Molekulární testování nádorů hlavy a krku asociovaných s HPV infekcí / Molecular analysis of head and neck carcinomas associated with HPV infection

Glendová, Kristýna

January 2018

Head and neck cancers (HNSCC) are highly heterogeneous disease, results from two major carcinogens - tobacco and/or alcohol, or HR HPV infection. This thesis was based on 60 biopsies of head and neck tumours embedded into paraffin after histological verification. HPV infection, including particular types was monitored in different HNSCC regions by multiplex qPCR. Subsequent IHC demonstrated expression of p16INK4A and p53 as a possible diagnostic biomarker. Based on the information, patients with HNSCC can benefit from antiEGFR therapy by Cetuximab, but so far without defined predictors, the analysis of point mutations of Ras gene family (Kras, Nras) and Braf gene was performed. These mutations were monitored as potential predictive biomarkers, in correlation with gender, age and other risk factors. For all statistical processing the Chi-x2 test was used. Key words: Head and neck cancers, biopsy, HPV types, PCR, p16INK4A, p53, molecular predictors, Kras, Nras, Braf

Estudo de polimorfismos nos genes TP53 e p21(WAF1) e do perfil imunohistoquímico das proteínas p53, p21(WAF1), p16(INK4a) e ciclina D1 pela técnica de Tissue Microarray (TMA) e sua importância para o desenvolvimento e/ou severidade das neoplasias cervicais / The role of TP53 and p21(WAF1) gene polymorphisms and immunohistochemical expression of p53, p21 (WAF1), p16 (INK4a) and cyclin D1 and their importance in the development and / or severity of cervical neoplasias

Elyzabeth Avvad Portari

19 September 2012

O câncer de colo do útero é o terceiro tipo de câncer mais frequente em mulheres no mundo, e a infecção persistente pelo papilomavirus humano (HPV) oncogênico é condição necessária, mas não suficiente para seu desenvolvimento. As oncoproteínas virais E6 e E7 interferem direta ou indiretamente na ação de várias proteínas celulares. Entretanto, as variantes proteicas, resultantes de polimorfismos genéticos, podem apresentar comportamento distinto mediante a infecção pelo HPV. O objetivo deste estudo foi avaliar possíveis associações entre polimorfismos nos genes TP53 (p53 PIN3, p53 72C>G) e p21 (p21 31C>A) e o desenvolvimento de neoplasias cervicais, considerando os níveis de expressão das proteínas p53, p21, p16 e ciclina D1, e fatores de risco clássicos para o câncer cervical. Foram selecionadas 466 mulheres residentes no Rio de Janeiro, 281 com diagnóstico histopatológico de neoplasia cervical de baixo (LSIL) e alto grau (HSIL) e câncer (grupo de casos) e 185 sem história atual ou pregressa de alteração citológica do colo uterino (grupo controle). A técnica de PCR-RFLP (reação em cadeia da polimerase - polimorfismo de comprimento de fragmento de restrição), foi empregada na análise dos polimorfismos p53 72C>G e p21 31C>A, usando as enzimas de restrição BstUI e BsmaI, respectivamente. A avaliação do polimorfismo p53 PIN3 (duplicação de 16 pb) foi feita por meio da análise eletroforética direta dos produtos de PCR. A expressão das proteínas p53, p21, p16, ciclina D1 e Ki-67 e a pesquisa de anticorpos anti-HPV 16 e HPV pool foram avaliadas por imunohistoquímica (Tissue Microarray - TMA) em 196 biópsias do grupo de casos. O grupo controle se mostrou em equilíbrio de Hardy-Weinberg em relação aos três polimorfismos avaliados. As distribuições genotípicas e alélicas relativas a p53 PIN3 e p53 72C>G nos grupos controles e de casos não apresentaram diferenças significativas, embora o genótipo p53 72CC tenha aumentado o risco atribuído ao uso de contraceptivos das pacientes apresentarem lesões mais severas (OR=4,33; IC 95%=1,19-15,83). O genótipo p21 31CA(Ser/Arg) conferiu proteção ao desenvolvimento de HSIL ou câncer (OR=0,61, IC 95%=0,39-0,97), e modificou o efeito de fatores de risco associados à severidade das lesões. A interação multiplicativa de alelos mostrou que a combinação p53 PIN3A1, p53 72C(Pro) e p21 31C(Ser), representou risco (OR=1,67, IC95%=1,03-2,72) e a combinação p53 PIN3A1, p53 72C(Pro) e p21 31A(Arg) conferiu efeito protetor (OR=0,26, IC95%=0,08-0,78) para o desenvolvimento de HSIL e câncer cervical. Observou-se correlação positiva da expressão de p16 e p21 e negativa da ciclina D1 com o grau da lesão. A distribuição epitelial de p16, Ki-67, p21 e p53 se mostrou associada à severidade da lesão. Os polimorfismos analisados não apresentaram associação com a expressão dos biomarcadores ou positividade para HPV. Nossos resultados sugerem a importância do polimorfismo p21 31C>A para o desenvolvimento das neoplasias cervicais e ausência de correlação dos polimorfismos p53 PIN3 e p53 72C>G com a carcinogênese cervical, embora alguns genótipos tenham se comportado como modificadores de risco. Nossos resultados de TMA corroboram o potencial de uso de biomarcadores do ciclo celular para diferenciar as lesões precursoras do câncer cervical. / Cervical cancer is the third most common female cancer worldwide, and persistent infection by the Human Papillomavirus (HPV) is a necessary but not sufficient condition to cause it. The viral oncoproteins E6 and E7 interfere directly or indirectly with the action of various cellular proteins. However, the protein variants, resulting from genetic polymorphisms, may act differently when encountering HPV infection. The aim of this study was to evaluate possible associations between polymorphisms in the TP53 (p53 PIN3, p53 72C>G) and p21 (p21 31C>A) genes, and the development of cervical neoplasia, considering the expression levels of p53, p21, p16 and cyclin D1 proteins, together with classic risk factors for cervical cancer. A total of 466 women resident in Rio de Janeiro were selected, being 281 with histopathological diagnosis of low (LSIL) or high grade (HSIL) cervical neoplasia or cancer (test group), and 185 with no current or previous history of alteration of cervical cytology (control group). The PCR-RFLP technique (polymerase chain reaction restriction fragment length polymorphism) was used to analyze the p53 72C>G and p21 31C>A polymorphisms, using BstUI and BsmaI restriction enzymes, respectively. Genotyping of the p53 PIN3 (duplication of 16 pb) polymorphism was performed by direct electrophoretic analysis of the PCR products. The expression of p53, p21, p16, cyclin D1 and Ki-67 proteins and the study of anti-HPV 16 and anti-HPV pool positivities were evaluated by immunohistochemisty (Tissue Microarray - TMA) in 196 biopsies of cases. The control group obeyed the Hardy-Weinberg principle in relation to the three polymorphisms analysed. The genotypic and allelic frequencies regarding p53 PIN3 and p53 72C>G in the control and test groups were not significantly different, although the p53 72CC genotype has increased the risk of more severe lesions attributed to the use of contraceptives (OR=4.33; IC 95%=1.19-15.83). The p21 31CA(Ser/Arg) genotype showed to protect against the development of HSIL or cancer (OR=0,61, IC 95%=0,39-0,97), and modified the effect of risk factors associated to the lesion severity. The multiplicative interaction of alleles showed that the combination p53 PIN3A1, p53 72C(Pro) and p21 31C(Ser) represented risk (OR=1,67, IC95%=1,03-2,72) and the combination p53 PIN3A1, p53 72C(Pro) and p21 31A(Arg) conferred protection (OR=0,26, IC95%=0,08-0,78) against the development of HSIL and cervical cancer. It was observed positive and negative correlations of, respectively, p16 and p21, and cyclin D1 expression with the cervical lesion grade. The epithelial distribution of p16, Ki-67, p21 and p53 was associated with the lesion severity. The polymorphisms analyzed showed neither association with the expression of the biomarkers nor positivity for HPV. Our results suggest the importance of polymorphism p21 31C>A in the development of cervical neoplasia and the lack of correlation between the polymorphisms p53 PIN3 and p53 72C>G with cervical carcinogenesis, although some genotypes acted as risk modifiers. Our TMA results corroborated the potential use of cell cycle biomarkers as an adjunctive tool to differentiate cervical precursor lesions.

Neoplasia cervical

Gene TP53

Gene p21(CDKN1A)

Polimorfismo p53 PIN3

Polimorfismo p53 72C>G

Polimorfismo p21 31C>A

Imunohistoquímica

p53, p21, p16INK4a, ciclina D1 e Ki-67

Infecção por HPV

Cervical neoplasia

TP53 gene

p21(CDKN1A) gene

p53 PIN3 polymorphism

p53 72C>G polymorphism

p21 31C>A polymorphism

HPV infection

GINECOLOGIA E OBSTETRICIA

Estudo de polimorfismos nos genes TP53 e p21(WAF1) e do perfil imunohistoquímico das proteínas p53, p21(WAF1), p16(INK4a) e ciclina D1 pela técnica de Tissue Microarray (TMA) e sua importância para o desenvolvimento e/ou severidade das neoplasias cervicais / The role of TP53 and p21(WAF1) gene polymorphisms and immunohistochemical expression of p53, p21 (WAF1), p16 (INK4a) and cyclin D1 and their importance in the development and / or severity of cervical neoplasias

Elyzabeth Avvad Portari

19 September 2012

O câncer de colo do útero é o terceiro tipo de câncer mais frequente em mulheres no mundo, e a infecção persistente pelo papilomavirus humano (HPV) oncogênico é condição necessária, mas não suficiente para seu desenvolvimento. As oncoproteínas virais E6 e E7 interferem direta ou indiretamente na ação de várias proteínas celulares. Entretanto, as variantes proteicas, resultantes de polimorfismos genéticos, podem apresentar comportamento distinto mediante a infecção pelo HPV. O objetivo deste estudo foi avaliar possíveis associações entre polimorfismos nos genes TP53 (p53 PIN3, p53 72C>G) e p21 (p21 31C>A) e o desenvolvimento de neoplasias cervicais, considerando os níveis de expressão das proteínas p53, p21, p16 e ciclina D1, e fatores de risco clássicos para o câncer cervical. Foram selecionadas 466 mulheres residentes no Rio de Janeiro, 281 com diagnóstico histopatológico de neoplasia cervical de baixo (LSIL) e alto grau (HSIL) e câncer (grupo de casos) e 185 sem história atual ou pregressa de alteração citológica do colo uterino (grupo controle). A técnica de PCR-RFLP (reação em cadeia da polimerase - polimorfismo de comprimento de fragmento de restrição), foi empregada na análise dos polimorfismos p53 72C>G e p21 31C>A, usando as enzimas de restrição BstUI e BsmaI, respectivamente. A avaliação do polimorfismo p53 PIN3 (duplicação de 16 pb) foi feita por meio da análise eletroforética direta dos produtos de PCR. A expressão das proteínas p53, p21, p16, ciclina D1 e Ki-67 e a pesquisa de anticorpos anti-HPV 16 e HPV pool foram avaliadas por imunohistoquímica (Tissue Microarray - TMA) em 196 biópsias do grupo de casos. O grupo controle se mostrou em equilíbrio de Hardy-Weinberg em relação aos três polimorfismos avaliados. As distribuições genotípicas e alélicas relativas a p53 PIN3 e p53 72C>G nos grupos controles e de casos não apresentaram diferenças significativas, embora o genótipo p53 72CC tenha aumentado o risco atribuído ao uso de contraceptivos das pacientes apresentarem lesões mais severas (OR=4,33; IC 95%=1,19-15,83). O genótipo p21 31CA(Ser/Arg) conferiu proteção ao desenvolvimento de HSIL ou câncer (OR=0,61, IC 95%=0,39-0,97), e modificou o efeito de fatores de risco associados à severidade das lesões. A interação multiplicativa de alelos mostrou que a combinação p53 PIN3A1, p53 72C(Pro) e p21 31C(Ser), representou risco (OR=1,67, IC95%=1,03-2,72) e a combinação p53 PIN3A1, p53 72C(Pro) e p21 31A(Arg) conferiu efeito protetor (OR=0,26, IC95%=0,08-0,78) para o desenvolvimento de HSIL e câncer cervical. Observou-se correlação positiva da expressão de p16 e p21 e negativa da ciclina D1 com o grau da lesão. A distribuição epitelial de p16, Ki-67, p21 e p53 se mostrou associada à severidade da lesão. Os polimorfismos analisados não apresentaram associação com a expressão dos biomarcadores ou positividade para HPV. Nossos resultados sugerem a importância do polimorfismo p21 31C>A para o desenvolvimento das neoplasias cervicais e ausência de correlação dos polimorfismos p53 PIN3 e p53 72C>G com a carcinogênese cervical, embora alguns genótipos tenham se comportado como modificadores de risco. Nossos resultados de TMA corroboram o potencial de uso de biomarcadores do ciclo celular para diferenciar as lesões precursoras do câncer cervical. / Cervical cancer is the third most common female cancer worldwide, and persistent infection by the Human Papillomavirus (HPV) is a necessary but not sufficient condition to cause it. The viral oncoproteins E6 and E7 interfere directly or indirectly with the action of various cellular proteins. However, the protein variants, resulting from genetic polymorphisms, may act differently when encountering HPV infection. The aim of this study was to evaluate possible associations between polymorphisms in the TP53 (p53 PIN3, p53 72C>G) and p21 (p21 31C>A) genes, and the development of cervical neoplasia, considering the expression levels of p53, p21, p16 and cyclin D1 proteins, together with classic risk factors for cervical cancer. A total of 466 women resident in Rio de Janeiro were selected, being 281 with histopathological diagnosis of low (LSIL) or high grade (HSIL) cervical neoplasia or cancer (test group), and 185 with no current or previous history of alteration of cervical cytology (control group). The PCR-RFLP technique (polymerase chain reaction restriction fragment length polymorphism) was used to analyze the p53 72C>G and p21 31C>A polymorphisms, using BstUI and BsmaI restriction enzymes, respectively. Genotyping of the p53 PIN3 (duplication of 16 pb) polymorphism was performed by direct electrophoretic analysis of the PCR products. The expression of p53, p21, p16, cyclin D1 and Ki-67 proteins and the study of anti-HPV 16 and anti-HPV pool positivities were evaluated by immunohistochemisty (Tissue Microarray - TMA) in 196 biopsies of cases. The control group obeyed the Hardy-Weinberg principle in relation to the three polymorphisms analysed. The genotypic and allelic frequencies regarding p53 PIN3 and p53 72C>G in the control and test groups were not significantly different, although the p53 72CC genotype has increased the risk of more severe lesions attributed to the use of contraceptives (OR=4.33; IC 95%=1.19-15.83). The p21 31CA(Ser/Arg) genotype showed to protect against the development of HSIL or cancer (OR=0,61, IC 95%=0,39-0,97), and modified the effect of risk factors associated to the lesion severity. The multiplicative interaction of alleles showed that the combination p53 PIN3A1, p53 72C(Pro) and p21 31C(Ser) represented risk (OR=1,67, IC95%=1,03-2,72) and the combination p53 PIN3A1, p53 72C(Pro) and p21 31A(Arg) conferred protection (OR=0,26, IC95%=0,08-0,78) against the development of HSIL and cervical cancer. It was observed positive and negative correlations of, respectively, p16 and p21, and cyclin D1 expression with the cervical lesion grade. The epithelial distribution of p16, Ki-67, p21 and p53 was associated with the lesion severity. The polymorphisms analyzed showed neither association with the expression of the biomarkers nor positivity for HPV. Our results suggest the importance of polymorphism p21 31C>A in the development of cervical neoplasia and the lack of correlation between the polymorphisms p53 PIN3 and p53 72C>G with cervical carcinogenesis, although some genotypes acted as risk modifiers. Our TMA results corroborated the potential use of cell cycle biomarkers as an adjunctive tool to differentiate cervical precursor lesions.

Neoplasia cervical

Gene TP53

Gene p21(CDKN1A)

Polimorfismo p53 PIN3

Polimorfismo p53 72C>G

Polimorfismo p21 31C>A

Imunohistoquímica

p53, p21, p16INK4a, ciclina D1 e Ki-67

Infecção por HPV

Cervical neoplasia

TP53 gene

p21(CDKN1A) gene

p53 PIN3 polymorphism

p53 72C>G polymorphism

p21 31C>A polymorphism

HPV infection

GINECOLOGIA E OBSTETRICIA

Detecting uterine cervical cancer cells using molecular biomarkers

Mousa, Ahmed

11 1900

Arrière-plan: les cellules tumorales circulantes (CTC) sont détectables dans de nombreux cancers et peuvent être utiles cliniquement pour le pronostic de la maladie, pour mesurer la récidive et pour prédire la sensibilité aux medicaments chimiothérapeutiques. Au cours des dernières années, l’études des CTC dans de nombreux cancers tels que le cancer du sein, du poumon, du côlon et de la prostate a grandement évolué. Alternativement, il y peu d'études à ce sujet concernant le cancer du col de l’utérus (CCU). Objectifs: Notre objectif est d’optimiser le processus d'enrichissement des CTC dans le CCU et la détection moléculaire des biomarqueurs E6 et E7. Matériel et Méthodes: Dans l’optique de mimer la présence de CTC dans le sang, nous avons dilué des cellules cancéreuses CaSki VPH16-positif provenant d’un CCU dans du sang humain prélevé sur des volontaires sains. Les CaSki ont été collectées suite à une centrifugation par densité avec le Ficoll, la lyse des globules rouges (RBC) et la lyse des RBC combinée avec un enrichissement positif et négatif à l’aide de marqueurs de surface cellulaire. Les CTC ont été détectées par la mesure d’expression des oncogènes E6 et E7 du virus du papillome humain (VPH), de la cytokératine 19 (CK19) et de la cycline p16INK4 en utilisant la technique quantitative en temps réel de Reverse Transcriptase-Polymerase Chain Reaction (qRT-PCR). Pour valider notre méthode de détection des CTC in vivo, nous avons recruté dix patientes atteintes d’un CCU VPH16 positif et six contrôles sains. Résultats: Dans le modèle de dilutions de cellules CaSki, la lyse des RBC seule ou combinée avec l'enrichissement négatif ou positif suggèrent des limites de détection de 1 CTC par mL de sang pour tous les biomarqueurs moléculaires utilisés. La sensibilité de détection est accrue lors de l'utilisation de l’enrichissement positif et négatif en réduisant le bruit de fond causé par les monocytes sanguins. Contrairement aux oncogènes E6 et E7, les marqueurs CK19 et p16INK4A ont été détectés chez des individus sains, les niveaux d'expression de base appropriés doivent donc être déterminés avec précision par rapport aux patientes CCU. Le gradient de densité par Ficoll a une limite de détection de seulement environ 1000 cellules par mL de sang. Enfin, les CTC ont été détectées dans 2/10 patientes en utilisant le marqueur CK19. Cependant, ces patientes étaient négatives pour les oncogènes E6/E7. Le marqueur p16INK4A était exprimé au même niveau dans tous les échantillons (CCU et normaux). Conclusion: Notre étude suggère que les oncogènes E6 et E7 du VPH16 sont les marqueurs biologiques les plus sensibles et spécifiques en qRT-PCR pour détecter les CTC dans le modèle de dilution de cellules de CCU dans le sang. Chez les patientes atteintes d’un CCU de stade précoce, seulement CK19 a révélé la présence potentielle de CTC, ce qui suggère que ces cellules sont rares à ce stade de la maladie. Mots clés: cancer du col de l’utérus, cellules tumorales circulantes, RT-qPCR, E6 et E7, CK19, p16INK4A, enrichissement immunomagnétique, détection moléculaire. / Background: Circulating tumor cells (CTCs) have been detected in many cancers and are used in multiple clinical applications including disease prognosis, tumor recurrence prediction and prediction of tumor sensitivity to chemotherapeutic drugs. Studies in most major solid cancer(s) (breast, lung, colon and prostate) are progressing rapidly, but there has been very little progress concerning uterine cervical cancer (UCC).Objective: our aim is to optimize enrichment processes and the molecular biomarker-based detection of human circulating tumor cells (CTCs) in uterine cervical cancer (UCC). Material & Methods: To mimic CTCs in patients, we designed an experimental spiking model where the CaSki HPV16-positive UCC cell line was serially diluted and spiked into human blood collected from healthy volunteers. CaSki CTCs were enriched using either Ficoll density centrifugation, red blood cell (RBC) lysis or RBC lysis combined with cell surface markers negative or positive enrichment. CTCs were detected using real-time quantitative reverse-transcription polymerase chain reaction (qRT-PCR) to measure the gene expression of human papillomavirus (HPV) viral oncogenes (E6 and E7), cytokeratin 19 (CK19), or the cyclin dependent kinase inhibitor p16INK4A. Finally, ten HPV16- positive UCC patients and six healthy controls were recruited to validate CTCs detection in vivo. Result: In the spiking model, RBC lysis alone or combined with negative or positive enrichment suggests detection limits close to 1 CTC per mL of blood for all molecular biomarkers used. The sensitivity of detection increased when using positive and negative enrichment probably by reducing the peripheral blood mononuclear cell-derived RNA background. Unlike HPV oncogenes, CK19 and p16INK4A were detected in normal individuals, thus appropriate basal expression levels need to be accurately determined compared to cancer patients. Alternatively, Ficoll density gradient had a detection limit of only about 1000 cells per mL of blood. Finally CTCs were detected in 2/10 patients using CK19. None of the patients had E6/E7 transcripts and p16INK4A was expressed at similar level across all samples (cancer and healthy). Conclusion: qRT-PCR of HPV16 E6 and E7 is the most sensitive and specific biomarker used to detect CTCs in the spiking model. In early disease UCC patients, only CK19 revealed the presence of CTCs suggesting that these cells are rare at that stage of the disease. Keywords: uterine cervical cancer, circulating tumor cells, qRT-PCR, E6 and E7 oncoprotein, CK19, p16INK4A, immune-magnetic enrichment, molecular detection.

Circulating Tumor Cells

Uterine Cervical Cancer

qRT-PCR

E6 and E7 Oncoprotein

CK19

P16INK4A

Immune-Magnetic Enrichment

Molecular Detection

Cancer du Col de L’Utérus

Cellules Tumorales Circulantes

RT-qPCR

E6 et E7

Enrichissement Immunomagnétique

Détection Moléculaire

Dissection moléculaire de la sénescence cellulaire induite par le stress et la thérapie dans le cancer de l’ovaire et son impact sur la réponse des patientes

Calvo Gonzalez, Llilians

09 1900

Le cancer de l’ovaire (COv) est le cancer gynécologique le plus létal chez la femme et les traitements existants, chirurgie et chimiothérapie, ont peu évolué au cours des dernières décennies. Nous proposons que la compréhension des différents destins cellulaires tels que la sénescence que peuvent choisir les cellules du cancer de l’ovaire en réponse à la chimiothérapie pourrait conduire à de nouvelles opportunités thérapeutiques. La sénescence cellulaire a été largement associée à l’activité de la protéine TP53, qui est mutée dans plus de 90% des cas de cancer de l’ovaire séreux de haut grade (COv-SHG), la forme la plus commune de la maladie. Dans nos travaux, à partir d’échantillons dérivés de patientes, nous montrons que les cultures primaires du cancer de l’ovaire séreux de haut grade exposées au stress ou à des drogues utilisées en chimiothérapie entrent en senescence grâce à l’activité d’un isoforme du gène CDKN2A (p16INK4A). Dans ces cellules, nous avons évalué les caractéristiques fondamentales de la sénescence cellulaire tels que les altérations morphologiques, l’activité béta galactosidase associée à la sénescence, les dommages à l’ADN, l’arrêt du cycle cellulaire et le phénotype sécrétoire associé à la sénescence. En utilisant des micromatrices tissulaires construites à partir d’échantillons humains de COv-SHG pré- et post-chimiothérapie, accompagnées de leurs données cliniques, nous avons quantifié des marqueurs de sénescence incluant une diminution de la prolifération cellulaire quelques semaines après chimiothérapie. De façon intéressante, l’expression de p16INK4A dans les échantillons de COv-SHG prétraitement corrèle avec une survie prolongée des patientes suite au traitement. Ceci suggère ainsi pour la première fois un impact biologique bénéfique pour la présence de cellules cancéreuses qui sont capable d’activer la sénescence, particulièrement pour le traitement du cancer de l’ovaire. Dans le but de complémenter les thérapies actuelles avec des approches de manipulation pharmacologique de la sénescence, nos résultats suggèrent qu’il serait important de déterminer l’impact positif ou négatif de la sénescence induite par la thérapie sur la progression de la maladie et la survie, pour chaque type de cancer de façon indépendante. / Human ovarian cancer (OvCa) is the deadliest gynecologic malignancy and existing surgical/chemotherapeutic treatment options have been relatively static for decades. We propose that understanding OvCa cell fate decisions taken in response to chemotherapy could guide new therapeutic opportunities. Damage-induced cellular senescence is often associated with TP53 activity, which is heavily mutated in high grade serous (HGS) OvCa (>90%), the most common form of this disease. Here, using patient derived tissues, we show that primary HGS-OvCa cultures predominantly trigger CDKN2A- associated (p16INK4A isoform) senescence following exposure to stress or chemotherapy. Key senescence hallmarks including altered morphology, senescence-associated-Betagalactosidase, DNA damage, cell cycle arrest and the senescence-associated secretory phenotype were evaluated and detected in damaged cells. Using tissue microarrays built from pre- and post-treatment human HGS-OvC tissue samples with accompanying clinical data, we quantified post-treatment hallmarks of senescence including reduced cell proliferation weeks after chemotherapy. Importantly, p16INK4A expression in pretreatment HGS-OvC samples correlated with increased patients survival, suggesting for the first time that senescence-competence in human cancer cells may have a beneficial impact on treatment outcomes for patients. In order to guide the potential improvement of existing human therapies via pharmacological senescence manipulation, our results suggests that it is important to determine for many types of human cancer whether treatment-induced senescence positively or negatively impacts disease progression and patient survival.

Sénescence

Destins cellulaires

Chimiothérapie

Senescence

Therapy-induced senescence (TIS)

High-grade serous ovarian cancer

Chemotherapy

Cell fate decisions

p16INK4A

Tissue Microarray (TMA)

Molecular Genetic Analysis in B-cell Lymphomas : A Focus on the p53 Pathway and p16INK4a

Zainuddin, Norafiza

January 2010

The presence of TP53 mutations has been associated with inferior outcome in diffuse large B-cell lymphoma (DLBCL) and chronic lymphocytic leukemia (CLL). In DLBCL, the impact of the TP53 codon 72 polymorphism and MDM2 SNP309 has not been clearly elucidated, whereas MDM2 SNP309 was suggested as a poor-prognostic marker in CLL. In addition, p16INK4a promoter hypermethylation has been implicated as a negative prognostic factor in DLBCL. The aim of this thesis was to further evaluate these molecular markers in well-characterised materials of DLBCL and CLL. In paper I, we investigated the prognostic role of TP53 mutation, codon 72 polymorphism and MDM2 SNP309 in DLBCL (n=102). The presence of TP53 mutations (12.7%) correlated with a poor lymphoma-specific and progression-free survival, and a particularly pronounced effect was observed in the germinal center subtype. Neither the MDM2 SNP309 nor the TP53 codon 72 polymorphism had an impact on age of onset or survival. In paper II, we applied pyrosequencing to measure the level of p16INK4a methylation in DLBCL (n=113). Thirty-seven percent of cases displayed p16INK4a methylation; however, no clear association could be observed between degree of methylation and clinical characteristics or lymphoma-specific survival. In papers III–IV, we investigated the prognostic role of MDM2 SNP309 (n=418) and TP53 mutation (n=268) in CLL. No correlation was observed between any particular MDM2 SNP309 genotype and time to treatment and overall survival. Furthermore, no association was found between the different MDM2 SNP309 genotypes and established CLL prognostic markers. TP53 mutations were detected in 3.7% of CLL patients; where the majority showed a concomitant 17p-deletion and only three carried TP53 mutations without 17p-deletion. We confirmed a significantly shorter overall survival and time to treatment in patients with both TP53 mutation and 17p-deletion. Altogether, our studies could confirm the negative prognostic impact of TP53 mutations in DLBCL, whereas MDM2 SNP309 and TP53 codon 72 polymorphisms appear to lack clinical relevance. We also question the role of p16INKa methylation as a poor-prognostic factor in DLBCL. Finally, the presence of TP53 mutation in CLL appears to be rare at disease onset and instead arise during disease progression.

Diffuse large B-cell lymphoma

chronic lymphocytic leukemia

TP53 mutation

MDM2 SNP309

codon 72 polymorphism

p16INK4a methylation

Clinical genetics

Klinisk genetik

Molecular biology

Molekylärbiologi

Haematology

Hematologi

Tumour biology

Tumörbiologi

Étude du rôle de p16INK4a dans l’établissement des phénotypes associés à la sénescence

Pellerin-Viger, Alicia

04 1900

La sénescence cellulaire est un arrêt stable du cycle cellulaire qui empêche la prolifération des cellules endommagées par des stress génotoxiques, tels que l'irradiation. En général, les lésions de l'ADN initient rapidement une réponse aux dommages et un blocage transitoire du cycle cellulaire nécessaire à la réparation de l'ADN. Cependant, les phénotypes associés à la sénescence, tels que l'arrêt de la prolifération stable et le sécrétome pro-inflammatoire, se manifestent plusieurs jours après le stress. Nous avons récemment démontré que l'établissement de la sénescence induite par l'irradiation est un processus en plusieurs étapes qui nécessite un événement prolifératif en présence de foyers de dommages de l'ADN persistants pour former de l'instabilité génomique. L'instabilité génomique secondaire, et non les dommages primaires de l'ADN, est responsable de nombreux phénotypes de sénescence. Le but de notre projet était d'évaluer l'impact de p16INK4a, un inhibiteur de kinase dépendant des cyclines, sur la reprise de la prolifération observée dans notre modèle initial en caractérisant la reprise de la prolifération, les phénotypes de sénescence lorsque p16INK4a est fortement exprimé, et de comprendre sa dynamique d'activation. Notre hypothèse était que l'expression de p16INK4a réduirait la reprise de la prolifération après l'irradiation, ce qui diminuerait la formation d'instabilité génomique et altérerait l'expression de certains phénotypes de sénescence. Nous avons induit la sénescence par irradiation dans des fibroblastes humains normaux qui présentent des niveaux endogènes différents d'expression de p16INK4a. Nous avons également utilisé une lignée qui surexprime et une autre qui déplète p16INK4a pour évaluer les conséquences de son expression sur la reprise de la prolifération et son impact sur les phénotypes de sénescence. Nos résultats suggèrent que p16INK4a réduit la reprise de la prolifération, diminuant l'instabilité génomique et réduisant à terme l'expression des facteurs du phénotype sécrétoire. De plus, de manière surprenante, nous avons observé que l'expression de p16INK4a n'a pas besoin d'être présente uniquement au moment de la reprise de la prolifération pour l'empêcher. Elle peut durer 24 heures au moment de l'irradiation, soit avant la reprise de la prolifération, pour la prévenir. Les données présentées dans ce mémoire aident à mieux comprendre le mécanisme de sénescence médié par l'irradiation et l'impact de l'expression de p16INK4a sur les différents phénotypes de sénescence. / Cellular senescence is a stable cell cycle arrest that prevents proliferation of cells damaged by genotoxic stresses, such as irradiation. In general, DNA damage initiates a DNA damage response and a transient cell cycle arrest required for DNA repair. However, senescence-associated phenotypes, such as stable senescence-associated proliferation arrest and pro-inflammatory secretome are established several days later. We have recently shown that the establishment of irradiation-induced senescence is a multi-step process that requires a proliferation event in the presence of persistent DNA damage foci to form genomic instability. Secondary genomic instability, but not primary DNA damage, leads to the establishment of senescence phenotypes. The aim of our project was to evaluate the impact of p16INK4a, a cyclin-dependent kinase inhibitor, on the bypass of the transient cell cycle arrest we observed in our initial model by characterizing the bypass and senescence phenotypes when p16INK4a was highly expressed and to understand its activation dynamics. Our hypothesis was that p16INK4a expression would reduce the percentage of bypass after irradiation which would decrease genomic instability formation and ultimately alter the expression of some senescence phenotypes. We induced senescence by irradiation in normal human fibroblasts with different endogenous levels of p16INK4a expression. We also used a cell line that overexpresses and another that depletes p16INK4a to evaluate the consequences of its expression on the bypass and its impact on senescence phenotypes. Our results suggest that p16INK4a decreases the bypass, thus reducing the genomic instability and, therefore, reduces expression of secretory phenotype factors. Moreover, interestingly, we observed that p16INK4a expression does not need to be present only at the time of reproliferation to prevent it, i.e. it can last 24 hours at the time of irradiation. These results contribute to improve our knowledge about the mechanism of establishment of irradiation-mediated senescence and the impact of p16INK4a expression on different senescence phenotypes.

Sénescence

p16INK4a

Régulation du cycle cellulaire

Instabilité génomique

Irradiation

Dommages de l'ADN

Cell cycle regulation

Genomic instability

DNA damage

Study of the role of the p16INK4a gene in tumor progression and tissue regeneration/function following exposure to ionizing radiation

Palacio, Lina

12 1900

La sénescence est un important mécanisme cellulaire qui prévient la tumorigenèse et se caractérise par un arrêt permanent du cycle cellulaire orchestré principalement par les inhibiteurs des cycline-kinases dépendantes (i.e p16INK4a). La sénescence est une caractéristique importante du vieillissement, mais un déséquilibre dans son induction peut être délétère pour la régénération tissulaire et paradoxalement pour la progression tumorale. L'irradiation (IR) est couramment utilisée comme approche thérapeutique dans le cancer. Chez les enfants survivants du cancer, l’exposition à l’irradiation et à la chimiothérapie entrainent le développement d’importants effets secondaires, lesquels sont associés à une forme de vieillissement prématuré. La formation de cellules sénescentes, en inhibant la prolifération tissulaire et en sécrétant des cytokines proinflammatoires, pourrait être en être responsable. Notre groupe a précédemment démontré que le gène p16INK4a est augmenté de manière tardive (environ 8 semaines) suite à une exposition à l’irradiation. Il n'a pas encore été étudié si cette expression retardée survient en réponse aux dommages causés par l'irradiation sur l’homéostasie tissulaire ou à titre de mécanismes de suppression tumorale. Un objectif de cette thèse visait donc à déterminer s’il était possible de moduler/inhiber l’expression de p16INK4a dans le but d’accroitre la régénération tissulaire sans nécessairement accroitre les risques d’incidence du cancer. En effet, ceci pourrait être possible dans la mesure ou la sénescence induite par p16INK4a est également irréversible in vivo. Nos résultats ont démontré que l’inhibition de l’expression de p16INKa (suite à l’administration de tamoxifen chez les souris p16L/LCre), induit à la fois une augmentation de la régénération tissulaire mais malheureusement également une augmentation de l’incidence du cancer. Nous voulions également connaitre l’impact de l’accumulation de ces cellules sénescentes sur les tissus, plus spécifiquement sur la fonction des cellules immunitaires de la rate. Nous avons démontré que des altérations (dépendantes de p16INK4a) au sein du microenvironnement splénique pouvaient altérer les fonctions intrinsèques des macrophages, des cellules dendritiques et des lymphocytes T. En outre, l'élimination systémique des cellules p16INK4a positives (modèle de sourie p16-3MR) a conduit à une restauration partielle de la fonction de ces cellules immunitaires. La combinaison de ces données nous permet de mieux comprendre le rôle et la fonction du gène p16INK4a dans le processus de sénescence induite par l’irradiation. Nos résultats suggèrent qu’il est envisageable d’utiliser des agents pharmacologiques tels que des composés sénolytiques, capables d’induire l’apoptose chez les cellules sénescentes spécifiquement, afin de potentiellement diminuer les effets du vieillissement prématuré induit par la sénescence cellulaire chez les survivants du cancer. / Senescence is an important cellular mechanism that prevents tumorigenesis and is characterized by a permanent cell cycle arrest orchestrated by cyclin-dependent kinases inhibitors (i.e p16INK4a). Senescence is an important hallmark of aging and unbalanced levels of senescence is considered deleterious for tissue regeneration, and paradoxically for tumor progression. Irradiation (IR) is commonly used therapeutic approach in cancer treatment. Together with surgery and chemotherapy, it has helped to increase the life expectancy of patients and, in some cases, leads to complete remission. However, long-after therapy, children who survive cancer encounter alterations in the integrity of tissues/organs associated with premature aging. The accumulation of senescent cells may be responsible for this accelerated aging by limiting tissue proliferation and secreting pro-inflammatory cytokines. Our group has previously demonstrated that the p16INK4a gene is increased in a delayed manner (approximately 8 weeks) following exposure to IR. It has not yet been investigated whether this delayed expression occurs in response to IR-induce damage of tissue homeostasis or as tumor suppression mechanisms. One objective of this thesis was to determine whether it was possible to modulate / inhibit the expression of p16INK4a in order to increase tissue regeneration without necessarily increasing the risk of cancer incidence. Indeed, this may be possible since p16INK4a-induced senescence is also irreversible in vivo. Our results demonstrated that the inhibition of p16INK4a expression in conditional-p16INK4a null mice , induces both an increase in tissue regeneration but unfortunately also an increase in the incidence of cancer. We also wanted to know the impact of the accumulation of these senescent cells on the tissues, more specifically on the function of the immune cells in the spleen. We have demonstrated that alterations (p16INK4a-dependent) within the splenic microenvironment can alter the intrinsic functions of macrophages, dendritic cells and T cells. In addition, the systemic elimination of p16INK4a positive cells (mouse model p16-3MR) has led to a partial restoration of the function of these immune cells. The combination of these data allows us to better understand the role and function of the p16INK4a gene in the irradiation-induced senescence process. Our results suggest that it is conceivable to use pharmacological agents such as senolytic compounds, capable of inducing apoptosis in senescent cells specifically, in order to potentially reduce the effects of premature aging induced by cellular senescence in cancer survivors.

Rayonnement ionisant

Sénescence

Microenvironnement splénique

Cellules stromales

INK4a / ARF

Fonction hématopoïétique

Phagocytose

Prolifération cellulaire

Activité b-gal

Prolifération des cellules T

Ionizing radiation

Senescence

Splenic microenvironment

Stromal cells

INK4a/ARF

P16INK4a

Hematopoietic function

Phagocytosis

Cell proliferation

T cell proliferation

Regeneration.