Uncovering Transcription Factor Networks by Integrating One Dimensional ‘Omics and Three Dimensional Chromatin Structure

Lan, Xun

17 July 2012

No description available.

Bioinformatics

Transcriptional factors

Epigenetics

Chromatin interaction

Jun regulates monocyte-derived macrophage accumulation and tumour progression / Jun régule l'accumulation des macrophages dérivés de monocytes et la progression tumorale

Delfini, Marcello

09 April 2019

Les macrophages sont des cellules immunitaires innées présentes dans chaque organe. Ils sont des cibles thérapeutiques dans de nombreuses maladies, dont le cancer. En dépit de travaux récents sur l'origine des macrophages, les mécanismes régulant leur différenciation sont mal définis. L'expression de Jun, membre de la famille AP-1, augmente pendant la différenciation des macrophages, mais son rôle dans ce processus n'est pas connu.Au cours de mon doctorat, nous avons caractérisé le rôle de Jun dans le développement et l'homéostasie des macrophages, dans un modèle de souris avec délétion conditionnelle de Jun dans la lignée myéloïde (JunΔCsf1r). Nous montrons que Jun contrôle la différenciation, induite par CSF1, des monocytes en macrophages. In vivo, Jun régule l'accumulation de macrophages dérivés de monocytes dans les poumons et intestins. Les macrophages associés aux tumeurs (TAMs) jouent un rôle crucial dans la progression des cancers. L’absence de Jun freine la croissance d’un mélanome et la différenciation, induite par CSF1, des TAMs dérivés de monocytes qui participent à l’angiogénèse tumorale. Cependant, lors d'une inflammation aiguë, Jun n’affecte pas le recrutement de macrophages inflammatoires.En conclusion, nos résultats identifient Jun comme un régulateur central de la différenciation des macrophages. Dans un modèle de mélanome, les macrophages Jun-dépendants exercent des fonctions pro-tumorales. Le fait que Jun soit un régulateur sélectif du développement des macrophages dépendants de CSF-1 permettra de définir de nouvelles approches ciblant sélectivement la différenciation des macrophages, sans altérer les réponses immunitaires dépendantes des monocytes. / Macrophages are immune cells present in every organ. Given their variety of functions, macrophages are therapeutic targets in many diseases including cancer. Despite the research efforts to characterise their origins, the molecular mechanisms regulating macrophage differentiation are still poorly defined. Expression of the AP-1 factor, Jun, increases during differentiation, but its role in macrophage development is not known.During my PhD, we characterised how Jun affects macrophage development and homeostasis. We developed a conditional mouse model in which Jun is deficient in the myeloid lineage (JunΔCsf1r). We showed that Jun controls CSF1-mediated monocyte to macrophage differentiation, proliferation and survival. In vivo, Jun loss limits macrophage accumulation in lungs and intestine. Tumour-associated macrophages (TAMs) play critical roles in cancer progression. We observed that Jun deficiency dampens melanoma growth and the differentiation of CSF1-dependent monocyte-derived TAMs. We further showed that Jun-dependent TAMs mediate vessel normalisation in melanoma. During inflammation, Jun was dispensable for the recruitment of monocyte-derived inflammatory macrophages.Altogether, our results identify Jun as a master regulator of macrophage differentiation, without altering monocyte effector functions. In a melanoma model, we showed that Jun-dependent TAMs play tumour-promoting roles. Therefore, Jun is a selective regulator of CSF-1-dependent macrophage development, which is redundant during inflammation; this observation should help to define novel approaches to selectively target macrophage differentiation, without altering monocyte-dependent immune responses.

Jun

Macrophages

Tumeurs

Facteur de transcription

Angiogenese

Jun

Macrophage

Tumour

Transcriptional factors

Angiogenesis

571

Regulation of FOXO stability and activity by MDM2 E3 ligase

Fu, Wei

01 June 2007

Members of the forkhead class O (FOXO) transcription factors are tumor suppressors and key molecules that control aging and lifespan. The stability of mammalian FOXO proteins is controlled by proteasome-mediated degradation but general ubiquitin E3 ligases for FOXO factors remain to be defined. The current studies demonstrate that MDM2 bound to FOXO1 and FOXO3A and promoted their ubiquitination and subsequent degradation, a process apparently dependent on FOXO phopshorylation at PKB sites and on the E3 ligase activity of MDM2. The binding occurred between endogenous proteins and was involved the forkhead box of FOXO1 and the region of MDM2 that controls its cellular localization. MDM2 promoted the ubiquitination of FOXO1 in vitro in a cell free system. Knocking down MDM2 by siRNA caused the accumulation of endogenous FOXO3A protein, and enhanced the expression of FOXO target genes. In addition, MDM2 promoted the transcriptional activity of FOXO in a transient transfection system. In cells stably expressing a temperature sensitive mutant p53, activation of p53, by shifting to permissive temperatures led to MDM2 induction and the degradation of endogenous FOXO3A. These data suggested that MDM2 acts downstream of p53 as an E3 ubiquitin ligase to promote the degradation of mammalian FOXO factors.

Forkhead transcriptional factors

MDM2

Ubiquitination

Protein degradation

Apoptosis

American Studies

Arts and Humanities

Efeito dos glicocorticóides na resposta inflamatória induzida por LPS em cultura de células primárias fronto-corticais de ratos neonatos. / Glucocorticoids effects on LPS-induced inflammation in rat primary frontal cortex cultures.

Duque, Érica de Almeida

22 March 2013

Embora os glicocorticoides (GCs) sejam os anti-inflamatórios mais prescritos mundialmente, níveis elevados de GCs potencializam alguns aspectos da resposta inflamatória em regiões do encéfalo de ratos, dependentes da ativação dos receptores GR. Neste estudo visamos avaliar os efeitos dos glicocorticoides em alguns aspectos da resposta inflamatória induzida por LPS nas populações de células (neurônio, micróglia e astrócitos) primárias de córtex frontal derivadas de ratos Wistar neonatos. Através de ensaios EMSA e imunofluorescência, avaliamos indicativos da ativação do fator NFKB em culturas mistas e enriquecidas expostas ao pré-tratamento com CORT, seguido do estímulo inflamatório LPS. Verificamos que a CORT não exerceu sua clássica atividade anti-inflamatória, pois não foi capaz de diminuir a ativação do NFKB induzida pelo LPS nas culturas mistas, sugerindo ser parcialmente dependente da ativação de GR, concentração dos GCs e interações celulares, já que os astrócitos em culturas mistas exibem respostas diferentes quanto ao NFKB, mas a microglia e neurônios não. / Although glucocorticoids (GCs) are the most commonly prescribed anti-inflammatory worldwide, high levels of GCs enhance some aspects of the inflammatory response in brain regions of rats, dependent on activation of GR. In this study, we aim to evaluate the effects of glucocorticoids in some aspects of the inflammatory response LPS-induced in populations of cells (neurons, astrocytes, and microglia) in primary frontal cortex derived from newborn rats. Through EMSA and immunofluorescence assays, we evaluated the indicative factor NFKB activation in mixed and enriched cultures exposed to pretreatment with CORT, followed by the LPS inflammatory stimulus. We found that CORT did not exerted its classic anti-inflammatory activity, whereas it was not able to decrease the activation of NFKB LPS-induced in mixed cultures, suggesting be partially dependent on the GR activation, GCs concentration and cellular interactions, since astrocytes in mixed cultures exhibit different responses relative to NFKB, but neurons and microglia did not.

Astrócitos

Astrocytes

Cerebral cortex

Córtex cerebral

Fatores de transcrição

Glucocorticoids hormones

Hormônios glicocortecóides

Inflamação

Inflammation

Ratos

Rats

Transcriptional factors

Efeito dos glicocorticóides na resposta inflamatória induzida por LPS em cultura de células primárias fronto-corticais de ratos neonatos. / Glucocorticoids effects on LPS-induced inflammation in rat primary frontal cortex cultures.

Érica de Almeida Duque

22 March 2013

Embora os glicocorticoides (GCs) sejam os anti-inflamatórios mais prescritos mundialmente, níveis elevados de GCs potencializam alguns aspectos da resposta inflamatória em regiões do encéfalo de ratos, dependentes da ativação dos receptores GR. Neste estudo visamos avaliar os efeitos dos glicocorticoides em alguns aspectos da resposta inflamatória induzida por LPS nas populações de células (neurônio, micróglia e astrócitos) primárias de córtex frontal derivadas de ratos Wistar neonatos. Através de ensaios EMSA e imunofluorescência, avaliamos indicativos da ativação do fator NFKB em culturas mistas e enriquecidas expostas ao pré-tratamento com CORT, seguido do estímulo inflamatório LPS. Verificamos que a CORT não exerceu sua clássica atividade anti-inflamatória, pois não foi capaz de diminuir a ativação do NFKB induzida pelo LPS nas culturas mistas, sugerindo ser parcialmente dependente da ativação de GR, concentração dos GCs e interações celulares, já que os astrócitos em culturas mistas exibem respostas diferentes quanto ao NFKB, mas a microglia e neurônios não. / Although glucocorticoids (GCs) are the most commonly prescribed anti-inflammatory worldwide, high levels of GCs enhance some aspects of the inflammatory response in brain regions of rats, dependent on activation of GR. In this study, we aim to evaluate the effects of glucocorticoids in some aspects of the inflammatory response LPS-induced in populations of cells (neurons, astrocytes, and microglia) in primary frontal cortex derived from newborn rats. Through EMSA and immunofluorescence assays, we evaluated the indicative factor NFKB activation in mixed and enriched cultures exposed to pretreatment with CORT, followed by the LPS inflammatory stimulus. We found that CORT did not exerted its classic anti-inflammatory activity, whereas it was not able to decrease the activation of NFKB LPS-induced in mixed cultures, suggesting be partially dependent on the GR activation, GCs concentration and cellular interactions, since astrocytes in mixed cultures exhibit different responses relative to NFKB, but neurons and microglia did not.

Astrócitos

Córtex cerebral

Fatores de transcrição

Hormônios glicocortecóides

Inflamação

Ratos

Astrocytes

Cerebral cortex

Glucocorticoids hormones

Inflammation

Rats

Transcriptional factors

Análise molecular dos genes OTX1 e OTX2 em meduloblastomas / Molecular analysis of OTX1 and OTX2 genes in medulloblastoma

Muoio, Valeria Marques Figueira

02 July 2010

INTRODUÇÃO: O meduloblastoma, tumor maligno do Sistema Nervoso Central mais comum em crianças, foi inicialmente descrito de forma uniforme em 1925 por Bailey e Harvey Cushing. A despeito do avanço diagnóstico e terapêutico, os índices de morbimortalidade persistem altos. Grupos epidemiologicamente semelhantes podem ter desfechos diferentes, e evoluções desfavoráveis ocorrem em pacientes com marcadores de bom prognóstico. Os avanços nas pesquisas em biologia molecular procuram explicar os diferentes comportamentos da doença, e de forma sistemática, buscam identificar genes que sirvam como alvos terapêuticos, já que o tratamento disponível atualmente ainda é bastante insatisfatório e com muitos efeitos colaterais. Simeone e colaboradores identificaram os genes OTX1 e OTX2, presentes em humanos, e cuja função é organizar, compartimentalizar e hierarquizar a formação do sistema nervoso central, especialmente o cerebelo. Os genes OTX1 e OTX2 são expressos no tecido cerebelar em humanos até a nona semana de vida extra-uterina, exclusivamente. Os mesmos autores também identificaram que os mesmos genes são alvo terapêutico do ácido transretinóico, que inibe a expressão gênica. Estudos prévios demonstraram a expressão dos genes OTX1 e OTX2 em meduloblastomas, o que torna o ácido uma potencial terapêutica para estes tumores, assim como os genes OTX1 e OTX2 potenciais alvos para desenvolvimento de novas drogas terapêuticas. OBJETIVOS: Estudar a prevalência dos genes OTX1 e OTX2 em uma amostra de 60 pacientes, e estabelecer correlações entre a expressão gênica e aspectos clínicos, patológicos e de evolução. CASUÍSTICA E MÉTODO: Realizada análise retrospectiva de 60 pacientes com diagnóstico meduloblastoma, operados no Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, e no Hospital do Câncer de Barretos. Organizado um banco de dados de 60 pacientes contendo dados da expressão gênica dos genes OTX1 e OTX2 (obtida através da técnica de PCR em tempo real) e dados clínico-epidemiológicos. Realizados testes estatísticos para se estabelecer correlação entre dados clínico-patológicos e de expressão gênica. RESULTADOS: O gene OTX1 foi expresso em 52% da população estudada, e tal expressão variou com a idade (sendo maior em adultos), localização (preferência por hemisfério) e tipo histológico (desmoplásico). O gene OTX2 foi expresso em 62% da população estudada, e tal expressão variou com a idade (sendo maior quanto menor a faixa etária), localização (preferência por vérmis) e tipo histológico (clássico). Houve correlação estatística entre a expressão do gene OTX2 e o desenvolvimento de metástases leptomeníngeas. CONCLUSÕES: Na população estudada, a expressão dos genes OTX1 e OTX2 corrobora a impressão de seu papel importante na patogênese dos meduloblastomas, e é dependente da idade do paciente, da localização tumoral e do tipo histológico. Dada a sensibilidade do gene ao ácido transretinóico, a identificação deste perfil populacional pode significar no futuro novas perspectivas de tratamento. / INTRODUCTION: Medulloblastoma, the most common malignant tumor of the central nervous system in children, was first uniformly described in 1925 by Bailey and Harvey Cushing. Despite the diagnostic and therapeutic advances, the morbidity and mortality rates remain high. Epidemiologically similar groups may have different outcomes, and adverse developments occur in patients with markers of good prognosis. Advances in molecular biology research seeks to explain the different behaviors of the disease, and consistently seek to identify genes that serve as drug targets, since the treatment currently available is still unsatisfactory and with many side effects. Simeone and colleagues identified genes OTX1 and OTX2 in humans, and whose function is to organize, prioritize and compartmentalize the formation of the central nervous system, especially the cerebellum. OTX1 and OTX2 genes are expressed in cerebellar tissue in humans until the ninth week of extra uterine life, exclusively. The same authors also found that the same genes are therapeutic target of trans-retinoic acid, which inhibits gene expression. Previous studies have demonstrated the expression of OTX1 and OTX2 genes in medulloblastomas, which makes the acid a potential therapy for these tumors, as well as the genes OTX2 and OTX1 potential targets for developing new therapeutic drugs. OBJECTIVES: To study the prevalence of OTX1 and OTX2 genes in a sample of 60 patients, and to establish correlations between gene expression and clinical, pathological and follow up aspects. CASUISTICS AND METHODS: A retrospective analysis of 60 patients diagnosed with medulloblastoma, assisted at Hospital of the Faculty of Medicine, University of São Paulo, and the Cancer Hospital of Barretos. Organized a database of 60 patients which contains the gene expression of OTX1 and OTX2 genes (obtained through the technique of real-time PCR) and clinical and epidemiological data. Performed statistical tests to establish a correlation between clinical-pathological and gene expression. RESULTS: The OTX1 gene was expressed in 52% of the population studied, and such expression varied with age (being higher in adults), location (preferably by hemisphere) and histology (desmoplastic). The OTX2 gene was expressed in 62% of the studied population, and such expression varied with age (being higher the younger the age group), location (preferably vermis) and histological type (classical). A statistical correlation between the expression of OTX2 gene and development of leptomeningeal metastases was observed. CONCLUSIONS: In the studied population, the expression of OTX1 and OTX2 genes corroborates the impression of his role in the pathogenesis of medulloblastomas, and is dependent on patient age, tumor location and histological type. Given the sensitivity of the gene-trans retinoic acid, the identification of the population profile in the future will represent new opportunities for treatment.

Fatores de transcrição OTX

Gene OTX1

Gene OTX2

Medulloblastoma

Meduloblastoma

OTX transcriptional factors

OTX1 gene

OTX2 gene

Outcome

Resultado do tratamento

Sobrevida

urvival

Análise molecular dos genes OTX1 e OTX2 em meduloblastomas / Molecular analysis of OTX1 and OTX2 genes in medulloblastoma

Valeria Marques Figueira Muoio

02 July 2010

INTRODUÇÃO: O meduloblastoma, tumor maligno do Sistema Nervoso Central mais comum em crianças, foi inicialmente descrito de forma uniforme em 1925 por Bailey e Harvey Cushing. A despeito do avanço diagnóstico e terapêutico, os índices de morbimortalidade persistem altos. Grupos epidemiologicamente semelhantes podem ter desfechos diferentes, e evoluções desfavoráveis ocorrem em pacientes com marcadores de bom prognóstico. Os avanços nas pesquisas em biologia molecular procuram explicar os diferentes comportamentos da doença, e de forma sistemática, buscam identificar genes que sirvam como alvos terapêuticos, já que o tratamento disponível atualmente ainda é bastante insatisfatório e com muitos efeitos colaterais. Simeone e colaboradores identificaram os genes OTX1 e OTX2, presentes em humanos, e cuja função é organizar, compartimentalizar e hierarquizar a formação do sistema nervoso central, especialmente o cerebelo. Os genes OTX1 e OTX2 são expressos no tecido cerebelar em humanos até a nona semana de vida extra-uterina, exclusivamente. Os mesmos autores também identificaram que os mesmos genes são alvo terapêutico do ácido transretinóico, que inibe a expressão gênica. Estudos prévios demonstraram a expressão dos genes OTX1 e OTX2 em meduloblastomas, o que torna o ácido uma potencial terapêutica para estes tumores, assim como os genes OTX1 e OTX2 potenciais alvos para desenvolvimento de novas drogas terapêuticas. OBJETIVOS: Estudar a prevalência dos genes OTX1 e OTX2 em uma amostra de 60 pacientes, e estabelecer correlações entre a expressão gênica e aspectos clínicos, patológicos e de evolução. CASUÍSTICA E MÉTODO: Realizada análise retrospectiva de 60 pacientes com diagnóstico meduloblastoma, operados no Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, e no Hospital do Câncer de Barretos. Organizado um banco de dados de 60 pacientes contendo dados da expressão gênica dos genes OTX1 e OTX2 (obtida através da técnica de PCR em tempo real) e dados clínico-epidemiológicos. Realizados testes estatísticos para se estabelecer correlação entre dados clínico-patológicos e de expressão gênica. RESULTADOS: O gene OTX1 foi expresso em 52% da população estudada, e tal expressão variou com a idade (sendo maior em adultos), localização (preferência por hemisfério) e tipo histológico (desmoplásico). O gene OTX2 foi expresso em 62% da população estudada, e tal expressão variou com a idade (sendo maior quanto menor a faixa etária), localização (preferência por vérmis) e tipo histológico (clássico). Houve correlação estatística entre a expressão do gene OTX2 e o desenvolvimento de metástases leptomeníngeas. CONCLUSÕES: Na população estudada, a expressão dos genes OTX1 e OTX2 corrobora a impressão de seu papel importante na patogênese dos meduloblastomas, e é dependente da idade do paciente, da localização tumoral e do tipo histológico. Dada a sensibilidade do gene ao ácido transretinóico, a identificação deste perfil populacional pode significar no futuro novas perspectivas de tratamento. / INTRODUCTION: Medulloblastoma, the most common malignant tumor of the central nervous system in children, was first uniformly described in 1925 by Bailey and Harvey Cushing. Despite the diagnostic and therapeutic advances, the morbidity and mortality rates remain high. Epidemiologically similar groups may have different outcomes, and adverse developments occur in patients with markers of good prognosis. Advances in molecular biology research seeks to explain the different behaviors of the disease, and consistently seek to identify genes that serve as drug targets, since the treatment currently available is still unsatisfactory and with many side effects. Simeone and colleagues identified genes OTX1 and OTX2 in humans, and whose function is to organize, prioritize and compartmentalize the formation of the central nervous system, especially the cerebellum. OTX1 and OTX2 genes are expressed in cerebellar tissue in humans until the ninth week of extra uterine life, exclusively. The same authors also found that the same genes are therapeutic target of trans-retinoic acid, which inhibits gene expression. Previous studies have demonstrated the expression of OTX1 and OTX2 genes in medulloblastomas, which makes the acid a potential therapy for these tumors, as well as the genes OTX2 and OTX1 potential targets for developing new therapeutic drugs. OBJECTIVES: To study the prevalence of OTX1 and OTX2 genes in a sample of 60 patients, and to establish correlations between gene expression and clinical, pathological and follow up aspects. CASUISTICS AND METHODS: A retrospective analysis of 60 patients diagnosed with medulloblastoma, assisted at Hospital of the Faculty of Medicine, University of São Paulo, and the Cancer Hospital of Barretos. Organized a database of 60 patients which contains the gene expression of OTX1 and OTX2 genes (obtained through the technique of real-time PCR) and clinical and epidemiological data. Performed statistical tests to establish a correlation between clinical-pathological and gene expression. RESULTS: The OTX1 gene was expressed in 52% of the population studied, and such expression varied with age (being higher in adults), location (preferably by hemisphere) and histology (desmoplastic). The OTX2 gene was expressed in 62% of the studied population, and such expression varied with age (being higher the younger the age group), location (preferably vermis) and histological type (classical). A statistical correlation between the expression of OTX2 gene and development of leptomeningeal metastases was observed. CONCLUSIONS: In the studied population, the expression of OTX1 and OTX2 genes corroborates the impression of his role in the pathogenesis of medulloblastomas, and is dependent on patient age, tumor location and histological type. Given the sensitivity of the gene-trans retinoic acid, the identification of the population profile in the future will represent new opportunities for treatment.

Fatores de transcrição OTX

Gene OTX1

Gene OTX2

Meduloblastoma

Resultado do tratamento

Sobrevida

Medulloblastoma

OTX transcriptional factors

OTX1 gene

OTX2 gene

Outcome

urvival

Μορφολογική εκτίμηση της έκφρασης του μεταγραφικού παράγοντα PPARγ και της συνομιλίας του (cross-talk) με το μεταγραφικό παράγοντα AP-1 κατά τη διαδικασία της καρκινογένεσης στα νεοπλάσματα εκ μεταβατικού επιθηλίου της ουροδόχου κύστης / Μorphological assessment of the expression of the transcriptional factor PPARγ and its cross-talk with the transcriptional factor AP-1 during the process of carcinogenesis in urothelial carcinomas

Πέττα, Ευρυδίκη

04 May 2011

Ο καρκίνος της ουροδόχου κύστης είναι η τέταρτη συχνότερη κακοήθεια στους άνδρες και η δέκατη στις γυναίκες και η ετήσια επίπτωσή του αυξάνει συνεχώς στις ανεπτυγμένες χώρες. Oι προγνωστικοί παράγοντες που χρησιμοποιούνται σήμερα δεν μπορούν να προβλέψουν με βεβαιότητα την μακροπρόθεσμη έκβαση του ουροθηλιακού καρκίνου και έτσι προκύπτει η ανάγκη αναγνώρισης δεικτών με δυνατότητα πρόγνωσης της συμπεριφοράς των καρκινωμάτων. Επιπλέον, δεδομένων των περιορισμένων δυνατοτήτων των σημερινών θεραπευτικών επιλογών (χειρουργική αντιμετώπιση, χημειοθεραπεία ή ανοσοθεραπεία και ακτινοθεραπεία), απαιτούνται νέες θεραπευτικές στρατηγικές. Μία τέτοια στρατηγική είναι η στόχευση σε μεταγραφικούς παράγοντες όπως οι πυρηνικοί υποδοχείς και οι upstream ενεργοποιητές τους. Η διαταραχή αυτών των μεταγραφικών παραγόντων είναι κομβικό σημείο της έναρξης και διατήρησης του κακοήθους φαινοτύπου. O πυρηνικός υποδοχέας PPARγ εμπλέκεται στον έλεγχο του μεταβολισμού, την κυτταρική ανάπτυξη, την αγγειογένεση και την ανοσολογική και φλεγμονώδη απάντηση. Επιπρόσθετα, υπάρχουν ενδείξεις ότι ρυθμίζει τους μηχανισμούς καταστολής αλλά και προαγωγής της καρκινογένεσης. Ο RXRα είναι επίσης μέλος της υπεροικογένειας των πυρηνικών υποδοχέων και ετεροδιμερίζεται με τον PPARγ προς σχηματισμό του συμπλόκου που αλληλεπιδρά με το DNA. Οι προσδέτες των RXR υποδοχέων έχουν ήδη χρησιμοποιηθεί στη χημειοπρόληψη διαφόρων μορφών καρκίνου. Ο μεταγραφικός παράγoντας AP-1, απαρτίζεται από διμερή των Fos και Jun πρωτεϊνών και η δράση του σχετίζεται με την πρόοδο της καρκινογένεσης. Υπάρχουν πάντως και ενδείξεις για προ-αποπτωτική δράση του. Η CBP είναι ένας απ’ τους σημαντικότερους ολοκληρωτές σημάτων της μεταγραφής. Ο ανταγωνισμός μεταξύ των PPARγ και AP-1 για τη CBP είναι ένας απ’ τους μηχανισμούς που εξηγούν την αρνητική «συνομιλία» (cross-talk) μεταξύ των PPARγ και AP-1. Στην παρούσα μελέτη εξετάσαμε τόσο ξεχωριστά όσο και σε συνδυασμό μεταξύ τους, την έκφραση των πέντε μοριακών παραγόντων (PPARγ, RXRα, p-c-Jun, c-Fos, CBP) στο φυσιολογικό ουροθήλιο, τις προκαρκινικές αλλοιώσεις και τα ουροθηλιακά καρκινώματα (ΟΚ). Τα ιστικά δείγματα προήλθαν από 88 ασθενείς οι οποίοι υπέστησαν διαγνωστική βιοψία ή θεραπευτική κυστεκτομή, νεφρεκτομή ή ουρητηρεκτομή. Εφαρμόστηκε η ανοσοϊστοχημική μέθοδος σε τομές παραφίνης και εκτιμήθηκε η σχετική έκφραση των μελετώμενων παραγόντων στα ενδοκυττάρια διαμερίσματα, τις ενδοεπιθηλιακές στιβάδες και τις φυσιολογικές ή παθολογικές ιστολογικές βαθμίδες. Όλοι οι παράγοντες παρουσίασαν κυρίως πυρηνική εντόπιση. Η έκφραση του p-c-Jun ελαττώνεται στους ασθενείς άνω των 70 ετών σε σχέση με τους νεώτερους, ενώ κανένα άλλο απ’ τα μελετώμενα μόρια δε φαίνεται να επηρεάζεται από την ηλικία. Η έκφραση των PPARγ, CBP, p-c-Jun και c-Fos σημειώνει αύξηση κατά την πορεία προς τον καρκίνο. Όσο αφορά στα ΟΚ, οι PPARγ και CBP παρουσιάζουν αρνητική συσχέτιση με την αποδιαφοροποίηση. Επιπλέον ο PPARγ συσχετίζεται αρνητικά με την απόκτηση χαρακτήρων διήθησης στα ΟΚ. Αντιθέτως, η έκφραση του RXRα δεν διακυμαίνεται στατιστικώς σημαντικά σε όλη την πορεία της καρκινογένεσης. Η ανάλυση της συνδυασμένης έκφρασης των πέντε παραγόντων έγινε με σκοπό την αποκάλυψη ενδεχόμενων αλληλεπιδράσεων μεταξύ τους. Η προστατευτική δράση του PPARγ στο ουροθήλιο συνοδεύεται από ταυτόχρονη μέτρια ή ισχυρή έκφραση των RXRα, p-c-Jun και c-Fos. Αναλυτικά, η αυξανόμενη έκφραση του p-c-Jun συμπίπτει με ενίσχυση της θετικής συσχέτισης του PPARγ με καλύτερα διαφοροποιημένους, λιγότερο διηθητικούς όγκους, ενώ ο c-Fos φαίνεται να εξασθενίζει ήπια την ευνοϊκή δράση του PPARγ στη διαφοροποίηση του ουροθηλίου. Η αυξανόμενη έκφραση της CBP έδειξε να εξασθενίζει και τελικά να εκμηδενίζει τη στατιστικά σημαντική αύξηση του PPARγ στην πορεία προς τον καρκίνο και την επαγωγή του στους μη διηθητικούς όγκους σε σύγκριση με τους διηθητικούς. Ταυτόχρονα, η αρνητική σχέση της CBP με την αποδιαφοροποίηση και την αύξηση της κακοήθειας των ΟΚ επηρεάζεται από την παρουσία των PPARγ και AP-1, επιβεβαιώνοντας την υπόθεση της συνομιλίας αυτών των μοριακών παραγόντων. Ενδιαφέρουσα είναι η παρατήρηση ότι οι περισσότερες από τις αναφερθείσες πιο πάνω συσχτίσεις μεταξύ των μοριακών παραγόντων ίσχυαν για μεγαλύτερους των 70 ετών αλλά όχι πάντα για τους νεώτερους ασθενείς. Τα αποτελέσματα της παρούσας μελέτης μπορούν πιθανόν να οδηγήσουν σε συμπεράσματα με εφαρμογή σε χημειοπροληπτικές και θεραπευτικές στρατηγικές για τον ουροθηλιακό καρκίνο. / Bladder cancer is the fourth and tenth most common malignancy in men and women, respectively, and its incidence is increasing annually in the developed countries. Current prognostic parameters cannot predict with certainty the long-term outcome of bladder cancer and as a result there is a need to identify markers that may predict tumor behavior. Furthermore, given the limitations of current therapeutic options (surgery, chemotherapy or immunotherapy and radiotherapy), novel treatment strategies are very much needed. One such strategy targets transcription factors such as nuclear receptors and their upstream activators. Disruption of these transcription factors is a key element in the initiation and maintenance of a malignant phenotype. The nuclear receptor PPARγ is involved in controlling metabolism, cell growth, angiogenesis, and immune and inflammatory responses. In addition, it has also been suggested that it regulates tumor suppression as well as tumor promotion. RXRα is another member of the nuclear receptor superfamily, that partners PPARγ to form the DNA-binding complex. RXR ligands are already being used as chemopreventive agents in various types of cancer. The transcription factor AP-1 is formed by dimerization of Jun and Fos proteins and its activity is often associated with tumor progression. On the other hand, there is also evidence that AP-1 may enhance apoptosis. CBP is one of the most important transcriptional integrators. The competition of PPARγ and AP-1 for CBP is one of the multiple mechanisms that explain the negative PPARγ/AP-1 cross-talk. In the present study, we assessed separate and concurrent expression of the five factors (PPARγ, RXRα, p-c-Jun, c-Fos, CBP) in normal urothelium, precancerous lesions and urothelial carcinomas (UC). Clinical samples were derived from 88 patients who had undergone diagnostic biopsy or therapeutic excision of the bladder, the kidney or the ureter. Parafin section immunohistochemistry was utilized and relative expression was estimated in intracellular compartments, intraepithelial layers and histologic categories of urothelium. All five factors had mainly nuclear pattern of expression. P-c-jun was downregulated in patients older than 70 years old compared to younger ones, whereas age did not affect the expression of the rest four factors. PPARγ, CBP, p-c-Jun and c-Fos were upregulated towards tumorigenesis. PPARγ and CBP showed an inverse relationship with carcinoma level of differentiation. Moreover, PPARγ expression downregulated significantly in invasive tumors compared to non-invasive ones. On the contrary, RXRα expression did not vary significantly along the carcinogenesis course. The following correlations were based on coexpression analysis to reveal molecular interactions between the five factors. The established protective effect of PPARγ on urothelium was accompanied by concomitant RXRα, p-c-Jun and c-Fos moderate or strong expression. In detail, p-c-Jun’s increasing expression strengthened the positive relation of PPARγ with better differentiated, less invasive tumors, whereas c-Fos seemed to mildly lessen PPARγ’s favourable effect in urothelium differentiation. Statistically significant PPARγ upregulation in malignant tissues compared to normal urothelium and in non-invasive tumors compared to invasive ones is suppressed and finally cancelled by CBP’s increasing expression. PPARγ and AP-1 seemed to influence the negative relation of CBP with loss of differentiation and increase of malignant potential in UC, an observation that denotes a cross-talk between these molecular factors. Interestingly, most of the aforementioned correlations were noticed in patients older than 70 years old, but not all of them were plausible in younger patients. The results from the present study could lead to conclusions possibly applicable in chemoprevention and therapy strategies for urothelial carcinomas.

Ουροθήλιο

Ουροδόχος κύστη

Προκαρκινικές βλάβες

616.994 62

PPARγ

RXRα

AP-1

CBP

p-c-Jun

c-Fos

Transcriptional factors

Urothelium

Urothelial carcinomas

Bladder

Precancerous lesions