Associação do perfil de acetilação lenta do gene NAT2 na susceptibilidade ao câncer, na Região Norte do Brasil / The acetylation profile association of NAT2 gene to cancer susceptibility, in Northenr Brazil

FERNANDES, Marianne Rodrigues

10 April 2013

Submitted by Cleide Dantas (cleidedantas@ufpa.br) on 2014-11-11T16:19:42Z No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_AssociacaoPerfilAcetilacao.pdf: 3086713 bytes, checksum: 01d39bac02b2e4df646e16b85b3c5622 (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2014-11-12T12:12:08Z (GMT) No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_AssociacaoPerfilAcetilacao.pdf: 3086713 bytes, checksum: 01d39bac02b2e4df646e16b85b3c5622 (MD5) / Made available in DSpace on 2014-11-12T12:12:08Z (GMT). No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_AssociacaoPerfilAcetilacao.pdf: 3086713 bytes, checksum: 01d39bac02b2e4df646e16b85b3c5622 (MD5) Previous issue date: 2013 / FAPESPA - Fundação Amazônia de Amparo a Estudos e Pesquisas / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Objetivos: O gene N-acetiltransferase 2 (NAT2) é um marcador para o estudo da susceptibilidade interindividual ao desenvolvimento de neoplasias malignas, visto que a enzima NAT2 participa da metabolização de agentes carcinogênicos e os polimorfismos de base única (SNP) do seu gene produzem enzimas com diferentes atividades, levando a acetilação lenta ou rápida de xenobióticos. O objetivo do presente estudo foi verificar uma possível associação entre os SNPS do gene NAT2 e a susceptibilidade ao acometimento de Adenocarcinoma gástrico ou Carcinoma ductal invasivo da mama em pacientes da região norte do Brasil. Material e Métodos: Os cinco polimorfismos de grande importância para a determinação do perfil de metabolização da enzima NAT2 (C282T, T341 C, C481 T, A803G e G857A) foram investigados por sequenciamento direto de 986 pares de bases, amplificados em duas reações de PCR, no total de 133 pacientes com câncer (63 com Câncer Gástrico e 70 com Câncer de Mama) e 89 indivíduos Controles. Para evitar interpretações espúrias decorrentes do subestruturamento populacional, empregamos um painel de 48 marcadores informativos de ancestralidade (IAM). Resultados: Encontramos diferenças estatísticas para a contribuição parental Africana e Européia, quando comparadas entre os grupos com Câncer e Controles, uma contribuição maior do grupo Africano foi detectada no grupo de estudo com câncer e, no grupo controle, foi detectada uma maior contribuição do grupo Europeu (p<0,001). Os genótipos do polimorfismo C282T dominante (TT + CT) apresentaram associação significativa (p<0,001; OR 3,076; Cl 95% 1,664-5,687) para a susceptibilidade as diferentes formas de Câncer investigadas. Foi observada uma associação significante do perfil de acetilação lenta e rápida com a susceptibilidade ao desenvolvimento das neoplasias investigadas (p=0,010; OR 3,054; Cl 95% 1,303-7,159) e (p= 0,041; OR 0,527 Cl 95% 0,280-0,973) evidenciando que indivíduos com o perfil acetilador lento apresentaram um risco aumentado em até três vezes no desenvolvimento de neoplasias quando comparado com os indivíduos controles. Conclusão: O controle genômico da ancestralidade foi efetivamente importante para a presente investigação possibilitando controlar o efeito da ancestralidade na associação do gene NAT2 para susceptibilidade ao câncer. Neste trabalho foi possivel evidenciar a forte influência do perfil de acetilação lenta do gene NAT2 de xenobióticos na susceptibilidade ao Câncer Gástrico e de Mama. / Objectives: The N-acetyltransferase 2 (NAT2) gene is a marker for the study of interindividual susceptibility to develop malignant neoplasms, once the enzyme NAT2 takes part in the metabolism of carcinogenic agents and the single nucleotide polymorphism (SNP) of its gene produces enzymes with different activities, leading to either slow or fast acetylation of xenobiotics. The purpose of this study was to investigate a possible association between the NAT2 gene SNPS and susceptibility to the involvement of gastric adenocarcinoma or invasive ductal carcinoma of the breast in patients of northern Brazil. Methods: Five polymorphisms of great importance for defining the metabolism profile of enzyme NAT2 (C282T, T341C, C481T, A803G and G857A) were investigated by direct sequencing of 986 base pairs, amplified in two PCR reactions, totalizing 133 patients with neoplasms (63 with Gastric Cancer-GC and 70 with Breast Cancer-BC) and 89 Control subjects. In order to avoid spurious interpretations resulting from the population substructure, we used a panei with 48 ancestry informative markers (AIM). Results: We found statistical differences for African and European parental contribution when compared between the Cancer and Control groups; a higher African contribution was detected in the study group with Cancer and, in the control group, it was detected a higher European contribution (p<0.001). Dominating polymorph genotypes C282T (TT + CT) showed significant association (p<0.001; OR 3.076; Cl 95% 1.664-5.687) for susceptibility to the different forms of Cancer investigated. A significant association of slow and fast acetylation profile with the susceptibility to develop the investigated neoplasms was noticed (p=0.010; OR 3.054; Cl 95% 1.303-7.159) and (p= 0.041; OR 0.527 Cl 95% 0.280-0.973) clearly showing that individuais with slow acetylator profile showed a risk of developing neoplasms increased to up to three times when compared to Control subjects. Conclusions: Ancestry genomic control was effectively important for this investigation and enabled the control of the ancestry effect on the association of NAT2 gene for susceptibility to cancer. In this study, it was possible to prove the strong influence of xenobiotics slow acetylation profile on the susceptibility to GC and BC.

Neoplasias da mama

Neoplasias gástricas

Oncogenes

Região Norte - Brasil

Amazônia Brasileira

Avaliação histoquímica e da expressão das proteínas p53 e c-KIT no mastocitoma canino

Pimenta, Vanessa de Sousa Cruz

25 April 2012

Submitted by Jaqueline Silva (jtas29@gmail.com) on 2014-11-07T16:47:10Z No. of bitstreams: 2 Dissertalçao - Vanessa de Sousa Cruz Pimenta - 2012.pdf: 3213134 bytes, checksum: b135b98e005a73bd0b991b974142808b (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-11-07T16:47:28Z (GMT) No. of bitstreams: 2 Dissertalçao - Vanessa de Sousa Cruz Pimenta - 2012.pdf: 3213134 bytes, checksum: b135b98e005a73bd0b991b974142808b (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-11-07T16:47:28Z (GMT). No. of bitstreams: 2 Dissertalçao - Vanessa de Sousa Cruz Pimenta - 2012.pdf: 3213134 bytes, checksum: b135b98e005a73bd0b991b974142808b (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2012-04-25 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The objective of this study was to verify the pattern of staining by Bismarck Brown and evaluate the expression of p53 and c-KIT in neoplastic mast cells, quantifying the marking obtained by these antibodies using the Image J software and correlating the values found with histologic subtypes. Mast cell tumors are the most common skin neoplasms of dogs, is an excessive proliferation of neoplastic mast cells, of variable and unpredictable biological behavior, with great capacity of recurrences and metastasis. The lesions may be dermis or subcutaneous location and three grades are described. At the first, the tumor is well differentiated, moderately differentiated is the second and the third is little differentiated. Their cause is still unknown. One of the mechanisms proposed for the proliferation of mast cells is to change the nucleotide sequence of the c-KIT gene. The tumor suppressor gene TP53 is directly related to blockage of cell cycle and the protection is changed by mutations in the p53. Were reviewed 1242 protocols of histopathology exams obtained the archives of Laboratory of Animal Pathology/UFG, from January 2007 to April 2011, found 37 diagnosis of canine cutaneous mast cell tumor. Regarding the epidemiologic aspects the prevalence of 55.26% was noted in dogs in the age group 6-10 years, 63.16% female and 39.48% of the Boxer breed. The most common anatomic site was the hind-limb with 31.58% of records. Histologic evaluation and histochemistry using Hematoxylin - Eosin and Toluidine Blue allowed to classify the majority of mast cell tumors studied, although only 24.32% of the samples were identified using the color Bismarck Brown. The prevalence of Grade II was 43.24% of all cases The lowest value expressed for p53 and c-KIT, was in Grade II, the highest value in the Grade III and the highest average in grade I. Was concluded that the coloration of Bismarck Brown proved efficient to aid in the diagnostic accuracy of laboratory routine and utilization of antibodies anti p53 and anti c-kit promoted good immunostaining with important role to determine the prognosis of canine mast cell tumors. / O objetivo deste estudo foi verificar o padrão de coloração pelo Pardo de Bismarck e avaliar a expressão de p53 e c-KIT nos mastócitos neoplásicos, quantificando a marcação obtida por estes anticorpos através do software Image J e correlacionando os valores encontrados com os subtipos histológicos. O mastocitoma é a neoplasia cutânea mais frequente do cão, sendo uma proliferação excessiva de mastócitos neoplásicos, de comportamento biológico variável e imprevisível, com grande capacidade de recidivas e metástases. As lesões podem ser de localização dérmica a subcutânea e três graus são descritos. No primeiro, o tumor é bem diferenciado, no segundo é moderadamente diferenciado e no terceiro é pouco diferenciado. Sua causa ainda é desconhecida. Um dos mecanismos propostos para a proliferação de mastócitos é a alteração da sequência de nucleotídeos do gene c-KIT. O gene supressor de tumor TP53 está diretamente relacionado ao bloqueio do ciclo celular e a proteção é alterada por mutações da p53. Foram revisados 1242 protocolos de exames histopatológicos obtidos dos arquivos do Laboratório de Patologia Animal/UFG, do período de janeiro de 2007 a abril de 2011, encontrando 37 diagnósticos de mastocitoma cutâneo canino. Quanto aos aspectos epidemiológicos a prevalência notada foi de 55,26% de cães na faixa etária de 6-10 anos, 63,16% do gênero feminino e 39,48% da raça Boxer. A localização anatômica mais frequente foi o membro pélvico com 31,58% de registros. A avaliação histológica e histoquímica utilizando a Hematoxilina - Eosina e o Azul de Toluidina permitiu classificar a maioria dos mastocitomas estudados, porém 24,32% das amostras só foram identificadas com a utilização da coloração Pardo de Bismarck. A prevalência do Grau II foi de 43,24% do total dos casos. O menor valor expresso, por p53 e c-KIT, foi no Grau II, o maior valor no Grau III e a maior média no grau I. Foi possível concluir que a coloração Pardo de Bismarck mostrou-se eficiente para auxiliar na precisão dos diagnósticos da rotina laboratorial e a utilização dos anticorpos anti p53 e anti c-KIT promoveu boa imunomarcação, com papel importante na determinação do prognóstico do mastocitoma canino.

Proto-oncogene

Sarcoma de mastócitos

Cães

Imunoistoquímica

Proteína supressora de tumor

Mast-cell sarcoma

Dogs

Immunohistochemistry

Tumor suppressor protein

Proto-oncogenes

MEDICINA VETERINARIA::PATOLOGIA ANIMAL

Klinički i prognostički značaj ekspresije gena EVI1 u akutnoj mijeloidnoj leukemiji / Clinical and Prognostic Significance of EVI1 Expression in Acute Myeloid Leukaemia

Sekulić Borivoj

11 December 2015

<p>UVOD: Akutna mijeloidna leukemija (AML) predstavlja heterogenu grupu oboljenja u odnosu na morfologiju, citogenetiku, molekularnu genetiku, zbog čega se deli na različite kliničke i biolo&scaron;ke entitete, sa različitim odgovorom na terapiju i ishodom lečenja. Humani EVI1 (ecotropic virus integration-1) gen ima ulogu multifunkcionalnog nuklearnog transkripcionog faktora, kako u normalnoj tako i u malignoj hematopoezi. Sve je vi&scaron;e istraživanja koja ističu negativni prognostički značaj visoke ekspresije (overexpression) EVI1 gena u AML.&nbsp; CILJEVI: Ciljevi ovog istraživanja su da se ispita klinički i prognostički značaj ekspresije gena EVI1 u AML, kao i da se utvrdi povezanost visoke ekspresije gena EVI1 sa nalazima citogenetskog ispitivanja i molekularnim markerima: FLT3 mutacijom i nukleofozmin 1 (NPM1) mutacijom. MATERIJAL I METODE: Ovim prospektivnim istraživanjem je obuhvaćena grupa od 38 odraslih novodijagnostikovanih bolesnika sa de novo, non M3 AML, kod kojih je započeto standardno lečenje, a koji su dijagnostikovani i lečeni u Klinici za hematologiju Kliničkog centra Vojvodine u periodu od jula 2012. do marta 2014. Određivanje ekspresije gena EVI1 je vr&scaron;eno pomoću real time kvantitativne PCR (qPCR) metode, tehnikom TaqMan, a relativna ekspresija EVI1 gena je određena primenom &Delta;&Delta;Ct metode.&nbsp; REZULTATI: Medijana starosti bolesnika pri postavljanju dijagnoze AML je bila 52 godine (23-80). Ustanovljena je statistički značajna razlika između ekspresije gena EVI1 kod zdravih osoba (kontrolna grupa) i obolelih od akutne mijeloidne leukemije (p=0.008). Računajući relativnu ekspresiju, 13,2 % bolesnika je imalo visoku ekspresiju (overexpression) gena EVI1. U odnosu na kliničke i laboratorijske karakteristike bolesnika (kao &scaron;to su pol, starost, parametri krvne slike, nivo laktat dehidrogenaze, procenat blasta u perifernoj krvi i ko&scaron;tanoj srži, potom tip akutne mijeloidne leukemije, performans status, komorbiditetni indeks) nije ustanovljena statistički značajna razlika između bolesnika sa visokom ekspresijom EVI1 gena i ostalih bolesnika. Postoji statistički značajna povezanost visoke ekspresije EVI1 gena i nepostojanja NPM1 mutacije (p=0,031), kao i između visoke ekspresije EVI1 gena i prisustva monozomije 7 (p=0,047). Visoka ekspresija EVI1 gena je povezana sa kraćim preživaljvanjem bez dogaĎaja (p=0,004), kao i sa kraćim ukupnim preživljavanjem (p=0,025).&nbsp; ZAKLJUČCI: Postoji značajno povećana ekspresija gena EVI1 kod obolelih od AML u odnosu na zdrave kontrole. Visoka ekspresija EVI1 gena je faktor lo&scaron;e prognoze kod obolelih od akutne mijeloidne leukemije i u kombinaciji sa drugim prognostičkim markerima, doprinosi boljoj risk stratifikaciji ovih bolesnika.</p> / <p>INTRODUCTION: Acute myeloid leukaemia (AML) represents a heterogenous group of diseases in terms of morphology, cytogenetics, molecular genetics, so it can be divided into distinct clinical and biological entities, with variable responsiveness to therapy and different treatment outcome. Human EVI1 (ecotropic virus integration-1) gene plays a role of multifunctional nuclear transcriptional factor, not only in normal, but also in malignant haematopoiesis. There are more and more investigations indicating high EVI1 expression (EVI1 overexpression) as a negative prognostic marker in AML.&nbsp; PURPOSES: The main goal of this investigation was to examine the clinical and prognostic significance of EVI1 expression in AML, as well as to investigate whether there was any association of EVI1 overexpression with cytogenetic abnormalities and other standard molecular prognostic factors, such as FLT3 mutation and nucleophosmin 1 (NPM1) mutation.&nbsp; PATIENTS AND METHODS: This prospective study included 38 adult newly diagnosed patients with de novo nonM3 AML, in whom a standard treatment was started at Clinic of Haematology, Clinical center of Vojvodina in the period from July 2012 to March 2014. EVI1 expression was analyzed by real-time quantitative polymerase chain reaction using TaqMan, and relative EVI1 expression was determined by &Delta;&Delta;Ct method.&nbsp; RESULTS: Median age of patients at diagnosis was 52 (aged 23-80). There has been determined statistically higher EVI1 expression in our AML patients than in healthy volunteers (control group) (p=0.008). The relative EVI1 overexpression was observed in 13.2% of the patients. No significant differences in clinical and laboratory patient data (including sex, age, whole blood counts, lactate dehydrogenase level, peripheral and bone marrow blast percentages, type of AML, performance status, comorbidity index) were observed between patients with high EVI1 expression and patients without high EVI1 expression. Our investigation revealed inverse correlation of high EVI1 expression and nucleophosmin 1 mutation (p=0,031). Also high EVI1 expression was significantly associated with monosomy 7 (p=0,047). Survival analysis revealed significantly inferior event free survival (p=0,004) and overall survival (p=0,025) for patients with high EVI1 expression compared to the other patients.&nbsp; CONCLUSION: EVI1 expression is significantly higher in AML patients compared to healthy controls. High EVI1 expression is a poor prognostic marker for patients with AML, and in combination with other well established prognostic markers, contributes to better risk stratification of these patients.</p>

Characterization of the MDM2 binding regions of ribosomal protein L5

Plummer, Kevin D.

20 July 2010

Indiana University-Purdue University Indianapolis (IUPUI) / The MDM2-p53 feedback loop is a well-characterized pathway. p53 is a transcription factor and regulates the transcriptional expression of genes that encode proteins responsible for cellular senescence, cell cycle arrest, apoptosis, and DNA repair. Various cellular stresses can result in p53 activation, including hypoxia, DNA damage by agents such as UV or IR, oncogenic signaling, nucleotide depletion and nucleolar stress from perturbation of ribosomal biogenesis. Under normal conditions, MDM2’s role in the pathway is to inhibit p53 function by directly binding to this protein and facilitating its ubiquitylation and 26S proteasome-mediated degradation. Under stressful cellular conditions, certain proteins interact with and rescue MDM2’s inhibition of p53. For example, upon exposure to small amounts of Actinomycin D, rRNA transcript synthesis is stalled resulting in the release of various ribosomal proteins including RPL5, RPL11 and RPL23; each of which has been shown to bind MDM2 within its central acidic domain and inhibit its ability to destabilize p53. Although the RPL5 binding region of MDM2 have been mapped in prior investigations, the MDM2-binding region(s) of RPL5 have yet to be characterized. By employing RPL5 deletion mutagenesis and in vitro GST-fusion protein-protein association assays with purified proteins, this dissertation attempts to elucidate those regions of RPL5 that may interact with MDM2. Normalizing RPL5-WT to 1.00, our study reveals that the basic N and C-terminals of RPL5 appear to bind with MDM2 while RPL5’s central region displays negligible binding to the central acidic domain of MDM2. Also, the possible meanings of these RPL5 MDM2 binding domains are discussed along with their utilization in potential future applications.

p21

Cell Cycle Arrest

Apoptosis

5SrRNA

Ribosomal Proteins

Nucleolar Stress

RPL5

MDM2

p53

Transcription factors

Oncogenes

Ribosomes

Cells -- Effect of stress on

Cell cycle -- Regulation

Apoptosis

Mecanismo associados à  perda da regulação da nox1 NADPH oxidase pela dissulfeto isomerase proteica em células com ativação sustentada da via ras / Mechanisms associated with loss of regulation of NADPH oxidase nox1 by protein disulfide isomerase in cells with sustained activation of the ras pathway

Bessa, Tiphany Coralie de

29 March 2018

Dissulfeto isomerase proteica como a PDIA1 tem sido implicada na progressão do câncer, porém os mecanismos envolvidos ainda não foram claramente identificados. Previamente, nós demonstramos um importante efeito da PDIA1 induzindo a superexpressão da Nox1 NADPH oxidase, associada à geração de espécie reativas de oxigênio (ROS). Uma vez que a perda na regulação de ROS envolve o crescimento tumoral, nós propusemos que a PDIA1 atua como um mecanismo regulador proximal na produção de ROS em tumores. No presente estudo, nós focamos no câncer colorretal (CRC) com distintos efeitos na ativação de KRas. Resultados provenientes de bancos de dados de RNAsec e validação direta, indicam um significante aumento na expressão de PDIA1 em CRC com alta ativação constitutiva da Kras (HCT116) vs. ativação intermediária (HKE3) ou basal (Caco2). A PDIA1 sustenta a produção de superóxido dependente da Nox1 em CRC; entretanto, observamos pela primeira vez uma ação dupla da PDIA1 correlacionada ao nível de ativação da Ras: em células Caco2 e HKE3, experimentos de perda de função indicam que o PDIA1 sustenta a produção de superóxido dependente de Nox1; no entanto, em células HCT116, PDIA1 limita a produção de superóxido pela Nox1. Este comportamento da PDIA1 é associado ao aumento da expressão / atividade da Rac1. A transfecção do mutante constitutivamente ativo Rac1G12V em células HKE3 faz com que a PDIA1 se torne restritiva a produção de superóxido dependente de Nox1, paralelamente, em células HCT116 tratadas com inibidor da Rac1, PDIA1 se torna favorável à produção de superóxido. Um screening em importantes vias de sinalização celular em HKE3 mostrou que a perda de função da PDIA1 promove inativação da GSK3? em paralelo à diminuicão da ativacção de Stat3; em HCT116 em estado basal, GSK3beta é inativada enquanto Stat3 está ativa, já o silenciamento da PDIA1 não resulta em nenhum efeito adicional. As implicações funcionais do silenciamento da PDIA1 incluíram uma diminuição da proliferação e migração celular em HKE3, não detectável em HCT116. Além disso, a PDIA1 parece sustentar a transição epitélio-mesenquimal (EMT), uma vez que após o silenciamento da PDIA1, observamos um aumento da expressão da E-caderina em HKE3 e uma diminuição em HCT116. Assim, a superativação da Ras se associa a uma alteração no padrão de regulação da Nox1 pela PDIA1. A supressão do efeito regulador da PDIA1 pela Kras é provavelmente devido a uma ativação sustentada da Rac1. Portanto, PDIA1 pode exercer um papel redox-dependente adaptativo crucial relacionado à progressão tumoral / Protein disulfide isomerases such as PDIA1 have been implicated in cancer progression, but the underlying mechanisms are unclear. We showed previously important PDIA1 effects enabling vascular Nox1 NADPH oxidase expression and associated generation of reactive oxygen species (ROS). Since deregulated ROS production underlies tumor growth, we proposed that PDIA1 acts as an upstream regulatory mechanism of tumor-associated ROS production. We focused on colorectal cancer (CRC) with distinct levels of KRas activation. Our results from RNAseq databanks and direct validation indicate significant increase in PDIA1 expression in CRC with constitutive high (HCT116) vs. moderate (HKE3) or basal (e.g. Caco2) Ras activity. PDIA1 supported Nox1-dependent superoxide production in CRC; however, we observed for the first time a dual effect correlated with Ras level activity: in Caco2 and HKE3 cells, loss-of-function experiments indicate that PDIA1 sustains Nox1-dependent superoxide production; however, in HCT116 cells, PDIA1 restricted Nox1-dependent superoxide production. This PDIA1 behavior in HCT116 is associated with increased Rac1 expression/activity. Transfection of Rac1G12V active mutant into HKE3 cells induced PDIA1 to become restrictive of Nox1-dependent superoxide; accordingly, in HCT116 cells treated with Rac1 inhibitor, PDIA1 became supportive of superoxide production. Screening of cell signaling routes affected by PDIA1 silencing showed induced GSK3beta inactivation and parallel decrease of active Stat3 in HKE3 cells; in baseline HCT116 cells, GSK3beta was inactivated and Stat3 active, whereas PDIA1 silencing had no further effect. Functional implications of PDIA1 silencing included a decrease of cell proliferation and migration in HKE3, not detectable in HCT116 cells. Also, PDIA1 may support epithelial-mesenchymal transition (EMT), since after PDIA1 silencing, E-cadherin expression increased in HKE3 and decreased in HCT116. Thus, Ras overaction associates with a switched in PDIA1 pattern regulation of Nox1. Ras-induced PDIA1 bypass may involve direct Rac1 activation. Therefore, PDIA1 may be a crucial regulator of redox-dependent adaptive processes related to cancer progression

Espécies de oxigênio reativas

Estresse oxidativo

Isomerase de dissulfetos de proteínas

NADPH oxidase

NADPH oxidase

Neoplasias

Neoplasms

Oxidative stress

Protein disulfide-isomerases

Proteínas ras

Proto-oncogenes

Proto-oncogenes

Ras proteins

Reactive oxygen species

Superoxides

Superóxidos

Mecanismo associados à  perda da regulação da nox1 NADPH oxidase pela dissulfeto isomerase proteica em células com ativação sustentada da via ras / Mechanisms associated with loss of regulation of NADPH oxidase nox1 by protein disulfide isomerase in cells with sustained activation of the ras pathway

Tiphany Coralie de Bessa

29 March 2018

Dissulfeto isomerase proteica como a PDIA1 tem sido implicada na progressão do câncer, porém os mecanismos envolvidos ainda não foram claramente identificados. Previamente, nós demonstramos um importante efeito da PDIA1 induzindo a superexpressão da Nox1 NADPH oxidase, associada à geração de espécie reativas de oxigênio (ROS). Uma vez que a perda na regulação de ROS envolve o crescimento tumoral, nós propusemos que a PDIA1 atua como um mecanismo regulador proximal na produção de ROS em tumores. No presente estudo, nós focamos no câncer colorretal (CRC) com distintos efeitos na ativação de KRas. Resultados provenientes de bancos de dados de RNAsec e validação direta, indicam um significante aumento na expressão de PDIA1 em CRC com alta ativação constitutiva da Kras (HCT116) vs. ativação intermediária (HKE3) ou basal (Caco2). A PDIA1 sustenta a produção de superóxido dependente da Nox1 em CRC; entretanto, observamos pela primeira vez uma ação dupla da PDIA1 correlacionada ao nível de ativação da Ras: em células Caco2 e HKE3, experimentos de perda de função indicam que o PDIA1 sustenta a produção de superóxido dependente de Nox1; no entanto, em células HCT116, PDIA1 limita a produção de superóxido pela Nox1. Este comportamento da PDIA1 é associado ao aumento da expressão / atividade da Rac1. A transfecção do mutante constitutivamente ativo Rac1G12V em células HKE3 faz com que a PDIA1 se torne restritiva a produção de superóxido dependente de Nox1, paralelamente, em células HCT116 tratadas com inibidor da Rac1, PDIA1 se torna favorável à produção de superóxido. Um screening em importantes vias de sinalização celular em HKE3 mostrou que a perda de função da PDIA1 promove inativação da GSK3? em paralelo à diminuicão da ativacção de Stat3; em HCT116 em estado basal, GSK3beta é inativada enquanto Stat3 está ativa, já o silenciamento da PDIA1 não resulta em nenhum efeito adicional. As implicações funcionais do silenciamento da PDIA1 incluíram uma diminuição da proliferação e migração celular em HKE3, não detectável em HCT116. Além disso, a PDIA1 parece sustentar a transição epitélio-mesenquimal (EMT), uma vez que após o silenciamento da PDIA1, observamos um aumento da expressão da E-caderina em HKE3 e uma diminuição em HCT116. Assim, a superativação da Ras se associa a uma alteração no padrão de regulação da Nox1 pela PDIA1. A supressão do efeito regulador da PDIA1 pela Kras é provavelmente devido a uma ativação sustentada da Rac1. Portanto, PDIA1 pode exercer um papel redox-dependente adaptativo crucial relacionado à progressão tumoral / Protein disulfide isomerases such as PDIA1 have been implicated in cancer progression, but the underlying mechanisms are unclear. We showed previously important PDIA1 effects enabling vascular Nox1 NADPH oxidase expression and associated generation of reactive oxygen species (ROS). Since deregulated ROS production underlies tumor growth, we proposed that PDIA1 acts as an upstream regulatory mechanism of tumor-associated ROS production. We focused on colorectal cancer (CRC) with distinct levels of KRas activation. Our results from RNAseq databanks and direct validation indicate significant increase in PDIA1 expression in CRC with constitutive high (HCT116) vs. moderate (HKE3) or basal (e.g. Caco2) Ras activity. PDIA1 supported Nox1-dependent superoxide production in CRC; however, we observed for the first time a dual effect correlated with Ras level activity: in Caco2 and HKE3 cells, loss-of-function experiments indicate that PDIA1 sustains Nox1-dependent superoxide production; however, in HCT116 cells, PDIA1 restricted Nox1-dependent superoxide production. This PDIA1 behavior in HCT116 is associated with increased Rac1 expression/activity. Transfection of Rac1G12V active mutant into HKE3 cells induced PDIA1 to become restrictive of Nox1-dependent superoxide; accordingly, in HCT116 cells treated with Rac1 inhibitor, PDIA1 became supportive of superoxide production. Screening of cell signaling routes affected by PDIA1 silencing showed induced GSK3beta inactivation and parallel decrease of active Stat3 in HKE3 cells; in baseline HCT116 cells, GSK3beta was inactivated and Stat3 active, whereas PDIA1 silencing had no further effect. Functional implications of PDIA1 silencing included a decrease of cell proliferation and migration in HKE3, not detectable in HCT116 cells. Also, PDIA1 may support epithelial-mesenchymal transition (EMT), since after PDIA1 silencing, E-cadherin expression increased in HKE3 and decreased in HCT116. Thus, Ras overaction associates with a switched in PDIA1 pattern regulation of Nox1. Ras-induced PDIA1 bypass may involve direct Rac1 activation. Therefore, PDIA1 may be a crucial regulator of redox-dependent adaptive processes related to cancer progression

Espécies de oxigênio reativas

Estresse oxidativo

Isomerase de dissulfetos de proteínas

NADPH oxidase

Neoplasias

Proteínas ras

Proto-oncogenes

Superóxidos

NADPH oxidase

Neoplasms

Oxidative stress

Protein disulfide-isomerases

Proto-oncogenes

Ras proteins

Reactive oxygen species

Superoxides

Cell type-dependent differential activation of ERK by oncogenic KRAS or BRAF in the mouse intestinal epithelium

Brandt, Raphael

10 March 2023

Kolorektale Karzinome (CRC) zeigen eine heterogene Ätiologie. Die Progression prämaligner Vorläufer zu CRC unterscheidet (U) sich in Morphologie, molekularen Veränderungen und Interaktion mit der Tumorumgebung. CRC weisen oft onkogene Mutationen in KRAS und BRAF auf. Diese steigern die MAPK Signalwegaktivität (Mpa). Obwohl sie im selben Signalweg wirken, sind KRAS und BRAF auf die CRC-Entitäten U verteilt. Dabei ist KRAS häufiger im sogenannten konventionellen und BRAF im serratierten Weg zu CRC mutiert. In dieser Studie nutzte ich murine intestinale Organoide (iO), die induzierbare (Ind) KRAS oder BRAF Onkogene exprimieren. Große U zwischen KRAS und BRAF zeigten sich sowohl in Signaltransduktion (ST) als auch im Phänotyp. Phosphoprotein-, ERK-Reporter-, scRNA-Seq und EM-Analysen ergaben eine starke Mpa durch BRAF, die zu hoher Expression von MAPK-Zielgenen und Verlust der epithelialen Integrität führte. iO nach KRAS-Ind blieben intakt, korrelierend mit moderater, zelltypspezifischer (ZS) Mpa in sekretorischen und undifferenzierten Zellen. Die meisten Enterozyten waren Mpa-negativ. ERK-Reporter zeigten: Das ZS Muster der Mpa ist nicht nur gegenüber KRAS, sondern auch dem Entzug von Wachstumsfaktoren stabil. Dies spricht für eine intrinsische, robuste Regulierung der Mpa. BRAF-Ind Mpa setzte die ZS Regulierung der MAPK außer Kraft und schädigte das Gewebe, im Einklang mit einer oberen Grenze tolerabler Mpa. Die ZS Mpa wurde in CRC-Zelllinien bestätigt, deren Mpa durch KRAS aber nicht BRAF U ausfiel. Ferner, nutzte ich iO mit bCatenin+KRAS-Ind, um den konventionellen Weg zu CRC zu modellieren. Die Kombination führte zu synergistischen Effekten, die sich in EGFR-unabhängigem Wachstum und der Aufhebung der ZS Mpa-Blockade äußerten, die durch eine Verschiebung der Differenzierung zu mehr Progenitorzellen bewirkt wurde. Zusammenfassend konnte ich U in der Mpa durch KRAS oder BRAF im Darmepithel feststellen, was dazu beiträgt, deren Rollen in der CRC-Genese zu bestimmen. / Colorectal cancer (CRC) is a disease with heterogeneous etiology. Premalignant lesions follow distinct routes of progression to carcinoma reflected by differences in morphology, molecular alterations and the tumor environment. Mutant KRAS and BRAF are frequent, leading to MAPK pathway activation (Mpa), which is relevant for CRC therapy. Despite acting in the same pathway, mutant KRAS and BRAF segregate to different entities, as KRAS is more frequent in the conventional- and BRAF being specific for the serrated route to CRC. I used murine intestinal organoids (iO) expressing inducible oncogenic KRAS or BRAF to study the impact of oncogenes in primary cells. I found marked differences in signal transduction and phenotype. Phospho-protein, ERK-reporter, scRNA-seq and EM data showed strong Mpa upon BRAF induction followed by ERK-target gene expression leading to tissue disruption. In contrast, KRAS left the tissue intact resulting in less and cell type-dependent Mpa limited to secretory cells, a subset of late-stage enterocytes and undifferentiated crypt cells. Most enterocytes were irresponsive to KRAS. The pattern of Mpa was robust towards KRAS or growth factor depletion arguing in favor of intrinsic, resilient MAPK regulation. In iO, BRAF-induced Mpa could break this cell type-specific regulation, indicating an upper limit of tolerable Mpa. I validated these findings in CRC cell lines that differed in Mpa in response to oncogenic KRAS but not BRAF. Finally, I used iO expressing an inducible form of stabilized bCatenin in combination with KRAS to mimic events frequently found in the conventional pathway to CRC. Expression of KRAS and bCatenin synergized in driving EGFR independent growth and breaking the villus-specific block of Mpa by altering differentiation towards progenitor cell types. In summary, this study emphasizes differences between Mpa induced by oncogenic KRAS or BRAF which helps clarifying their nature in different etiological routes to CRC genesis.

KRAS

KRASG12V

BRAF

BRAFV600E

EGFR

EGF

MAPK

ERK

FIRE Reporter

MEK

MAPKK

MAPKKK

beta-Catenin

intestinale Organoidkultur

intestinale Organoide

Mausmodelle von Tumoren

kolorektales Karzinom

kolorektale Karzionome

CRC

Primärzellen

Tumormodelle

Onkogene

oncogenes KRAS

oncogenes BRAF

onkogene Signaltransduktion

3D Modell

matrigel

R-spondin

RSPO

Noggin

KRAS

KRASG12V

BRAF

BRAFV600E

EGFR

EGF

MAPK

ERK

FIRE reporter

MEK

MAPKK

MAPKKK

beta-Catenin

intestinal organoid

intestinal organoids

intestinal organoid culture

murine model of cancer

colorectal carcinoma

CRC

primary tumor model

oncogenes

oncogenic KRAS

oncogenic BRAF

3D model

matrigel

R-spondin

RSPO

Noggin

610 Medizin und Gesundheit

ddc:610

Novel Quadruplex ligands : in silico and in vitro approaches / Nouveaux ligands de quadruplexes : approches in silico et in vitro

Castillo Gonzalez, Daimel

14 November 2013

Les séquences d’ADN et d'ARN riches en Guanines peuvent adopter des conformations inhabituelles connues sous le nom de G-quadruplexes (G4). Les topologies et les formes de ces structures fascinantes sont très diverses. Les G4 sont stabilisés par la présence de cations monovalents et des liaisons Hydrogène de type Hoogsteen. De petites molécules contribuent également à la formation de formes stables, principalement par des interactions d'empilement π - π. Bien que les G4 soient connus depuis des décennies, l'intérêt de la communauté scientifique a été stimulé par la découverte de leur effet potentiellement inhibiteur sur la télomérase, une transcriptase inverse impliquée dans la transformation maligne de la plupart des cellules cancéreuses. En ce qui concerne la télomérase, le cancer et G4, plusieurs groupes ont été impliqués dans la découverte de nouveaux stabilisateurs G4 qui peuvent indirectement inhiber l'enzyme. Des centaines de ligands ont été identifiés par ce biais au cours de la dernière décennie et c'est encore un domaine très actif. Prenant en compte les avantages et la facilité qu'offre l'identification de nouvelles structures à l'aide de techniques de calcul grâce à des modèles mathématiques simples et reproductibles, nous avons entrepris un criblage à haut débit et à faible coût de calcul afin d’identifier de nouveaux ligands G4. Avec l'utilisation de la modélisation QSAR nous pouvons prédire l’IC50 d'un ensemble de composés congénères. Nous avons également été en mesure de relier les descripteurs moléculaires qui apparaissent dans nos modèles avec des caractéristiques structurales que les études de la littérature scientifique et SAR ont rapportés dans les études précédentes, pour un ensemble de ligands congénères. En outre, nous avons construit des modèles différents utilisant des ensembles non congénères de composés en appliquant une stratégie de consensus et pu identifier six ligands approuvés par la FDA qui stabilisent les structures G4. Par la suite, en appliquant des techniques non linéaires et un processus pour le traitement de la base de données que nous avons contruite à partir de publications antérieures, nous avons effectué un criblage virtuel de plus de 500 000 ligands d'une base de données commerciale de composés. Nous avons pu identifier de nouveaux ligands avec une puissance plus forte que les précédentes, qui peuvent également stabiliser d’autres structures G4 impliqués dans les processus liés au cancer. Ces observations ouvrent un spectre large de possibilités à explorer. Malgré les limites des techniques de modélisation QSAR explorées tout au long de ce travail, nous considérons qu'elles peuvent être combinées et utilisées avec soin pour répondre à la recherche de nouveaux stabilisateurs G4. / DNA and RNA G-rich sequences can adopt unusual arrangements that are known as G-quadruplexes (G4). The topologies and forms of these fascinating structures are very diverse. G4 are stabilized by the presence of monovalent cations and Hoogsteen Hydrogen bonds. Small molecules also contribute to the formation of stable forms mainly via π-π stacking interactions. Although G4s are known for decades, interest in this field started with their potential effect on inhibition of telomerase enzyme, a Reverse Transcriptase involved in the malignant transformation of most cancer cells. With regards to telomerase, cancer and G4, several groups have been involved in the discovery of new G4 stabilizers that would indirectly inhibit the enzyme. Most of the G4 ligands were identified following this paradigm. Hundreds of ligands have been identified during the past decade and this is still a very active field in science. Taking into account the advantages and easiness that offers the identification of new structures using computational techniques we built single and reproducible mathematical models with high screening capacity and low computational cost in order to use them on the identification of G4 ligands. With the use of QSAR modelling we can predict the telIC50 of a congeneric set of compounds. We have also been able to relate the molecular descriptors that appear in ours models with some structural features that scientific literature and SAR studies have reported in previous studies as appropriated for describing the above mentioned activity, also for congeneric set of ligands. Moreover, we built different models using non congeneric sets of compounds applying a consensus strategy and could identify six FDA approved ligands that stabilize G4 structures. Subsequently, by applying nonlinear techniques and a process for the cure of the database proposed for us in previous publications, we have performed a virtual screening of more than 500 000 ligands from a commercial database of compounds, followed of structure-based model in order to reduce the number of candidates. We were able to identify new ligands with stronger potency than the previous ones, which can also stabilize other G4 structures involved in processes related to cancer. These observations open a wide-ranging spectrum of possibilities to be explored. Despite the limitations of the QSAR modelling techniques explored along this work, we consider they can be combined and used carefully to address the search for new G4 stabilizers.

G-quadruplexes

G4

Télomeres

Télomerase

Cancer

Ligands de Quadruplexes

Criblage Virtuel

Séquences oncogéniques

G-quadruplexes

G4

Telomeres

Telomerase

Cancer

G4 ligands

Virtual screening

QSAR

Oncogenes sequences

Mecanismos moleculares e celulares de citotoxicidade de FGF2 parácrino em células tumorais dependentes de Ras / Molecular and cellular mechanisms of paracrine FGF2 cytotoxicity in Ras-driven tumor cells

Salotti, Jacqueline

30 June 2009

Descrevemos, recentemente, que FGF2 parácrino dispara senescência nas linhagens celulares murinas Y1 e 3T3-B61, transformadas malignamente por Ras, mas sem ativação das vias apoptóticas (Costa et al., 2008). Nesta tese, estudamos os mecanismos celulares e moleculares desta resposta de estresse irreversível, disparada por FGF2. Focalizamos, principalmente, a linhagem Y1, que carrega uma amplificação do oncogene Kras, mas apresenta um controle parcial da transição G0/G1 &#8594; S do ciclo celular. Por estas características fenotípicas, as células Y1 foram utilizadas no estudo dos mecanismos das ações antagônicas de FGF2, isto é, a atividade mitogênica clássica e a nova ação citotóxica que causa senescência. Análises de citometria de fluxo e marcação com BrdU mostraram que FGF2 promove a transição G0/G1 &#8594; S (atividade mitogênica), mas bloqueia a progressão através de S e G2/M (atividade antimitogênica). Ensaios de viabilidade celular (MTS e Cyto-Tox) demonstraram que, durante o bloqueio do ciclo celular por FGF2, as células permanecem íntegras e metabolicamente ativas, embora exibam alterações morfológicas, que sugerem estresse celular. Além disso, experimentos de tomada de 3H-timidina em DNA evidenciaram que, já nas primeiras horas de G1, FGF2 dispara um processo antimitogênico que só tardiamente vai se manifestar na fase S, bloqueando a síntese de DNA. Verificamos ainda, que o inibidor específico da Tyr-quinase dos receptores de FGF, PD173074, abole completamente, tanto os efeitos mitogênicos como os antimitogênicos de FGF2 nas células Y1, demonstrando que ambos os processos iniciam-se com a ativação da Tyr-quinase dos FGFRs. Por outro lado, inibidores específicos das vias de sinalização de MEK/ERK, PI3K/AKT e PKC (todas mitogênicas e à jusante dos FGFRs) bloqueiam a progressão no ciclo celular, sem proteger as células Y1 de FGF2, evidenciando que estas vias mitogênicas não participam dos mecanismos moleculares citotóxicos disparados por FGF2. Entretanto, inibidores das Tyr-quinases Src protegem parcialmente as células Y1 de FGF2, implicando a família Src na transformação maligna destas células. Para buscar novos genes pertinentes à ação citotóxica de FGF2 analisamos expressão gênica por RT-qPCR, dando continuidade a estudos anteriores desenvolvidos no laboratório, através de microarranjos de cDNA (Asprino & Armelin, 2006). Desta busca, resultaram genes codificantes de proteínas envolvidas no controle de ciclo celular, adesão e citoesqueleto, com destaque para proteínas reguladoras de RhoGTPases e os receptores de FGF. Procuramos também examinar especificidades entre os FGFRs, quanto ao disparo das ações antagônicas de FGF2. As células Y1 expressam FGFR1IIIc, FGFR2IIIc e FGFR5 enquanto as 3T3-B61 expressam FGFR1IIIc e FGFR5. A redução da expressão de FGFR2 por RNAi, em células Y1, não impediu a ação citotóxica de FGF2, mas a redução de FGFR1 protegeu as células da ação morfológico-estressante de FGF2. Como FGFR5 não possui domínio de Tyr-quinase, concluímos que o FGFR1 é o receptor mais relevante para o efeito citotóxico de FGF2, em ambas as células. Em conclusão, FGF2 ativa a Tyr-quinase dos FGFRs, disparando mecanismos moleculares antagônicos, paralelos e independentes, onde o efeito final é o bloqueio do ciclo celular nas fases S e G2/M e, consequentemente, senescência celular. / We have recently described that paracrine FGF2 triggers senescence in Ras-driven murine cell lines Y1 and 3T3-B61, without activation of apoptotic pathways (Costa et al., 2008). On this thesis, we studied the molecular and cellular mechanisms of this irreversible stress response triggered by FGF2. We have mainly focused on the Y1 cell line, which carries Kras oncogene amplification, but presents a certain control of the G0/G1 &#8594; S cell cycle transition. Because of these phenotypic features, the Y1 cells were utilized to study the mechanisms of FGF2 antagonic actions, i. e., the classical mitogenic activity and the new cytotoxic action, which causes senescence. Flow cytometer analysis and BrdU labeling have shown that FGF2 promotes the G0/G1 &#8594; S transition (mitogenic activity), but arrests the progression through S and G2/M (antimitogenic activity). Viability assays (MTS and Cyto-Tox) have shown that, during the cell cycle arrest by FGF2, cells remain intact and metabolically active, although exhibiting morphologic alterations, which suggested cellular stress. Moreover, 3H-thymidine uptake into DNA has evidenced that, within the first hours of G1, FGF2 triggers an antimitogenic process that only lately will manifest in S phase, blocking DNA synthesis. We have further verified that the specific Tyr-kinase inhibitor, PD173074, completely abolishes both FGF2 mitogenic and antimitogenic effects, showing that both processes start at FGFRs Tyr-kinase. On the other hand, specific inhibitors of MEK/ERK, PI3K/AKT and PKC signaling pathways (all mitogenic and downstream of FGFRs) block the cell cycle progression, but do not protect cells from FGF2, showing that these pathways do not participate of the cytotoxic molecular mechanisms triggered by FGF2. However, Src Tyr-kinases inhibitors partially protect Y1 cells from FGF2, implicating the Src family on malignant transformation of these cells. To search new genes pertinent to the cytotoxic action of FGF2, we analyzed gene expression by RT-qPCR, continuing previous studies developed in our laboratory through cDNA microarrays (Asprino & Armelin, 2006). This search revealed protein-coding genes involved on cell cycle control, cellular adhesion and cytoskeleton, in which we highlighted regulatory proteins of RhoGTPases and FGF receptors. We also examined specificities among FGFRs in relation to FGF2 antagonic actions. Y1 cells express FGFR1IIIc, FGFR2IIIc and FGFR5 whereas 3T3-B61 cells express FGFR1IIIc and FGFR5. In Y1 cells, the knockdown of FGFR2 expression by RNAi do not stop FGF2 cytotoxic actions, but knockdown of FGFR1 expression protects cells from the FGF2 morphologic-stressing action. Since FGFR5 lacks Tyr-kinase domain, we concluded that FGFR1 is the most relevant receptor for FGF2 cytotoxic effect in both cells. In conclusion, FGF2 activates FGFRs Tyr-kinase, triggering parallel and independent antagonic molecular mechanisms, in which the final effect is the S and G2/M cell cycle arrest and, consequently, cellular senescence.

Biologia molecular

Cell cycle control

Controle do ciclo celular

Fatores de crescimento

FGF Tyr-kinase receptors

FGF2

FGF2

Linhagens celulares malignas

Malignat cell lines

Molecular biology

Oncogenes

Ras

Ras

Receptores de Tyr-quinase de FGF

Src

Src

Application of Genomic and Expression Arrays for Identification of new Cancer Genes

Nord, Helena

January 2010

Copy number variation (CNV) comprises a recently discovered kind of variation involving deletion and duplication of DNA segments of variable size, ranging from a few hundred basepairs to several million. By altering gene dosage levels or disrupting proximal or distant regulatory elements CNVs create human diversity. They represent also an important factor in human evolution and play a role in many disorders including cancer. Array-based comparative genomic hybridization as well as expression arrays are powerful and suitable methods for determination of copy number variations or gene expression changes in the human genome. In paper I we established a 32K clone-based genomic array, covering 99% of the current assembly of the human genome with high resolution and applied it in the profiling of 71 healthy individuals from three ethnic groups. Novel and previously reported CNVs, involving ~3.5% of the genome, were identified. Interestingly, 87% of the detected CNV regions overlapped with known genes indicating that they probably have phenotypic consequences. In papers II through IV we applied this platform to different tumor types, namely two collections of brain tumors, glioblastoma (paper II) and medulloblastoma (paper III), and a set of bladder carcinoma (paper IV) to identify chromosomal alterations at the level of DNA copy number that could be related to tumor initiation/progression. Tumors of the central nervous system represent a heterogeneous group of both benign and malignant neoplasms that affect both children and adults. Glioblastoma and medulloblastoma are two malignant forms. Glioblastoma often affects adults while the embryonal tumor medulloblastoma is the most common malignant brain tumor among children. The detailed profiling of 78 glioblastomas, allowed us to identify a complex pattern of aberrations including frequent and high copy number amplicons (detected in 79% of samples) as well as a number of homozygously deleted loci. These regions encompassed not only previously reported oncogenes and tumor suppressor genes but also numerous novel genes. In paper III, a subset of 26 medulloblastomas was analyzed using the same genomic array. We observed that alterations involving chromosome 17, especially isochromosome 17q, were the most common genomic aberrations in this tumor type, but copy number alterations involving other chromosomes: 1, 7 and 8 were also frequent. Focal amplifications, on chromosome 1 and 3, not previously described, were also detected. These loci may encompass novel genes involved in medulloblastoma development. In paper IV we examined for the presence of DNA copy number alterations and their effect on gene expression in a subset of 21 well-characterized Ta bladder carcinomas, selected for the presence or absence of recurrences. We identified a number of novel genes as well as a significant association between amplifications and high-grade and recurrent tumors which might be clinically useful. The results derived from these studies increase our understanding of the genetic alterations leading to the development of these tumor forms and point out candidate genes that may be used in future as targets for new diagnostic and therapeutic strategies.

Array-CGH

Expression array

Copy number variation

Glioblastoma

Medulloblastoma

Bladder carcinoma

Oncogenes

Tumor suppressor genes

Medical genetics

Medicinsk genetik

Tumour biology

Tumörbiologi

Genetics

Genetik