfluss auf Genebene und keine biologischen Effekte auf Proteinebene. Das Wildtypvirus (Ad5-wt) mit intakter und das onkolytische Virus (Ad5-Delo3RGD) mit mutierter E1A-Region induzierten eine starke Modifikation der zellulären Genexpression in Gliomzellen. Die Transduktion der Gliomzellen mit Wildtypvirus bzw. onkolytischen Virus resultierte in einer bis zu 60 %-igen Hemmung der Sekretion des Angiogenesefaktors VEGF. Fernerhin konnte in Glioblastomzellen gezeigt werden, dass Ad5-wt und Ad5-Delo3RGD eine 50 bis 60 %-ige Inhibition der Sekretion von TGF-β2, sowie eine bis zu 65 %-ige Hemmung der Transkriptionsaktivität des TGF-β-Signalwegs induzierten. Damit reprimieren besagte Viren zelluläre Faktoren, deren Expression im Gliom mit einer schlechten Prognose korreliert ist. Aufgrund dieser Daten konnte für maligne Gliome ein Modell von Ad5-Delo3RGD-Therapie relevanten zellulären Faktoren entwickelt werden, welches den Zusammenhang zwischen TGF-β2, VEGF bzw. MIR-181 und der Virotherapie verdeutlicht. Mit Hilfe dieses Modells steigt das Verständnis um die antineoplastische Aktivität des onkolytischen Virus, und ermöglicht damit eine Verbesserung der Ad5-Delo3RGD-basierten Therapie. / Glioblastoma is the most common type of brain tumor among adults. The therapy is very difficult, due to its relative resistance to radiation and zytostatica, and often results in fatal prognosis. The main objective of this thesis was the identification of cellular factors associated with therapy response to adenoviral treatment using the newly developed oncolytic virus Ad5-Delo3RGD. Therefore, after viral transduction of glioma cells with adenoviral vectors, using E1A-wildtype and -mutant viruses, an analysis of the modulation of mRNA expression profiles was conducted. The E1A deletion mutant Ad5-Ad312 was replication-deficient in glioma cells and therefore had only marginal influence of host gene transcription level and no biological effect on protein level. Both, wildtype adenovirus type 5 (Ad5-wt), with intact E1A, and oncolytic virus (Ad5-Delo3RGD), with mutated E1A, induced strong modifications of gene expression profiles in glioma cells. The transduction of glioma cells with wildtype or oncolytic virus resulted in a 60 % reduced secretion of the angionesis factor Vascular Endothelial Growth Factor (VEGF). In addition it was shown that Ad5-wt and Ad5-Delo3RGD induced a reduced secretion of TGF-ß2 by 50 to 60 % and a repression of the SMAD2/SMAD3/SMAD4-specific transcription activity up to 65 %. Thus the viruses inhibit cellular factors, which expression is corelated to a weak prognosis. Based on this data a new model for malign glioma was developed, which illustrates the relationship between virotherapy and the cellular factors TGF-β2, VEGF and MIR-181, which are associated with treatment response to Ad5-Delo3RGD-based therapy. The model helps to understand the basic antineoplastic activity of the oncolytic virus and therefore should help to improve Ad5-Delo3RGD-based therapy.

VEGF

YB-1

Gliom

Adenoviren

TGF-b

adenovirus

VEGF

YB-1

glioma

TGF-b

570 Biowissenschaften, Biologie

32 Biologie

WE 5320

WW 4120

ddc:570

Expressão de genes homeobox em células de carcinoma epidermóide de boca estimuladas com EGF e TGF-beta / Expression of homeobox genes in oral squamous cell carcinoma cell lines, stimulated with EGF and TGF-beta

Campos, Marcia Sampaio

21 January 2008

Genes homeobox, vitais para muitos aspectos relacionados com crescimento e diferenciação celular, têm sido descritos desregulados em alguns cânceres. Seu papel na carcinogênese, principalmente de carcinomas epidermóides de boca, permanence pouco claro e pobremente caracterizado. Desse modo, esse estudo objetivou avaliar, em cultura de células, o perfil de expressão de seis genes homeobox (ASH2L, HOXA7, HHEX, PKNOX1, PITX1, TGIF) selecionados dentre aqueles previamente identificados no Projeto Genoma Câncer de Cabeça e Pescoço (2001) sob estímulo de EGF e TGF-beta1. Para tal, linhagens celulares de carcinoma epidermóide de cabeça e pescoço primário (HN6) e metastático (HN31) e uma linhagem não-tumoral (HaCat) foram cultivadas sob condições-padrão. Após a confecção dos cDNAs de cada linhagem, por meio de RT-PCR, os transcritos foram amplificados e quantificados pela técnica de PCR em tempo real. Os dados foram normalizados com o gene HPRT e a quantificação relativa foi realizada seguindo o método do delta Ct. De acordo com os resultados foi possível verificar que o EGF produziu uma modulação variável da expressão dos genes avaliados em todas as linhagens celulares, enquanto que, em geral, o TGF-beta1 foi capaz de aumentar significantemente (ANOVA, p<0,05) a expressão dos transcritos de 5 genes homeobox (HOXA7, HHEX, PKNOX1, PITX1, TGIF). Particularmente transcritos dos genes PITX1 e TGIF foram signicantemente mais expressos nas linhagens tumorais (HN6 e HN31) frente à linhagem não-tumoral quando tratados com TGF-beta1. Desse modo, sugere-se que os genes homeobox estudados desempenhem diferentes funções na carcinoma epidermóide de boca, e que, especialmente PITX1 e TGIF atuem como oncogenes inibindo a resposta anti-proliferativa dependente de TGF-beta e levando a progressão tumoral. / Homeobox genes, vital to many aspects related with cellular growth and differentiation, had been described as deregulated in some cancers. Their role in carcinogenesis, mainly oral squamous cell carcinomas, remains unclear and poorly characterized. Thus, this study had the purpose to evaluate, in cell cultures, the expression profile of six homeobox genes (ASH2L, HOXA7, HHEX, PKNOX1, PITX1, TGIF) selected among genes previously identified in the Head and Neck Cancer Genoma Project (2001), under stimulation with EGF and TGF-beta1. Oral squamous cell carcinoma cell lines from primary tumour (HN6) and from methastasis (HN31), and a non-tumoral cell line (HaCat) were cultured under standard procedures. CDNAs were obtained by RT-PCR and the transcripts were amplified and quantified by real-time PCR. Data were normalized by HPRT gene and the relative quantification was made by the delta Ct method. According to the results, it was possible to observe that EGF produced a variable modulation of the analyzed genes, in all cell lines. Generally, TGF-beta1 was able to significantly increase (ANOVA, p<0,05) the expression of the transcripts of 5 homeobox genes (HOXA7, HHEX, PKNOX1, PITX1, TGIF). Transcripts of PITX1 and TGIF genes were particularly more expressed in the tumoral cell lines (HN6 e HN31), when compared to the non-tumoral cell line, when treated with TGF-beta1. It is suggested that the studied homeobox genes play different roles in oral squamous cell carcinoma and that, especially the PITX1 and TGIF act as oncogenes, inhibitting the TGF-dependent anti-proliferative response, leading to tumour progression.

Carcinoma epidermóide de boca

Cell lines

EGF

EGF

Genes Homeobox

Homeobox genes

Linhagens celulares

Oral squamous cell carcinoma

PCR quantitativo

qPCR

TGF-beta

TGF-beta

Estudo da expressão de Arkadia, proteína E3 de ubiquitinação, em tumores de tiróide e sua relação com a via de sinalização de TGF-Beta. / Study of Arkadia expression, ubiquitination E-3 protein, in thyroid tumors and its relation to the TGF-beta signaling pathway.

Rezende, Eloiza de

12 May 2009

Arkadia participa do processo de amplificação da sinalização de TGF-b mediada por Smads, via degradação do I-Smad. O objetivo desse estudo foi caracterizar e investigar a influência de Arkadia em linhagens celulares de cânceres de tiróide. A expressão gênica de Arkadia em linhagens celulares de carcinomas papílifero (NPA), folicular (WRO) e anaplásico (ARO), foi avaliada por PCR quantitativo. Em ARO, que apresenta a maior expressão de Arkadia, foram identificados subclones (ARO_1 e ARO_2) com expressão diferencial de Arkadia, ARO_2>ARO_1. A expressão gênica de SMAD2, 3, 4, 7 e de genes do ciclo celular modulados por TGF-b, foi maior em ARO_2. Os subclones respondem ao tratamento com peptídeo de TGF-b1 e activina A. O crescimento in vivo (xenotransplante) mostra que ARO_2 desenvolve um tumor de menor volume. Recentemente a origem de ARO foi questionada e comprovamos sua origem por análises de expressão gênica e morfologias. Desta maneira, observamos que a expressão diferencial de Arkadia indica que ela está envolvida na modulação inibitória da via de TGF-b. / Arkadia is involved in the process of amplification of the TGF-b signaling mediated by Smads, by degradation of I-Smad. The aim of this study was to characterize and investigate the influence of Arkadia in thyroid cancers cell lines. Arkadia gene expression in the papillary (NPA), follicular (WRO) and anaplastic carcinoma cell lines (ARO) was evaluated by quantitative PCR. In ARO, which presents the highest Arkadia expression, we identified subclones (ARO_1 and ARO_2) with differential Arkadia expression ARO_2> ARO_1. The expression of SMAD2, 3, 4, 7 and the cell cycle genes modulated by TGF-b, was also higher in ARO_2. However both the subclones responded to treatment with peptide of TGF-b1 and activin A. The in vivo growth (evaluated by xenotransplant), showed that ARO_2 developed tumors of lower volume. Recently the ARO origin was questioned and we proved its origin by gene expression and morphological analysis. This way, the differential Arkadia expression indicates that it is involved in modulation of the inhibitory TGF-b pathway.

Arkadia

Arkadia

ARO

ARO

Carcinoma anaplásico de tiróide

E-3 Ubiquitin ligase

E3 ubiquitina ligase

TGF-beta

TGF-beta

Thyroid anaplastic carcinoma

Ubiquitinação

Ubiquitination

Caractérisation des facteurs de régulation de la prolifération des cellules souches neurales dans le cerveau adulte / Characterization of the factors regulating the proliferation of adult neural stem cells

Daynac, Mathieu

30 September 2013

Les cellules souches neurales quiescentes (CSN) sont le réservoir de la neurogenèse adulte, permettant de produire des nouveaux neurones tout au long de la vie. Cependant, la neurogenèse décroit au cours du vieillissement, provoquant des déclins cognitifs incurables. Afin de mieux comprendre les mécanismes qui contrôlent la prolifération des CSN, nous avons mis en place une méthode de tri par cytométrie en flux qui permet pour la première fois d’isoler les CSN quiescentes et leurs cellules filles dans la ZSV adulte murine. Cette technique nous a permis de prouver que le blocage de la voie GABAAR in vivo provoque l’entrée en cycle des CSN quiescentes. Ainsi, les signaux GABA produits par les neuroblastes dans la ZSV permettent de maintenir les CSN dans leur état de quiescence. Au cours du vieillissement, nous montrons que la production progressive de TGFβ1 par les cellules endothéliales de la niche allonge la phase G1 des CSN activées, diminuant sensiblement la production de nouveaux neurones, sans toutefois diminuer le stock de CSN. Nous mettons ainsi en évidence deux voies majeures contrôlant la prolifération des CSN in vivo, la voie du GABAAR et la voie TGF-β/Smad-3. En vue d’une application thérapeutique, nous prouvons que leur blocage pharmacologique permet de stimuler efficacement la neurogenèse in vivo. / Quiescent neural stem cells (NSCs) are considered the reservoir for adult neurogenesis, generating new neurons throughout life. However, neurogenesis decreases during aging, causing a progressive decline that is currently untreatable. To study the regulatory mechanisms of NSCs proliferation, we set up a new technique allowing the isolation of quiescent NSCs and their progeny. We show that GABAAR directly regulates NSCs quiescence in vivo as the depletion of GABA-producing neuroblasts or GABAAR pathway pharmacological blockade provoked NSCs cell cycle entry in the SVZ. During aging, the stock of NSCs is not perturbed, but we show that an over-production of TGFβ1 by brain endothelial cells directly lengthens activated NSCs G1 phase, strongly decreasing the production of new neurons. These findings highlight GABAAR and TGF-β/Smad-3 as two major pathways controlling NSCs proliferation. In line with a future therapeutic application, we also prove that their blocking stimulates endogenous neurogenesis in vivo.

Neurogénèse adulte

Cellule souche neurale

Irradiation

Cytométrie en flux

GABA

Vieillissement

TGF-bêta

Adult neurogenesis

Neural stem cell

Irradiation

Flow cytometry

GABA

Aging

TGF-beta

CD103 : du gène à la protéine : Etude de la régulation et de la signalisation de l’intégrine αE(CD103)β7 exprimée par les lymphocytes T CD8+ intratumoraux / CD103 : gene to protein : Study of regulation and signaling integrin αE(CD103)β7 expressed by CD8 T cell infiltrating the tumor

Mokrani, M'barka

07 November 2013

L’élucidation des mécanismes permettant l’optimisation de la réponse immunitaire antitumorale correspond à un enjeu majeur pour le développement de stratégies d’immunothérapie efficace. En effet, les réponses immunitaires antitumorales se traduisent rarement par l’éradication de la tumeur. Dans ce contexte, les travaux antérieurs de mon équipe ont démontré que l’interaction de l’intégrine αE(CD103)β7, souvent exprimée par les lymphocytes infiltrant la tumeur (TIL), avec son ligand E-cadhérine, à la surface des cellules tumorales épithéliales, joue un rôle majeur dans la potentialisation de l’activité lytique des cellules T en induisant la polarisation et l’exocytose des granules cytotoxiques. Nos résultats ont indiqué aussi que le TGF-β1, souvent abondant dans les tumeurs, joue un rôle déterminant dans cette induction suite à l’engagement du récepteur des cellules T. Dans ce contexte, nous avons cherché à comprendre les mécanismes de régulation du gène ITGAE qui codent la sous-unité alphaE de l’intégrine CD103. Nos résultats ont montré que les facteurs transcriptionnels Smad2, Smad3 et NFAT-1 sont impliqués dans la régulation de l’expression de la sous-unité αE(CD103). En effet, une costimulation avec du TGF-β1 recombinant et un anticorps anti-CD3 d’un clone T CD103- induit l’expression de cette intégrine qui est accompagnée d’une translocation dans le noyau de Smad2, Smad3 et NFAT-1 qui sont cytoplasmiques à l’état basal. L’inhibition spécifique de ces facteurs transcriptionnels inhibe l’expression de CD103 et abroge le potentiel lytique du clone T vis à vis de sa cible tumorale autologue. De plus, nous avons identifié deux séquences régulatrices du gène ITGAE humain, un promoteur proximal et un enhancer. Par ailleurs, mon équipe a récemment montré que l’interaction de CD103 à la surface des TIL avec une molécule E-cadhérine recombinante est suffisante pour induire la polarisation des granules cytolytiques par un mécanisme dépendant de la PLC-g1 et ERK et que cette intégrine possède non seulement une fonction d’adhérence, mais aussi une fonction de costimulation du signal TCR des TIL antitumoraux. Nous avons cherché à mieux comprendre la signalisation de l’intégrine CD103, en identifiant les domaines intracytoplasmiques de la sous-unité αE impliqués dans son activation. Nous avons ainsi construit une protéine de fusion CD103-GFP et plusieurs mutants du domaine intracytoplasmique de la sous-unité αE qui ont été ensuite transfectés dans la lignée Jurkat Tag CD103-/beta7+. Nos résultats ont montré que le domaine intracytoplasmique de la chaîne alphaE n’est pas nécessaire à la reconnaissance du ligand, la E-cadhérine. Par contre, nous avons montré que ce domaine est impliqué dans le phénomène de clustering de l’intégrine et dans sa polarisation à la zone de contact avec des billes couvertes avec la E-cadhérine-Fc. Nous avons identifié un domaine de 8 acides aminés (ESIRKAQL), contenant une sérine en position 1163 potentiellement phosphorylable, et qui est indispensable pour la signalisation de l’intégrine. De plus, nos travaux ont montré que ce domaine ESIRKAQL, est nécessaire pour la phosphorylation de la ERK1/2 et PLC-g1. Ainsi, une meilleure compréhension des mécanismes moléculaires régulant les fonctions de CD103 pourrait contribuer au développement et à l’amélioration de la réponse antitumorale exercée par les CTL. / The elucidation of mechanisms for optimizing the antitumor immune response is a major challenge for the development of strategies for effective immunotherapy. Indeed, the anti-tumor immune responses rarely result in the eradication of the tumor. In this context, the previous work of my team have shown that the interaction of integrin αE(CD103)β7, often expressed by tumor infiltrating lymphocytes (TIL) with its ligand E-cadherin at the cell surface tumor epithelial cells, plays a major role in the potentiation of the lytic activity of T cells by inducing polarization and exocytosis of cytotoxic granules. Our results also indicated that TGF-β1, often abundant in tumors, plays a key role in the induction due to the commitment of the T cell receptor. In this context, we sought to understand the mechanisms regulating ITGAE gene encoding the subunit αE of integrin. Our results showed that the transcription factors Smad2, Smad3 and NFAT-1 are involved in regulating the expression of subunit αE(CD103)β7. Indeed, costimulation with recombinant TGF-β1 and anti-CD3 antibody induces on T cell clone CD103- the expression of this integrin ant the translocation into the nucleus of Smad2, Smad3 and NFAT-1 that are cytoplasmic at baseline. Specific inhibition of these transcription factors inhibits the expression of CD103 and repeals the lytic potential of cloned T with respect to the autologous tumor target. In addition, we identified two regulatory sequences of human ITGAE gene, proximal promoter and enhancer. In addition, my team has recently shown that the interaction of CD103 on the surface of TIL with a recombinant molecule E-cadherin is sufficient to induce the polarization of cytolytic granules by ERK and PLC-γ1 pathway thus this integrin has not only a function of adherence, but also a function of costimulatory signal TCR of TIL. We sought to better understand the signaling of integrin CD103, by identifying the cytoplasmic domains of the subunit αE involved in its activation. We have constructed a fusion protein CD103-GFP and several mutants of intracytoplasmic domain of the subunit αE which were then transfected into the Jurkat Tag cell line CD103-/ β7+. Our results showed that the intracytoplasmic domain of CD103 is not necessary for ligand recognition, E-cadherin. By cons, we have shown that this area is involved in the phenomenon of clustering of integrin and its polarization to the contact area with balls covered with E-cadherin-Fc. We have identified a range of 8 amino acids (ESIRKAQL) containing a potentially phosphorylatable serine in position 1163, which is essential for integrin signaling. In addition, our work has shown that this area ESIRKAQL is necessary for the phosphorylation of ERK1/2 and PLC-g1. Thus, a better understanding of the molecular mechanisms that regulate the functions of CD103 may contribute to the development and improvement of the antitumor response exerted by CTL .

Intégrine CD103

ITGAE

TGF-β1

Smad

NFAT

Lymphocyte T CD8+

Signalisation des intégrines

Integrin CD103

ITGAE

TGF-β1

Smad

NFAT

Lymphocyte T CD8+

Integrins signalization

Radiation-induced fibrosis : Characterization of the anti-fibrotic mechanisms displayed by pentoxifylline/vitamin E / Fibrose radio-induite : Mécanismes moléculaires impliqués dans l’action anti-fibrosante exercée par l’association pentoxifylline-vitamine E

Hamama, Saad

21 November 2012

La fibrose radio-induite est une complication sévère et tardive de la radiothérapie. Plusieurs études cliniques ont montré que la combinaison pentoxifylline-vitamine E est un traitement sûr et efficace contre la fibrose. Cependant, les mécanismes moléculaires de son efficacité restent inexplorés. Nous avons montré l’efficacité de la combinaison pentoxifylline-vitamine E dans l’entéropathie radique dans une faisabilité clinique. En parallèle, en utilisant un modèle unique, in vitro, de cellules musculaires lisses intestinales primaires isolées des personnes atteintes de l’entéropathie radique, nous avons montré une synergie entre la pentoxifylline et l’analogue hydrophile de vitamine E (trolox) qui permet à l’association d’inhiber l’expression de TGF-β1 au niveau de l’ARN messager et de la protéine. Cette action inhibitrice intervient au niveau transcriptionnel et conduit à une inhibition conséquente des cibles de la voie de signalisation TGF-β1/Smad (Col Iα1, FN1, PAI-1, CTGF), alors qu’elle semble sans effet sur la voie de signalisation Rho/ROCK. Pour la première fois, dans ces cellules issues de l’entéropathie radique, nous avons montré une surexpression de miR-210 ; microRNA induit par l’hypoxie. L’association pentoxifylline-trolox inverse la surexpression de miR-210 aussi bien dans les conditions normoxique que dans les conditions hypoxiques. L’implication de miR-210 dans l’entéropathie radique n’a pas été préalablement étudiée, néanmoins nous avons montré qu’un inhibiteur de miR-210 diminue l’expression de Col Iα1 dans ce modèle. L’effet anti-fibrosant exercé par l’association pentoxifylline-vitamine E est partiellement induit par l’inhibition de la cascade TGF-β1. L’inhibition de miR-210 est un deuxième mécanisme potentiel nécessitant d’autres investigations. Cette étude renforce les essais clinique antérieurs en montrant in vitro une synergie entre pentoxifylline et vitamine E et permettant de proposer cette association en première ligne thérapeutique dans la fibrose radio-induite. De plus, miR-210 est proposé comme une possible cible thérapeutique pour traiter la fibrose radio-induite. / Radiation-induced fibrosis is a serious late complication of radiotherapy. Pentoxifylline-vitamin E has proven effective and safe in clinical trials as treatment of fibrosis, while the molecular mechanism of its activity is yet unexplored. We showed efficacy of Pentoxifylline-vitamin E combination in radiation-induced enteropathy in a small clinical study. In parallel, using a unique in vitro model of primary smooth muscle cells isolated from intestinal samples isolated from humans with radiation enteropathy we showed that pentoxifylline and the hydrophilic analogous of vitamin E (trolox) synergize to inhibit TGF-β1 protein and mRNA expression. This inhibitory action is mediated at the transcriptional level and leads to subsequent inhibition of TGF-β1/Smad targets (Col Iα1, FN1, PAI-1, CTGF), while it has no effect on the Rho/Rock pathway. We have also demonstrated, for the first time, an overexpression of the hypoxia-induced microRNA miR-210 in the fibrotic cells. Pentoxifylline-trolox combination could reverse this miR-210 overexpression in normoxic and hypoxic conditions. While miR-210 has not been previously shown to be involved in radiation-induced enteropathy, we showed that miR-210 inhibitor could reduce mRNA expression of Col Iα1. The anti-fibrotic effect of combined pentoxifylline-vitamin E is at least in part mediated by inhibition of the TGF-β1 cascade. MiR-210 inhibition is another mechanism which needs further investigations. This study strengthens previous clinical data showing pentoxifylline-vitamin E synergy and supports its use as a first-line treatment of radiation-induced fibrosis. Also, it suggests miR-210 as a new potential therapeutic target for the treatment of this complication.

Fibrose radio-induite

Entéropathie radique

Pentoxifylline

Tocophérol

Trolox

TGF-β1

Rho/ROCK

MiR-210

Radiation-induced fibrosis

Radiation enteropathy

Pentoxifylline

Tocopherol

Trolox

TGF-β1

Rho/Rock

MiR-210

Papel de TGF&#946;-1 na regulação da expressão de MMPs seus inibidores (TIMPs e Reck) em modelo de carcinoma mamário humano: análise funcional de RECK e sua correlação com dados clínico-patológicos / Role of TGF&#946;-1 as a common regulator of MMPs and their inhibitors (TIMPs e RECK) in human breast cancer cell model: functional analysis of RECK and its correlation with clinical-pathological

Gomes, Luciana Rodrigues

14 October 2011

A causa de morte da maioria das pacientes com câncer de mama se deve à doença metastática desenvolvida a partir do tumor primário. A degradação dos componentes da matriz extracelular (MEC), um dos principais eventos do processo metastático, é regulada pelo balanço entre as atividades das metaloproteinases de matriz (MMPs) e dos seus inibidores, tanto os inibidores teciduais (TIMPs) como o inibidor associado à membrana (RECK). Contudo, ainda existe pouca informação sobre os mecanismos moleculares responsáveis pela manutenção deste balanço. No presente trabalho, foi investigado o envolvimento de TGF-&#946;1 (Transforming Growth Factor-&#946;1), uma citocina multifuncional é capaz tanto de inibir o crescimento celular, quanto de promover invasão e metástase, dependendo do estadiamento e do tipo de tumor, na regulação da expressão de MMPs, TIMPs e RECK, em modelo de câncer de mama. Primeiramente, examinou-se os níveis de expressão de mRNA das isoformas e receptores de TGF-&#946;, em um painel de cinco linhagens de carcinoma mamário humano, com diferentes potenciais invasivos e metastáticos, por qRT-PCR. Os resultados obtidos demonstraram uma correlação positiva entre a expressão dessas moléculas, e a progressão do caráter invasivo e metastático celular. Em seguida, a linhagem altamente invasiva, MDA-MB-231, foi tratada com diferentes concentrações de TGF-&#946;1 recombinante. Esta citocina foi capaz de modular a expressão gênica de MMPs (MMP-2 e MMP-9) e de seus inibidores (TIMP- 2 e RECK). Tanto ERK½, quanto p38MAPK mostraram-se envolvidas neste mecanismo. Foi demonstrado que a inibição da atividade de ERK½ alterou a expressão das proteínas MMP-9, TIMP-2 e RECK, enquanto o bloqueio de p38 MAPK afetou os níveis protéicos de MMP-2 e TIMP-2. O aumento do potencial migratório e invasivo da linhagem MDA-MB-231, induzido por TGF-&#946;1, mostrou-se também dependente da atividade de MMPs, ERK½ e p38MAPK. Dada a ausência de informações sobre o papel de RECK em modelo mamário, a função deste inibidor de MMPs também foi investigada. Primeiramente, analisou-se a expressão de RECK ao longo do desenvolvimento da mama e, posteriormente, em 1040 amostras tumorais de mama humana, através da metodologia de Tissue Microarray, tendo sido possível demonstrar que a alta expressão de RECK associa-se a menor tempo de sobrevida global e livre de doença em 10 anos. Os resultados obtidos indicaram que a expressão da proteína RECK, em oposição ao verificado em outros tipos de tumores, está relacionada ao fenótipo mais agressivo de tumores de mama. Entretanto, a análise funcional de RECK, realizada por meio da utilização de vetores shRNA específicos para a inibição desta proteína, demonstrou que RECK também atua como um inibidor de invasão celular e da expressão de MMP-9, na linhagem MDA-MB-231. Em conjunto, os resultados obtidos neste trabalho contribuíram para a elucidação dos mecanismos moleculares de regulação de RECK, por clássicas moléculas associadas ao processo de tumorigênese (TGF-&#946;1 e MAPKs), bem como para o esclarecimento de suas funções em modelo mamário, sugerindo-o como mais um promissor candidato a marcador prognóstico e alvo molecular para a terapia do câncer de mama. / The metastatic disease is the main mortality cause of breast cancer patients. The metastatic process involves a complex cascade of events, including the organized breakdown of the extracellular matrix (ECM) compounds. The degradation of ECM is tightly regulated by the balance between the activities of matrix metalloproteinases (MMPs) and their inhibitors, the tissue inhibitors (TIMPs) and the membrane-associated inhibitor (RECK). Among the several molecules released and activated by ECM remodeling, TGF-&#946;1 (Transforming Growth Factor-&#946;1) is a multifunctional cytokine able to regulate both cell growth inhibition and invasion and metastasis promotion, depending on the tumor stage and type. Since the molecular mechanisms involved in the ECM remodeling control are still not completed understood, in this study, we investigated the involvement of TGF-&#946;1 in regulating of MMPs, TIMPs and RECK expression, in the breast cancer model. By qRT-PCR, we first examined the gene expression levels of TGF-&#946; isoforms and receptors, in a panel of five human breast cancer cell lines displaying different degrees of invasiveness and metastatic potential. Our results suggest a positive correlation between the mRNA expression of these molecules and the breast cancer progression. Moreover, the highly invasive breast cancer cell line MDA-MB-231 was treated with different concentrations of recombinant TGF-&#946;1. We described that this cytokine was able to modulate the gene expression of MMPs (MMP-2 and MMP-9) and MMPs inhibitors (TIMP-2 and RECK) at both the mRNA and protein levels, with ERK½ and p38 MAPK being involved in this molecular mechanism. However, while ERK½ activity inhibition altered MMP-9, TIMP-2 and RECK expression, the p38 MAPK blockage affected the protein levels of MMP-2 and TIMP-2. Finally, we reposted that the TGF-&#946;1-enhanced migration and invasion capacities of MDA-MB- 231 cells were blocked by MMPs, ERK½ and p38 MAPK inhibitors. Analysis of the RECK function in the breast model was also an objective of this study. We analyzed RECK expression during mammary gland development. We evaluated the RECK protein profile in 1040 breast tumor tissue samples using Tissue Microarray assays. We demonstrated that high expression levels of RECK were associated with shorter overall and disease-free survival in 10 years. Moreover, we verified that RECK is a biomarker of poor prognosis mainly for patients diagnosed with less aggressive breast tumor. Therefore, in contrast to other tumor types, our results indicate that high protein expression levels of RECK are related to a more aggressive phenotype. In fact, the RECK functional analysis, performed by using of shRNA vectors, showed that RECK function remains as an inhibitor of cellular invasion and MMP-9 expression, in MDA-MB-231 cells. Taken together, our results contribute to better understanding of the molecular mechanisms associated to RECK regulation by TGF-&#946;1 and MAPK as well as to clarify its role in breast model. Thus, we suggests RECK as a new and promising prognostic marker and molecular target candidate for breast cancer therapy.

Breast cancer

Câncer de mama

Cellular invasion

Expressão gênica

Gene expression

Invasão

MMPs

MMPs

RECK

RECK

TGF&#946;-1

TGF&#946;-1

TIMPs

TIMPs

Avaliação de alterações morfológicas da pele após lesão radioinduzida em ratos Wistar / Evaluation of skin morphological alterations after radio induced injury in Winstars rats

Cherley Borba Vieira de Andrade

25 February 2010

Comissão Nacional de Energia Nuclear / A radioterapia é uma das modalidades terapêuticas mais utilizadas no tratamento do câncer, visando à destruição das células neoplásicas, a partir da utilização de radiação ionizante. Um dos fatores limitantes da radioterapia é o dano em tecidos sadios vizinhos ao tumor. A irradiação da pele, acidental ou para fins terapêuticos, pode desencadear uma série de lesões culminando na fibrose, o que implica na alteração funcional deste órgão. A avaliação dos efeitos morfológicos associados à irradiação da pele torna-se fundamental para estabelecer estratégias de irradiação mais eficazes e diminuição da morbidade; e em caso de acidentes, adequado manuseio da vítima. O objetivo deste estudo foi avaliar as alterações dérmicas radioinduzidas, utilizando um modelo em ratos. Ratos Wistar, machos, com três meses de idade, tiveram sua pele irradiada, em um campo de 3cm2, com doses únicas de 10, 40 e 60 Gy de elétrons com energia nominal de 4MeV. Após a irradiação, os animais permaneceram sob avaliação constante, sendo as lesões registradas fotograficamente. Os animais foram divididos em grupos e eutanasiados: no dia da irradiação, 5, 10, 15, 25 e 100 dias após a irradiação. Parte da pele foi fixada em formaldeído, incluída em parafina e submetida à microtomia. Os cortes foram corados com hematoxilina-eosina, picrosirius red e imunomarcados com anticorpo anti-TGF-beta1. Outra parte do tecido foi fixada em glutaraldeido e processada para microscopia eletrônica de varredura. Foi observado macroscopicamente o surgimento de lesões cutâneas semelhantes a queimaduras em toda área irradiada. Ao microscópio óptico foi verificado o inicio de desenvolvimento de lesão 5 dias após irradiação. Decorridos 10 dias da irradiação observou-se indícios de cicatrização epidérmica abaixo da crosta formada pela lesão. Aos 15 dias após a irradiação o tecido abaixo da lesão apresentava epiderme reconstruída e características de cicatrização tecidual. Foi visualizado também um infiltrado de polimorfonucleares significativo. Após 25 dias nas doses mais elevadas as lesões persistiam, o que não ocorreu na menor dose, na qual a área irradiada dos animais já se encontrava completamente cicatrizada. Após 100 dias da irradiação na dose de 40 Gy ocorreu a cicatrização da ferida. Na dose de 60 Gy em alguns animais a lesão persistia. Nos animais em que ocorreu a cicatrização houve uma hipertrofia da epiderme (acantose). Foi visualizado um tecido com aspecto morfológico totalmente descaracterizado, e necrosado. Os resultados encontrados na analise através de microscopia eletrônica de varredura corroboram os dados encontrados na microscopia de luz, onde observou-se a descaracterização das fibras de colágeno nas doses mais elevadas. Os resultados indicam que as doses utilizadas induziram um processo inflamatório importante na pele, ativando o sistema imunológico. Este fato promoveu um aumento na expressão do TGFbeta1, um dos responsáveis pelo aumento da produção da matriz extracelular por vários tipos celulares, principalmente por fibroblastos em tecidos lesionados. Alem do aumento de expressão da MEC, o TGFbeta1 também promove a inibição dos processos de degradação da mesma. A intensa expressão desta citocina na pele irradiada pode desencadear o processo de fibrose e, conseqüentemente, afetar a homeostase deste órgão devido ao acúmulo da MEC. / Radiation therapy is one of the most commonly used therapeutic modalities in cancer treatment, aiming the destruction of neoplastic cells using ionizing radiation. A limiting factor is the radiation damage in healthy tissues neighboring the tumor. The irradiation of the skin, accidentally or for therapeutic purposes, can trigger a series of injuries culminating in fibrosis, causing functional alterations in this organ. The morphological evaluation of the effects associated with skin irradiation becomes essential to establish more effective strategies for irradiation and decreased morbidity, and in case of accidents, proper handling of the victim. The aim of this study was to evaluate the radiation-induced dermal changes, using a rats model. Male Wistar rats, three months old, had their skin irradiated, in a 3cm2 field, with single doses of 10, 40 and 60 Gy of electrons with nominal energy of 4MeV. After irradiation, the animals were kept under constant observation, lesions were recorded photographically. The animals were divided into groups and euthanized: on the day of irradiation, 5, 10, 15, 25 and 100 days after irradiation. Part of the skin was fixed in formaldehyde, embedded in paraffin and subjected to microtomy. Sections were stained with hematoxylin-eosin, picrosirius red and immunostained with anti-TGF-beta1. Another part of the tissue was fixed in glutaraldehyde and processed for scanning electron microscopy. It was observed macroscopic skin lesions similar to burns throughout the irradiated area. It was verified, by optical microscopy, the early development of lesions 5 days after irradiation. After 10 days of irradiation there was evidence of epidermal wound healing under the crust formed by the injury. At the day 15 days the tissue below the lesion was reconstructed and had characteristics of healing, displaying a significant polymorphonuclear cells infiltration. After 25 days, at the higher doses, the lesions persisted, which did not occur at the lowest dose, which the irradiated area was already completely healed. After 100 days of irradiation with 40 Gy the wound was healed. With 60 Gy, in some animals, the lesion persisted. In the animals which the healing took place there was a hypertrophy of the epidermis (acanthosis). It was observed a tissue totally morphological mischaracterized, and necrotic. The results obtained by scanning electron microscopy analysis corroborate with the optical microscopy findings, where the higher doses collagen fibers were mischaracterized. The results indicate that the doses used induced a significant inflammation in the skin, activating the immune system. This fact promoted an increased expression of TGFbeta1, which is responsible for an increased production of extracellular matrix (ECM) by various cell types, mainly fibroblasts in injured tissues. Besides the increased expression of ECM, the TGFbeta1 also promotes the inhibition of the degradation processes of the same. The intense expression of this cytokines in irradiated skin can trigger the process of fibrosis and, consequently, affect the homeostasis of the body due to accumulation of ECM.

Pele

Radiação ionizante

Reparo Tecidual

TGF-beta

Colágeno

Radiação ionizante - Dosimetria

Skin

Ionizing Radiation

Wound healing

TGF-beta

Collagen

RADIOLOGIA E FOTOBIOLOGIA