A Transcriptome-Wide Isoform Landscape of Melanocytic Nevi and Primary Melanomas Identifies Gene Isoforms Associated with Malignancy

Hakobyan, Siras, Loeffler-Wirth, Henry, Arakelyan, Arsen, Binder, Hans, Kunz, Manfred

29 December 2023

Genetic splice variants have become of central interest in recent years, as they play an important role in different cancers. Little is known about splice variants in melanoma. Here, we analyzed a genome-wide transcriptomic dataset of benign melanocytic nevi and primary melanomas (n = 80) for the expression of specific splice variants. Using kallisto, a map for differentially expressed splice variants in melanoma vs. benign melanocytic nevi was generated. Among the top genes with differentially expressed splice variants were Ras-related in brain 6B (RAB6B), a member of the RAS family of GTPases, Macrophage Scavenger Receptor 1 (MSR1), Collagen Type XI Alpha 2 Chain (COLL11A2), and LY6/PLAUR Domain Containing 1 (LYPD1). The Gene Ontology terms of differentially expressed splice variants showed no enrichment for functional gene sets of melanoma vs. nevus lesions, but between type 1 (pigmentation type) and type 2 (immune response type) melanocytic lesions. A number of genes such as Checkpoint Kinase 1 (CHEK1) showed an association of mutational patterns and occurrence of splice variants in melanoma. Moreover, mutations in genes of the splicing machinery were common in both benign nevi and melanomas, suggesting a common mechanism starting early in melanoma development. Mutations in some of these genes of the splicing machinery, such as Serine and Arginine Rich Splicing Factor A3 and B3 (SF3A3, SF3B3), were significantly enriched in melanomas as compared to benign nevi. Taken together, a map of splice variants in melanoma is presented that shows a multitude of differentially expressed splice genes between benign nevi and primary melanomas. The underlying mechanisms may involve mutations in genes of the splicing machinery.

info:eu-repo/classification/ddc/610

ddc:610

Genome organizing function of SATB1 in tumor progression.

Kohwi-Shigematsu, T., Poterlowicz, Krzysztof, Ordinario, E., Han, H.J., Botchkarev, Vladimir A., Kohwi, Y.

January 2013

No / When cells change functions or activities (such as during differentiation, response to extracellular stimuli, or migration), gene expression undergoes large-scale reprogramming, in cell type- and function-specific manners. Large changes in gene regulation require changes in chromatin architecture, which involve recruitment of chromatin remodeling enzymes and epigenomic modification enzymes to specific genomic loci. Transcription factors must also be accurately assembled at these loci. SATB1 is a genome organizer protein that facilitates these processes, providing a nuclear architectural platform that anchors hundreds of genes, through its interaction with specific genomic sequences; this activity allows expression of all these genes to be regulated in parallel, and enables cells to thereby alter their function. We review and describe future perspectives on SATB1 function in higher-order chromatin structure and gene regulation, and its role in metastasis of breast cancer and other tumor types.

SATB1

Chromatin structure

Cancer metastasis

Gene regulation

Nuclear architecture

Epigenetics

Tumor progression

Wnt-Signalwegsanalysen während der Metastasierung von Mamma-Karzinomen / Wnt-Signaling in Breast Cancer and Tumor Progression

Schubert, Antonia

21 November 2016

No description available.

610

Wnt

Breast Cancer

Tumor Progression

EMT

Dishevelled

ROR1/2

Metastasis

Etude de l’implication des récepteurs nicotiniques à l’acétylcholine dans le développement des cancers pulmonaires non à petites cellules / Study of the involvement of nicotinic acetylcholine receptors in the development of non-small cell lung cancer

Medjber, Kahina

30 January 2012

La progression tumorale est caractérisée par deux processus clés, la prolifération et l’invasion cellulaires. Les nAChRs, activés par la nicotine et ses nitrosamines dérivées (NNN et NNK), modulent les concentrations calciques intracellulaires et activent in vitro la prolifération, l’apoptose, la migration et l’invasion de lignées cellulaires tumorales. Dans cette étude, nous montrons, en utilisant des cultures primaires de cellules dérivées de cancers pulmonaires non à petites cellules (carcinomes épidermoïdes et adénocarcinomes), que les nAChRs α7 régulent différemment la prolifération cellulaire en fonction du stade de différenciation des tumeurs. Le nAChR α7 agit comme répresseur de la prolifération cellulaire dans les tumeurs bien différenciées et dans l’épithélium respiratoire normal, alors que dans les tumeurs peu différenciées, il stimule la prolifération cellulaire en réponse à la nicotine. A l’inverse, le nAChR α3α5β2 n’est que partiellement impliqué dans la régulation de la prolifération cellulaire aussi bien dans les tumeurs pulmonaires que dans l’épithélium respiratoire normal. Les nAChRs α7 et nAChRs α3α5β2 sont tous les deux impliqués dans la stimulation de l’invasion des cellules tumorales des carcinomes épidermoïdes et adénocarcinomes. Le polymorphisme non-synonyme rs16969968 de la sous-unité α5 induit une mutation au niveau d’un acide aminé hautement conservé (D398N). De nombreuses études d’association pangénomiques lient ce polymorphisme au développement des cancers pulmonaires. Dans cette étude nous montrons que les nAChRs exprimant la sous-unité α5 mutée (D398N) altèrent la prolifération et la différenciation des cellules respiratoires et modulent l’invasion des cellules tumorales, en synergie avec les nAChRs α7. / Tumor progression is characterized by two key processes, cell proliferation and invasion. Nicotinic receptors, activated by nicotine and its derived nitrosamines (NNK and NNN) modulate intracellular calcium concentrations and activate in vitro proliferation, apoptosis, migration and invasion of tumor cell lines. In this study, we show, by using primary cell cultures from lung cancer tumors, adenocarcinoma and squamous cell carcinoma, that nAChR α7 differently regulates cell proliferation according to the state of tumor differentiation. The α7 nAChRs acts as a repressor of cell proliferation in differentiated lung cancer tissues and in the normal respiratory epithelium, while it stimulates cell proliferation in response to nicotine, in poorly differentiated tumors. Conversely, the α3α5β2 nAChR is only partially involved in the regulation of cell proliferation in lung cancers and in the normal respiratory epithelium. The α7 and α3α5β2 nAChRs are both involved in the in vitro invasion process of adenocarcinoma and squamous cell carcinoma. Non-synonymous polymorphism rs16969968 in the CHRNA5 gene induces a mutation in a highly conserved amino acid (D398N). Many genome-wide association studies have demonstrated the relationship between this polymorphism and the incidence of lung cancer. In this study, we show that nAChRs, expressing the mutated α5 subunit (D398N), are in involved in the alteration of the proliferation and the differentiation state of respiratory epithelial cells, and also modulate tumor cell invasion, in synergy with the α7 nAChRs.

Récepteurs nicotiniques

Progression tumorale

Polymorphisme rs16969968

Nicotinic receptors

Non-small cell lung cancers

Tumor progression

Polymorphism rs16969968

Identification de gènes cibles d'ErbB380kDa et caractérisation de leur implication au cours de la progression du cancer de la prostate / Identification of ErbB380kDa target genes and characterization of their involvement in prostate cancer progression

Maassarani, Mahmoud El

28 August 2014

Pour croître et proliférer, les cellules cancéreuses de la prostate activent des voies de signalisation dépendantes des androgènes. L'intervention thérapeutique en première ligne du cancer de la prostate (CaP) s'appuie donc d’abord sur le blocage de l'axe androgènes-récepteur aux androgènes (RA) mais rapidement, les patients développent des tumeurs résistantes (CRPC, Castration Resistant Prostate Cancer).Les récepteurs à activité tyrosine kinase de la famille ErbB semblent jouer un rôle dans cette résistance, en particulier le récepteur ErbB3. En effet, l'inactivation des voies en aval d'ErbB1 et ErbB2, en association avec les anti-androgéniques n'empêche pas la progression vers l'hormono-indépendance, et une accumulation nucléaire d'ErbB3 est observée dans les CRPC en même temps que la voie PI3K-Akt est réactivée.Dans ce contexte, nous avons validé l'expression d'une isoforme nucléaire ErbB380kDa chez les patients et dans des lignées hormono-sensible (LNCaP) et hormono-résistante (PC3). Par ChIP-on-chip, nous avons isolé 353 promoteurs cibles communs aux deux lignées, 245 spécifiques à la lignée LNCaP et 925 à la lignée PC3, et montré qu'ErbB380kDa est un co-régulateur transcriptionnel des gènes étudiés, parmi lesquels GATA2. L'analyse in silico de ces promoteurs révèle des sites de liaison pour les facteurs de transcription GATA2 et MZF1 au niveau des régions liant ErbB380kDa. Un complexe nucléaire GATA2-MZF1-ErbB380kDa est retrouvé dans les cellules LNCaP et PC3.Des travaux récents montrent que GATA2 s'associe au RA pour réguler l'expression de gènes et qu'il pourrait être participer à la dissémination métastatique dans le CaP.Nos résultats suggèrent qu'ErbB380kDa pourrait jouer un rôle régulateur, en amont de GATA2, dans les processus de résistance et l'apparition de métastases. Cette isoforme nucléaire insensible aux traitements actuels apparaît donc comme une cible privilégiée pour le ciblage thérapeutique. / Prostate cancer (PCa) is dependent on androgens and functional androgen-receptor (AR) for growth and proliferation. Androgen-directed therapy is used at the first stages of the disease but cancer cells frequently become resistant (CRPC) by inappropriate reactivation of AR activity. As ErbB receptors are expressed in PCa cells, therapies aiming at inactivate the pathways downstream have been tested in advanced prostate cancers alongside hormone-based therapy. Still, a significant proportion of CRPC treated by ErbB1/2 inhibitors resist to treatment. ErbB3 could be responsible for this failure through both its unexpected nuclear localization and the reactivation of the PI3K-Akt pathway in those advanced tumors.We have described a nuclear ErbB380kDa isoform, expressed in hormone-sensitive (LNCaP) and hormone-resistant (PC3) PCa cell lines that accumulates in the nucleus of tumor cells during cancer progression. ChIP-on-chip experiments led us to characterize 353 target promoters binding ErbB380kDa in both cell lines; 245 promoters specific to LNCaP and 925 specific to PC3 cells, among which the promoter of GATA2. We show that ErbB380kDa functions as a transcriptional co-regulator for the studied genes, potentially through its interaction with transcription factors. In silico analysis revealed binding sites for GATA2 and MZF1 transcription factors on the target promoters, and a complex GATA2-MZF1-ErbB380kDa has been found in LNCaP and PC3 cells. Recent publications have reported a role for GATA2 in the regulation of RA responsive-genes and in metastatic spreading. We propose that ErbB380kDa could act, upstream of GATA2, to induce resistance mechanisms and facilitate cancer progression. Thus, ErbB380kDa emerges as a putative target for the development of new therapies in prostate cancer.

ErbB3 nucléaire

ChIP-On-Chip

Prostate

Régulateur transcriptionnel

Progression tumorale

Nuclear ErbB3

ChIP-On-Chip

Prostate

Transcription regulator

Tumor progression

572.87

Chromosomale Imbalancen invasiv duktaler und invasiv lobulärer Mammakarzinome detektiert mittels komparativer genomischer Hybridisierung (CGH)

Richard, Frank

13 December 1999

Das Ziel der vorliegenden Arbeit bestand in der molekularzytogenetischen Charakterisierung von invasiv duktalen und invasiv lobulären Mammakarzinomen sowie der Identifizierung unterschiedlicher genetischer Alterationsmuster in Tumorsubgruppen der invasiv duktalen Mammakarzinome. Mit Hilfe der komparativen genomischen Hybridisierung (CGH) wurden 30 invasiv duktale und 20 invasiv lobuläre Mammakarzinome auf genetische Veränderungen untersucht. In beiden Tumorarten überwiegen DNA-Deletionen gegenüber DNA-Gewinnen, daher scheint die Inaktivierung tumorsupprimierender Gene einen größeren Einfluß auf das maligne Wachstumsverhalten auszuüben. Invasiv duktale Mammakarzinome zeichnen sich durch eine im Mittel größere Anzahl an Alterationen pro Tumorfall aus als invasiv lobuläre Karzinome (14,9 vs. 8,9). Neben einer größeren Anzahl an DNA-Verlusten ist auch die Anzahl der DNA-Überrepräsentierungen deutlich höher verglichen mit invasiv lobulären Mammakarzinomen (6,2 pro Tumorfall vs. 2,7 pro Tumorfall). DNA-Gewinne auf Chromosom 1q und DNA-Verluste auf den Chromosomen 6q, 11q22- qter und 13q fanden sich in >=40% der Fälle in beiden histologischen Tumortypen. In invasiv duktalen Mammakarzinomen traten DNA-Gewinne mit größerer Frequenz auf den Chromosomen 6p, 8q, 11q13, 16p, 17q, 19p/q und 20q auf. Ebenfalls häufiger waren DNA-Deletionen auf den Chromosomen 2q, 3p, 4p/q, 5q, 7p, 8p, 9q, 10q und 15q zu finden. DNA-Verluste auf den Chromosomen 16q, 17p, 18q und 22q wurden dagegen vermehrt in invasiv lobulären Karzinomen detektiert. Gut (G1) und schlecht (G3) differenzierte invasiv duktale Mammakarzinome zeichnen sich durch ein unterschiedliches genetisches Muster aus. Während gut differenzierte Tumore durch DNA-Gewinne auf 1q, 11q11-13, 16p und 20q gekennzeichnet sind, weisen die schlecht differenzierten Tumore zusätzlich DNA-Deletionen im Bereich der Chromosomen 5q, 18q und 21q21 auf. Außerdem läßt sich ein unterschiedliches genetisches Muster bei Östrogenrezeptor- positiven und Östrogenrezeptor-negativen invasiv duktalen Mammakarzinomen feststellen. Die Östrogenrezeptor-negativen Tumore zeigen eine größere Anzahl an Alterationen, dazu gehören zusätzliche DNA-Überrepräsentierungen auf 1p, 6p und 22q und DNA-Verluste der Chromosomen 5q, 7p, 8p und 12q. Somit läßt sich feststellen, daß sich invasiv duktale und invasiv lobuläre Mammakarzinome durch ein wiederkehrendes Muster chromosomaler Veränderungen charakterisieren lassen. / The aim of the study was to analyze invasive ductal and invasive lobular breast carcinomas regarding to molecular DNA imbalances as well as different DNA imbalances in tumor subgroups of the invasive ductal carcinomas. Comparative genomic hybridization (CGH) was applied to analyze 30 invasive ductal and 20 invasive lobular breast carcinomas to carry out genetic alterations. In both tumor subgroups, DNA losses showed a higher incidence compared to DNA gains, suggesting a higher influence of inactivation of tumor suppressor genes in tumor progression. Invasive ductal carcinomas showed a higher incidence of alterations per case compared to invasive lobular carcinomas (14,9 vs. 8,9). Besides a higher incidence of DNA losses, particularly DNA gains were statistically significant in invasive ductal carcinomas (6,2 per tumorcase vs. 2,7 per tumorcase). DNA gains on chromosome 1q and DNA losses on chromosomes 6q, 11q22-qter and 13q were investigated in >=40% of all tumor cases. DNA gains were observed with a higher frequency in invasive ductal carcinomas on 6p, 8q, 11q13, 16p, 17q, 19p/q and 20q. Additionally, DNA losses showed a higher incidence on 2q, 3p, 4p/q, 5q, 7p, 8p, 9q, 10q and 15q compared to invasive lobular carcinomas. In contrast, DNA losses on 16q, 17p, 18q and 22q reached statistical significance in invasive lubular carcinomas. Well-differentiated (G1) and poorly differentiated (G3) invasive ductal carcinomas reflected different genetic imbalances. Well-differentiated carcinomas are associated with DNA gains on 1q, 11q11-13, 16p and 20q, whereas poorly differentiated tumors showed additional DNA losses on 5q, 18q and 21q21. Furthermore, the investigation indicated that the average number of alterations is correlated also to the estrogen receptor content of the invasive ductal carcinomas. Tumors with estrogen receptor negative content showed a higher incidence of alterations on the following regions, i.e., DNA gains on 1p, 6p and 22q and DNA losses on 5q, 7p, 8p and 12q. Consequently, invasive ductal and invasive lobular carcinomas are characterized by distinct patterns of chromosomal alterations.

Mammakarzinom

Genetik

CGH

Tumorprogression

breast cancer

CGH

genetics

tumor progression

610 Medizin

33 Medizin

XH 8450

ddc:610

Contribuição da atividade física aeróbia para a resposta imune antitumoral / The contribution given by the aerobic physical activity to the antitumor immune response

Tobias, Gabriel Cardial

24 October 2017

A atividade física aeróbia reduz a incidência de diversos tipos de câncer e atenua o crescimento tumoral. Entretanto, existe uma lacuna na literatura sobre os mecanismos envolvidos nessa resposta. Dados recentes demonstram a importância da manutenção da função da resposta imune antitumoral para a atenuação da progressão da doença e estratégias capazes de aumentar essa resposta permanecem como um grande desafio. Diante disso, delineamos um estudo experimental para investigar especificamente a possível contribuição da atividade física aeróbia para a resposta imune antitumoral. Na presente dissertação, nós demonstramos que a atividade física aeróbia possui o potencial alterar a resposta de marcadores relacionados a resposta imune antitumoral. Em um primeiro estudo, observamos que a atividade física aeróbia atenuou o crescimento tumoral em três diferentes modelos de câncer em animais, assim como aumentou a sobrevida de animais com melanoma B16F10. Além disso, nós observamos que a atividade física aeróbia também altera a expressão gênica de marcadores de os linfócitos T infiltrantes de tumor (do inglês tumor infiltrating lymphocytes T - TILs-T) e de macrófagos associados ao tumor (do inglês tumor-associated macrophages - TAMs). Em segundo estudo, nosso objetivo foi explorar através de análises in silico respostas imunes tumorais que poderiam estar sendo moduladas pela atividade física aeróbia. Por meio da análise de Gene Set Enrichment Analysis (GSEA), observamos que a atividade física aeróbia prévia gerou uma assinatura imunológica tumoral semelhante à de pacientes com diferentes tipos de câncer e maior sobrevida. Essa assinatura imunológica revelou que pacientes com câncer de mama e melanoma que apresentam alta expressão gênica de BTG2, CD69, CFH, DUSP1 e PTGER4 em seus tumores, apresentam maior sobrevida em comparação aos pacientes com baixa expressão desses genes em seus tumores. A análise de GSEA também demonstrou que a atividade física aeróbia foi capaz de induzir uma assinatura imunológica semelhante à de animais com melanoma B16F10 sensíveis ao tratamento com o imunoterápico anti-CTLA-4 (do inglês anti- cytotoxic T-lymphocyte-associated antigen 4) e pacientes pós-tratamento com anti-CTLA-4. Essa assinatura imunológica também revelou que pacientes com melanoma que apresentam alta expressão gênica de PHC3, TET2, MACF1 e PARP8 em seus tumores, apresentam maior sobrevida em comparação aos pacientes com baixa expressão desses genes em seus tumores. Em conclusão, a atividade física aeróbia demonstra-se como uma potente ferramenta no combate a progressão da doença / It is already very well accepted that the aerobic physical activity reduces the incidence of many different types of cancer and mitigates the tumor progression. However, there is an investigation gap on the literature about the mechanisms underlying this response. Recently, a body of literature has arisen which show the importance of maintain antitumoral immune response to mitigated tumor progression, and strategy for enhance this response remains a major challenge. Presently, we demonstrate that the aerobic physical activity has the potential to modulate antitumor immune responses. Firstly, we have observed that the aerobic physical activity mitigated the tumor progression in three different animal models of cancer and increased survival in the animals which had B16F10 melanoma. Moreover, we have observed that the aerobic physical activity also seems modulate the tumor infiltrating T lymphocytes (TILs-T) and the tumor associated macrophages (TAMs) in as specific-tumor way. Based on the computer gene set enrichment analysis (GSEA), we have observed that the previous aerobic physical activity helped to develop an immunological signature of the tumor shared among patients with different cancer etiologies with higher survival over time. This signature introduced us to some genes that are associated with a higher survival over time when increased in tumors of patients with melanoma, breast cancer and lymphoma. The GSEA analysis also shows that the aerobic physical activity is able to introduce an immune signature similar to the one observed in animals with B16F10 melanoma sensitive to the immunotherapic anti- cytotoxic T-lymphocyte-associated antigen 4 (anti-CTLA-4) and patients post treatment with anti-CTLA-4. This immune signature also revealed genes with a strong association with high survival over time. This immune signature also revealed genes associated with a higher survival over time when their expression were increased in melanoma patients. In conclusion, aerobic physical activity is a powerful tool to counteract tumor progression due to its capacity to modulate antitumor immune responses

Aerobic physical activity

Antitumor immune response

Atividade física aeróbia

Cancer

Câncer

Crescimento tumoral

GSEA

GSEA

Resposta imune antitumoral

Tumor progression

Relação da expressão da DPPIV/CD26 com a progressão tumoral do carcinoma cervical humano e proteínas oncogênicas do HPV

Beckenkamp, Aline

January 2017

O câncer cervical é uma neoplasia muito prevalente na população feminina e está associado à infecção pelo papilomavírus humano (HPV). As oncoproteínas E6 e E7 de HPV de alto risco são as principais responsáveis pelas alterações celulares que levam ao desenvolvimento deste tipo tumoral. A dipeptidil peptidase IV (DPPIV/CD26) é uma enzima que exerce importantes funções relacionadas à progressão tumoral. Diversos estudos demonstram alterações na expressão e atividade desta proteína em diferentes tipos de câncer. Tendo em vista a relação entre a DPPIV/CD26 e o câncer, e que ainda não existem estudos relacionando esta proteína ao câncer cervical, neste estudo inicialmente investigamos a expressão e atividade da DPPIV/CD26 em linhagens celulares de carcinoma cervical humano (SiHa, HeLa e C33A) e em queratinócitos imortalizados (HaCaT). Nossos resultados demonstram uma baixa expressão da DPPIV/CD26 nas linhagens celulares estudadas, sendo praticamente indetectável na linhagem HeLa. Foi verificada a atividade enzimática dipeptidilpeptidásica tanto ligada à membrana quanto solúvel em todas as linhagens. Na presença do inibidor de DPPIV/CD26 (fosfato de sitagliptina) observamos que a linhagem SiHa apresentou um aumento na migração celular, e assim sugerimos que ao menos em parte a migração nesta linhagem é regulada pela atividade enzimática da DPPIV/CD26. A fim de investigar a relação da expressão da DPPIV/CD26 com as oncoproteínas E6 e E7 do HPV, avaliamos sua expressão em queratinócitos normais e transduzidos com estas oncoproteínas. Verificamos que queratinócitos expressando E6 de HPV de alto risco apresentam uma redução na expressão da DPPIV/CD26, e esta regulação parece ser dependente da degradação da p53. Considerando que as linhagens celulares estudadas apresentam baixa expressão e atividade da DPPIV/CD26, para melhor compreender a importância da expressão desta proteína, nós induzimos a superexpressão da DPPIV/CD26 em linhagem de câncer cervical (HeLa) para posterior avaliação dos efeitos em diferentes mecanismos tumorais. Os resultados demonstram uma redução no crescimento de células expressando DPPIV/CD26, sendo este efeito independente da atividade enzimática. Além disso, foi demonstrado que a indução da expressão de DPPIV/CD26 não afeta os mecanismos de migração e adesão celular na linhagem HeLa. Sendo assim, acreditamos que o esclarecimento do papel da DPPIV/CD26 no contexto do câncer cervical possibilita que novas abordagens diagnósticas e terapêuticas sejam implementadas no futuro. / Cervical cancer is a very prevalent neoplasm in female population and is associated with human papillomavirus (HPV) infection. The high risk HPV E6 and E7 oncoproteins are responsible for cellular alterations that lead to the development of this tumor type. The dipeptidyl peptidase IV (DPPIV/CD26) is an enzyme that exerts important functions related to tumor progression. Several studies have shown changes in the expression and activity of this protein in different types of cancer. Considering the relationship between DPPIV/CD26 and cancer, and that there are still no studies relating this protein to cervical cancer, in the present study we first investigated the DPPIV/CD26 expression and activity in human cervical carcinoma cell lines (SiHa, HeLa and C33A) and in immortalized keratinocytes (HaCaT). Our results demonstrate a low DPPIV/CD26 expression in the studied cell lines, being almost undetectable in HeLa cell line. The dipeptidylpeptidasic enzymatic activity was verified both membrane bound and in the soluble form in all cell lines. In the presence of the DPPIV/CD26 inhibitor (sitagliptin phosphate) we observed that SiHa cell line showed an increase in cell migration, thus we suggest that at least in part cell migration in this cell line is regulated by DPPIV/CD26 enzymatic activity. In order to investigate the relationship between DPPIV/CD26 expression and HPV E6 and E7 oncoproteins, we evaluated the expression of this protein in normal keratinocytes or transduced with these oncoproteins. We have found that keratinocytes expressing high-risk HPV E6 present a reduction in DPPIV/CD26 expression, and this regulation appears to be dependent on p53 degradation. Considering that the cell lines studied have low DPPIV/CD26 expression and activity, in order to better understand the importance of the expression of this protein, we induced the DPPIV/CD26 overexpression in a cervical cancer cell line (HeLa) for further evaluation of the effects on different tumor mechanisms. The results demonstrate a reduction in cell growth of DPPIV/CD26 expressing cells, being this effect independent of the enzymatic activity. In addition, it has been demonstrated that the induction of DPPIV/CD26 expression does not affect the cell migration and adhesion mechanisms in the HeLa cell line. Thus, we believe that the elucidation of the DPPIV/CD26 role in the context of cervical cancer enables new diagnostic and therapeutic approaches to be implemented in the future.

Carcinoma

Papilomavírus humano : HPV

DPPIV/CD26

Cell growth

Therapeutic target

Biomarker

Tumor progression

p53

HPV

Sitagliptin phosphate

Cervical cancer

Rôle de CD5 dans la potentialisation de la réponse T cytotoxique et dans le contrôle de la progression tumorale dans un modèle in vivo / Role of CD5 in control of antitumor immune response

Tabbekh, Mouna

15 June 2011

Un des défis majeurs de l’immunologie antitumorale repose sur l’induction efficace et prolongée de laphase effectrice de la réponse immune antitumorale. Une meilleure compréhension des mécanismesimpliqués dans la potentialisation de l’activité antitumorale des effecteurs immunitaires, en particulier lesCTL infiltrant la tumeur représente donc un enjeu considérable dans le développement de nouvellesapproches d’immunothérapie visant à induire une réponse immunitaire spécifique efficace contre latumeur. Dans ce contexte, nous nous sommes particulièrement intéressés à étudier le rôle de CD5 dans lecontrôle de la progression tumorale, en particulier dans la potentialisation de l’activité T cytotoxique desCTL infiltrant le mélanome B16 in vivo. Nos résultats ont montré un ralentissement significatif de lacroissance tumorale chez des souris déficientes pour l’expression de CD5 comparées à leurs équivalentessauvages. Le contrôle de la progression de la tumeur chez les souris CD5-/- ne semble pas corréler avec unrecrutement plus important de lymphocytes T, mais avec une efficacité accrue de leur réactivité vis-à-visdu mélanome B16. Nous avons montré aussi que cette réponse est transitoire et qu’un échappementtumoral au système immunitaire ait lieu à un stade plus tardif de la progression de la tumeur. Cetéchappement tumoral semble être associé à une augmentation de la mort par AICD des TIL CD8+/CD5-par rapport aux TIL CD8+/CD5+ et ce par induction de FasL à la surface des TIL. La modulation de la voieFas/FasL in vivo avec un adénovirus Fas-Fc protège les lymphocytes T CD8+/CD5- infiltrant la tumeur dela mort par apoptose et empêche ainsi l’échappement tumoral. De plus, l’analyse du répertoirelymphocytaire T spécifique du mélanome B16 dans les souris CD5-/- suggère que le contrôle de laprogression de la tumeur serait lié à une meilleure prolifération de lymphocytes T CD5-/- spécifiques insitu. Nos résultats montrent aussi que l’immunisation des souris CD5-/- en utilisant des Ag tumorauxassociés au mélanome B16 contribue à la potentialisation de la réponse immunitaire antitumorale.L’ensemble de nos résultats soulignent un intérêt particulier du ciblage de CD5 pour améliorer lesapproches d’immunothérapie antitumorale actuelles. / A major challenge in tumor immunology is based on effective and prolonged induction of the effectorphase of antitumor immune response. A better understanding of the mechanisms involved in potentiatingthe antitumor activity of immune effectors, particularly the CTL infiltrating the tumor represents aconsiderable challenge in developing new approaches to immunotherapy. In this context we areparticularly interested in studying the role of CD5 in the control of tumor progression, particularly inpotentiating the cytotoxic activity of CTLs infiltrating B16 melanoma. Our results showed a significantdelay in tumor growth in CD5-/- mice as compared with wild type mice. The control of tumor growth inCD5-/- mice does not seem to correlate with a higher recruitment of T cells, but with increased cytotoxicityof infiltrating T cells against B16 cells. We have also shown that this response is transient and that thetumor escape from immune system takes place at a later stage of tumor progression. This tumor escapeappears to be associated with increased death by AICD of TIL CD8+ from CD5-/- mice as compared withTIL CD8+ from wild type mice wich correlated with the induction of FasL on the surface of TIL. In vivomodulation of Fas/FasL with an adenovirus AdFas-Fc protects tumor infiltrating T CD8+/CD5- fromapoptosis and thereby prevents the tumor escape. In addition, analysis of specific T lymphocyte repertoirein CD5-/- mice suggests that the control of tumor progression could be linked to a greater in situproliferation of specific CD5- T lymphocytes. Our results also show that immunization of CD5-/- miceusing different melanoma associated antigens contributes to the potentiation of antitumor immuneresponse. All these results highlight a particular interest in targeting of CD5 to improve currentapproaches to tumor immunotherapy.

Souris CD5-/-

Progression tumorale

Melanome

AICD

TIL

Vaccination

CD5 KO mice,

Tumor progression,

Melanoma

AICD

TIL

Vaccination

Relação da expressão da DPPIV/CD26 com a progressão tumoral do carcinoma cervical humano e proteínas oncogênicas do HPV

Beckenkamp, Aline

January 2017

O câncer cervical é uma neoplasia muito prevalente na população feminina e está associado à infecção pelo papilomavírus humano (HPV). As oncoproteínas E6 e E7 de HPV de alto risco são as principais responsáveis pelas alterações celulares que levam ao desenvolvimento deste tipo tumoral. A dipeptidil peptidase IV (DPPIV/CD26) é uma enzima que exerce importantes funções relacionadas à progressão tumoral. Diversos estudos demonstram alterações na expressão e atividade desta proteína em diferentes tipos de câncer. Tendo em vista a relação entre a DPPIV/CD26 e o câncer, e que ainda não existem estudos relacionando esta proteína ao câncer cervical, neste estudo inicialmente investigamos a expressão e atividade da DPPIV/CD26 em linhagens celulares de carcinoma cervical humano (SiHa, HeLa e C33A) e em queratinócitos imortalizados (HaCaT). Nossos resultados demonstram uma baixa expressão da DPPIV/CD26 nas linhagens celulares estudadas, sendo praticamente indetectável na linhagem HeLa. Foi verificada a atividade enzimática dipeptidilpeptidásica tanto ligada à membrana quanto solúvel em todas as linhagens. Na presença do inibidor de DPPIV/CD26 (fosfato de sitagliptina) observamos que a linhagem SiHa apresentou um aumento na migração celular, e assim sugerimos que ao menos em parte a migração nesta linhagem é regulada pela atividade enzimática da DPPIV/CD26. A fim de investigar a relação da expressão da DPPIV/CD26 com as oncoproteínas E6 e E7 do HPV, avaliamos sua expressão em queratinócitos normais e transduzidos com estas oncoproteínas. Verificamos que queratinócitos expressando E6 de HPV de alto risco apresentam uma redução na expressão da DPPIV/CD26, e esta regulação parece ser dependente da degradação da p53. Considerando que as linhagens celulares estudadas apresentam baixa expressão e atividade da DPPIV/CD26, para melhor compreender a importância da expressão desta proteína, nós induzimos a superexpressão da DPPIV/CD26 em linhagem de câncer cervical (HeLa) para posterior avaliação dos efeitos em diferentes mecanismos tumorais. Os resultados demonstram uma redução no crescimento de células expressando DPPIV/CD26, sendo este efeito independente da atividade enzimática. Além disso, foi demonstrado que a indução da expressão de DPPIV/CD26 não afeta os mecanismos de migração e adesão celular na linhagem HeLa. Sendo assim, acreditamos que o esclarecimento do papel da DPPIV/CD26 no contexto do câncer cervical possibilita que novas abordagens diagnósticas e terapêuticas sejam implementadas no futuro. / Cervical cancer is a very prevalent neoplasm in female population and is associated with human papillomavirus (HPV) infection. The high risk HPV E6 and E7 oncoproteins are responsible for cellular alterations that lead to the development of this tumor type. The dipeptidyl peptidase IV (DPPIV/CD26) is an enzyme that exerts important functions related to tumor progression. Several studies have shown changes in the expression and activity of this protein in different types of cancer. Considering the relationship between DPPIV/CD26 and cancer, and that there are still no studies relating this protein to cervical cancer, in the present study we first investigated the DPPIV/CD26 expression and activity in human cervical carcinoma cell lines (SiHa, HeLa and C33A) and in immortalized keratinocytes (HaCaT). Our results demonstrate a low DPPIV/CD26 expression in the studied cell lines, being almost undetectable in HeLa cell line. The dipeptidylpeptidasic enzymatic activity was verified both membrane bound and in the soluble form in all cell lines. In the presence of the DPPIV/CD26 inhibitor (sitagliptin phosphate) we observed that SiHa cell line showed an increase in cell migration, thus we suggest that at least in part cell migration in this cell line is regulated by DPPIV/CD26 enzymatic activity. In order to investigate the relationship between DPPIV/CD26 expression and HPV E6 and E7 oncoproteins, we evaluated the expression of this protein in normal keratinocytes or transduced with these oncoproteins. We have found that keratinocytes expressing high-risk HPV E6 present a reduction in DPPIV/CD26 expression, and this regulation appears to be dependent on p53 degradation. Considering that the cell lines studied have low DPPIV/CD26 expression and activity, in order to better understand the importance of the expression of this protein, we induced the DPPIV/CD26 overexpression in a cervical cancer cell line (HeLa) for further evaluation of the effects on different tumor mechanisms. The results demonstrate a reduction in cell growth of DPPIV/CD26 expressing cells, being this effect independent of the enzymatic activity. In addition, it has been demonstrated that the induction of DPPIV/CD26 expression does not affect the cell migration and adhesion mechanisms in the HeLa cell line. Thus, we believe that the elucidation of the DPPIV/CD26 role in the context of cervical cancer enables new diagnostic and therapeutic approaches to be implemented in the future.

Carcinoma

Papilomavírus humano : HPV

DPPIV/CD26

Cell growth

Therapeutic target

Biomarker

Tumor progression

p53

HPV

Sitagliptin phosphate

Cervical cancer