Global ETD Search

171	Empéripolèse des cellules de lymphomes humains Ramos par les fibroblastes Oualha, Nadia 12 1900 (has links) No description available. Microenvironnement tumoral Stroma tumoral Fibroblastes associés au cancer VCAM-1 VLA-4 vimentine Migration transcellulaire Ramos Cellules de lymphome Tumor microenvironment Tumor stroma Cancer-associated-fibroblasts Vimentin Lymphoma cells Transcellular migration
172	Dipeptidyl peptidáza-IV a Fibroblastový aktivační protein v gliomagenezi. / Dipeptidyl peptidase-IV and Fibroblast activation protein in gliomagenesis. Trylčová, Jana January 2018 (has links) "Dipeptidyl peptidase-IV Activity and/or Structure Homologues"(DASH) represent a newly defined group of multifunctional molecules, typically bearing dipeptidyl peptidase-IV- like hydrolytic activity. Dipeptidyl peptidase-IV (DPP-IV) cleaves out X-Pro dipeptides from the N-terminus of peptides. Other molecules carrying similar enzyme activity, such as Fibroblast activation protein (FAP), DPP-II, DPP8 and DPP9 or even DPP-IV structure-like but hydrolytically inactive molecules (DPP6 and DPP10) also belong to this group. Recent knowledge suggest a substantial role of DASH in cancer pathogenesis. The aim of this study is a preparation of a biological model and its use for understanding the mechanisms of interaction(s) between transformed glial cells and stroma in the processes of origin and development of tumors derived from neuroectoderm. Stable transfected human glioblastoma cell lines with inducible gene expression of DPP-IV, Fibroblast activation protein and their enzymatically inactive mutated forms, were prepared within the project. Prepared cell lines are used as a tool for studying not only the "autocrine" importance of DPP-IV and FAP for the expressing cells in in-vitro, but also for their potential "paracrine" effect(s) within the tumor microenvironment after homotopic implantation into the...
173	Influência do microambiente no prognóstico do câncer da mama / Influence of the microenvironment on breast cancer prognosis Fabiana Baroni Alves Makdissi 19 February 2014 (has links) Introdução: Os cânceres de mama subtipos Luminal A e B (HER2 negativo) podem apresentar prognóstico variável, a depender do índice de proliferação, avaliado pelo Ki67. As células malignas e as células estromais adjacentes (fibroblastos e células de resposta imune ) podem interagir tanto pelo contato célula a célula como por fatores secretados por elas, ambas influenciando no comportamento tumoral. Já foi demonstrado que as células estromais podem aumentar a proliferação das células do câncer da mama. Objetivo: Nosso objetivo foi avaliar o perfil de expressão gênica de células do estroma em câncer de mama luminal A e luminal B e analisar se este se correlaciona com o prognóstico da doença. Pacientes e Métodos/ Resultados: Amostras de tumores de 11 pacientes na pós menopausa foram analisadas, todas elas HER2 negativas. A expressão de Ki67 foi <= 10 % em 5 pacientes (luminal A) e >= 30 % em outras 6 amostras(Luminal B ). Células estromais foram microdissecadas para a extração de RNA, que posteriormente foi hibridizado na plataforma de microarray Agilent G485 -1A GE 8x60K. Após a normalização, 50 % dos genes com a maior variância foram selecionados para análise por SAM duas classes desemparelhado (software TMEV ) e aceitando FDR 14.1%, 35 sequências foram identificadas como diferencialmente expressas, incluindo 16 genes conhecidos, entre as células estromais das amostras de Luminal A versos Luminal B, todos mais expressos nas amostras B. Dentre as funções biológicas enriquecidas em genes diferencialmente expressos encontram-se regulação positiva do sistema imune, incluindo genes como ZAP70 (proteína quinase 70kDa associada a cadeia zeta (TCR)), CD38 (molécula CD38); UBASH3A (ubiquitina associada e SH3 domínio que contém A); PLA2G7 (fosfolipase A2, grupo VII (fator acetil ativador de plaquetas no plasma)); NCR3 (citotoxicidade natural, provocando receptor 3). Nosso próximo passo foi avaliar se a expressão de alguns genes selecionados estava associada com prognóstico de tumores luminais. Para tal selecionamos amostras de outro grupo de 89 pacientes com seguimento de pelo menos 5 anos, cujos tumores eram ER(+), HER2(-), para análise de expressão proteica em Tissue microarray. Caracterizamos os fibroblastos destas amostras com 3 marcadores de fibroblastos: actina de músculo liso (AML), S100A4 e caveolina-1 (CAV1) e analisamos a marcação da proteína ZAP70. Correlacionamos a expressão proteica de todos os marcadores com as características anatomopatológicas da amostra. Observamos que fibroblastos de todas as amostras de tumor de mama expressam AML, S100A4 e CAV1, em diferentes proporções, entretanto não detectamos diferença entre os tumores luminais A e B. Também não obsevamos diferença de expressão de AML, S100A4 e CAV1 em relação a grau histológico, comprometimento linfonodal e estadiamento clínico. Nestas amostras não detectamos expressão proteica de ZAP70 em fibroblastos tumorais. Conclusão: Houve expressão diferencial de 16 genes relacionados a processos imunes, todos eles mais expressos em células estromais de tumores Luminal B em relação a luminal A / Introduction: Luminal breast cancer subtypes A and B (HER2 negative) may present a variable prognosis, depending on tumor proliferation index, evaluated by Ki67 expression. Malignant cells and adjacent stromal cells (fibroblasts and immune response cells) may interact by both cell contact and secreted factors and influence tumor behavior. It was shown that stromal cells may enhance breast cancer cells proliferation. Objective: Our aim was to evaluate stromal cells gene expression profile in luminal A and luminal B tumors and to evaluate whether selected transcripts expressed in stromal cells may be associated with prognosis in breast cancer. Material/ Methods and Results: Hormone receptor positive tumor samples from 11 post menopausal patients were analyzed, all of them Her2 negative. Ki67 expression <= 10% (luminal A) was observed in five and Ki67 >= 30% (luminal B) in six samples. Stromal cells were microdissected for RNA extraction, which was hybridized in Agilent G485-1A GE 8x60K microarray platform. After normalization, 50% of the genes with the highest variance were selected for further analysis by two class unpaired SAM (TMEV software) and accepting FDR 14,1%, 35 sequences, including 16 known genes, were found differentially expressed between stromal cells from luminal A vs luminal B breast cancer samples, all of them more expressed in luminal B. Among biological functions enriched in genes found differentially expressed were positive regulation of immune system process, including genes as: ZAP70 (zeta-chain (TCR) associated protein kinase 70kDa); CD38 (CD38 molecule); UBASH3A (ubiquitin associated and SH3 domain containing A); PLA2G7 (phospholipase A2, group VII (platelet-activating factor acetylhydrolase, plasma); NCR3 (natural cytotoxicity triggering receptor 3). Our next step was evaluate whether expression of selected genes was associated with prognosis in another group of patients. Tumor samples from 89 patients with at least 5 years of follow up, all of them estrogen receptor positive and HER2 negative, were selected. Tissue microarray was prepared with stromal tumor compartment from paraffin embedded tumor samples. Fibroblasts were characterized for the expression of 3 fibroblasts markers (alfa-SMA, alpha smooth muscel actin; S100A4 and CAV1, caveolin 1), and ZAP70. Correlation of expression of these markers with prognostic variables was determined. Expression of alfa-SMA, S100A4 and CAV1 was detected in fibroblasts from all tumor samples in different proportions, however no differential expression was observed between luminal A and B tumors. Neither difference was detected on the expression of these proteins in relation with histological grade, lymph node involvement and clinical stage. Conclusion: A differential expression of 16 genes involved in immune process was found, all of them more expressed in fibroblasts from luminal B as compared with luminal A tumors Células estromais Expressão gênica Fibroblastos Microambiente tumoral Neoplasias de mama Neoplasias de mama/classificação Processos do sistema imunológico Receptores estrogênicos Breast neoplasms Breast neoplasms/classification Fibroblasts Gene expression Immune system process Receptors estrogen Stromal cells Tumor microenvironment
174	Perfil transcricional de fibroblastos de tumor primário, linfonodo e medula óssea de pacientes com câncer de mama / Transcriptional profile of fibroblasts obtained from primary tumor, lymph node and bone marrow of breast cancer patients Paulo Roberto Del Valle 01 March 2013 (has links) Introdução: Em câncer de mama, existem evidências de que o microambiente pode influenciar o desenvolvimento do tumor no sítio primário, bem como em metástases regionais e a distância. Neste contexto, fibroblastos são importantes células estromais que podem influenciar a proliferação e a migração de células do câncer e podem prover um nicho apropriado para o desenvolvimento tumoral. Objetivos:O principal objetivo deste trabalho é comparar células estromais obtidas do tumor primário (PT), metástase linfonodal (N+) e medula óssea (BM) de pacientes com câncer de mama, através do perfil de expressão gênica. Pacientes e Métodos: Foi analisada a expressão gênica de fibroblastos (cultura primária) de 11 pacientes com câncer de mama. O perfil de expressão foi determinado em PT (n=4), N+(n=3) e BM (n=4) através de uma plataforma de cDNA microarray customizada (contendo 4.800 sequencias imobilizadas, representando cerca de 4600 genes), e os genes diferencialmente expressos foram identificados pelo teste SAM multiclasse, seguido pelo teste SAM de duas classes (TMEV, FDR 0%). A análise funcional foi realizada pelo software DAVID v6.7. Validação técnica foi realizada em 6 amostras previamente analisadas no microarray e a validação biológica em fibroblastos obtidos de outros 16 pacientes utilizando-se de RT-qPCR. Resultados: O perfil de expressão gênica dos fibroblastos obtidos de diferentes sítios mostraram 267 genes diferencialmente expressos, os quais apropriadamente agruparam os fibroblastos de acordo com suas origens (PT vs. N+ vs. BM). Apesar das diferenças entre PT e N+ serem representadas por 20 genes, as diferenças entre PT vs. BM e N+ vs BM foram mais significantes (235 e 245 genes diferencialmente expressos respectivamente). Análise funcional dos genes diferencialmente expressos mostrou enriquecimento de funções relacionadas ao desenvolvimento e morfogênese.A seguir, a expressão de alguns genes selecionados foi analisada em uma série diferente de amostras (validação biológica). Desse modo observamos que NOTCH2 confirmou uma alta expressão em N+ (vs. PT), e ADCY2, HECTD1, HNMT, LOX, MACF1 e USP16 confirmaram alta expressão em BM (vs PT). Conclusão:Em pacientes com câncer de mama, células estromais obtidas de diferentes origens apresentam um perfil de expressão gênica diferencial, o qual pode influenciar o comportamento do tumor / may influence tumor development in the primary site of breast cancer, as well as in regional and distant metastatic sites. In this context, fibroblasts are important stromal cells which influence proliferation and migration of cancer cells and may also provide an appropriate niche to tumor development. Objectives: The main objective of this work is the comparison of stromal cells from the primary tumor (PT), lymph node metastasis (N+) and bone marrow (BM) obtained from breast cancer patients, through gene expression profile. Patients and Methods: The gene expression profile was analyzed in fibroblasts primary culture from 11 breast cancer patients. The expression profiles of PT cells (n=4), N+ cells (n=3) and BM cells (n=4) were determined through a customized cDNA microarray platform (containing 4800 immobilized sequences which represents 4600 genes approximately). The analysis were performed by SAM multiclass (TMEV; FDR 0%), followed by SAM two classes test (TMEV; FDR 0%). Functional analysis was performed using DAVID v6.7. Technical validation was performed in same 6 samples that were previously analyzed in microarray experiments and biological validation was performed in fibroblasts obtained from other group of 16patients by RT-qPCR Results: The expression profile of fibroblasts obtained from three sites revealed 267 differentially expressed genes, which appropriately clustered fibroblasts in three different branches, in accordance with their origin (PT vs. N+ vs. BM). Although the differences between PT and N+ were represented by 20 genes, differences between PT vs. BM and N+ vs. BM were more significant (235 and 245 differentially expressed genes respectively). Functional analysis revealed enrichment of functions related to development and morphogenesis. Afterwards, the expression of some selected genes were analyzed in a different batch of samples (biological validation).Thereby, NOTCH2 confirmed high expression in N+ (vs. PT), and ADCY2, HECTD1, HNMT, LOX, MACF1 and USP16 confirmed high expression in BM (vs. PT). Conclusion: In breast cancer patients, stromal cells obtained from different origins present a differential gene expression profile, which may influence tumor behavior Células mesenquimais estromais Fibroblastos Linfonodos Medula óssea Microambiente tumoral Neoplasias da mama Bone marrow Breast neoplasm Fibroblasts Gene expression profiling Lymph node Mesenchymal stromal cells Tumor microenvironment
175	The microenvironment is essential for OTSCC progression Alahuhta, I. (Ilkka) 25 October 2016 (has links) Abstract The tumor microenvironment (TME) is critically important for tumor development. The microenvironment consists of fibroblasts, endothelial and immune cells as well as extracellular matrix (ECM), proteases and various other soluble factors produced by the cells. It is challenging to develop methods that appropriately mimic the human microenvironment, but this effort is essential in order to reliably elucidate the properties of potential anti-tumor drugs. The aim of this study was to create new 3D organotypic invasion models based on human tissue that would be used to study the effects of the anti-angiogenic molecules arresten and endostatin on tongue squamous carcinoma cells. The classic way to study cancer invasion has been to use a collagen invasion model that is created by mixing rat type I collagen, matrix produced by mouse EHS tumor cells and human fibroblasts. Our research group has developed a novel human myoma tissue based invasion model, which is composed of several different cell types and molecules that are normally present in the human TME. We show how this model is suitable for invasion studies, not only for oral cancer, but for other invasive cell lines as well. There are several matrix-derived fragments that have been shown to possess anti-angiogenic activity. Arresten is a 26 kDa fragment that is cleaved from type IV collagen and is known to inhibit angiogenesis, the formation of new capillaries and tumor growth in vivo. However, its effect on the tumor microenvironment in addition to endothelial cells has not been studied. We show that arresten also directly affects oral cancer cells by decreasing their migration and invasion as well as tumor size, invasion and angiogenesis in in vivo mouse xenografts. Another inhibitor of angiogenesis, endostatin, is cleaved from type XVIII collagen. It has been shown to suppress angiogenesis and tumor growth without toxicity or side effects in mouse models. Our studies show that endostatin directly affects tongue squamous carcinoma cells by reducing their invasion and spreading in organotypic 3D assays and mouse tumor models. In summary, arresten and endostatin are anti-angiogenic as well as anti-invasive molecules and therefore potential cancer drugs. They seem to have a direct effect on carcinoma cells making the cells less invasive. The myoma model allows us to study the effects of anti-cancer molecules with a new prospective. / Tiivistelmä Syövän mikroympäristö on erittäin tärkeä syövän kehittymisen kannalta. Se koostuu fibroblasteista, endoteeli- ja immuunisoluista, soluväliaineesta, proteaaseista ja monista muista solujen tuottamista liukoisista molekyyleistä. On haastavaa kehittää uusia menetelmiä, jotka jäljittelisivät oikeaa ihmisen syövän mikroympäristöä, mutta se on välttämätöntä uusien syöpälääkkeiden tutkimiseksi. Väitöstutkimuksen tavoitteena oli kehittää kolmiulotteinen ihmisen myoomakudokseen perustuvan invaasiomalli, jonka avulla voisimme tutkia verisuonten kasvua estävien arresten ja endostatin molekyylien vaikutusta kielisyöpäsoluihin. Aiemin syövän invaasiota on tutkittu käyttämällä klassista kollageeni-invaasiomallia, joka tehdään sekoittamalla rotan tyypin I kollageeniä, hiiren sarkoomasolujen tuottamaa matriksia ja ihmisen fibroblasteja. Tutkimuksissamme kehitimme uuden invaasiomallin, joka perustuu ihmisen myoomakudokseen. Tutkimuksessa sen todettiin sisältävän monia erilaisia soluja ja molekyylejä, joita on normaalistikkin syövän mikroympäristössä. Lisäksi osoitimme, että se sopii invaasiotutkimuksiin monille syöpätyypeille. Soluvälitilamatriksista pilkotaan useita erilaisia molekyylejä joilla on osoitettu olevan angiogeneesia hillitseviä ominaisuuksia. Arresten on 26 kDa kokoinen polypeptidi, jota pilkotaan tyypin IV kollageenista. Sen tiedetään vähentävän angiogeneesia – uusien verisuonten muodostumista ja syövän kasvua in vivo. Sen vaikutuksia muihin kuin endoteelisoluihin ei ole kuitenkaan tutkittu. Tutkimuksissamme se vaikutti suoraan kielisyöpäsoluihin vähentäen niiden liikkumista ja invaasiota kolmiulotteisissa organotyyppisisssä malleissa ja hiirimallissa. Toinen tutkimamme angiogeneesin inhibiittori on endostatin, jota pilkotaan tyypin XVIII kollageenista. Sen tiedetään vähentävän angiogeneesia hiirimalleissa ilman toksisia sivuvaikutuksia. Me osoitimme tutkimuksissamme, että se vaikuttaa suoraan kielisyöpäsoluihin vähentäen niiden invaasiota ja leviämistä 3D organotyyppisissä malleissa sekä hiirikokeissa. Koska arresten ja endostatin ovat anti-angiogeenisiä ja anti-invasiivisia molekyylejä, ne ovat täten potentiaalisia syöpälääkkeitä. Ne näyttäisivät vaikuttavan suoraan syöpäsoluihin vähentämällä niiden invaasiota. Myoomainvaasiomalli mahdollistaa syöpää ehkäisevien molekyylien tutkimisen uudella ja todenmukaisemmalla tavalla. cancer invasion collagen IV collagen XVIII matrix metalloproteases myoma organotypic cell culture squamous cell carcinoma tumor microenvironment levyepiteelikarsinoma matriksimetalloproteaasit myooma organotyyppiset invaasiomallit syövän invaasio syövän mikroympäristö tyypin IV kollageeni tyypin XVIII kollageeni arresten endostatin
176	The role of tumor microenvironment on oral tongue cancer invasion and prognosis Sundquist, E. (Elias) 30 January 2018 (has links) Abstract Oral tongue squamous cell carcinoma (OTSCC) is the most common cancer of the oral cavity. The 5-year mortality of OTSCC remains at about 50%. The tumor microenvironment (TME) is now recognized as an important factor in cancer progression and metastasis, as well as a tool for prognostication. The aim of this study was to elucidate the roles of TME hypoxia and soluble factors on cancer cell migration and invasion, and the prognostic value of two extracellular matrix (ECM) molecules: tenascin-C (TNC) and fibronectin (FN). Hypoxia was studied using oral squamous cell carcinoma cells in migration and invasion assays. Invasion assays were carried out using a 3D-myoma invasion method. Similarly, the effect of soluble factors as well as ECM alterations were studied using the myoma model: the effect of soluble factors was studied by rinsing the myoma discs prior to experiments, and ECM alterations by lyophilizing and rehydrating. ECM was further studied by analyzing the prognostic value of TNC and FN from OTSCC samples. The effect of hypoxia was shown to be OTSCC cell line dependent: the effect of hypoxia on migration and invasion was increased in aggressive cell lines. Additionally, the response to hypoxia was altered in rinsed tissue. Tissue rinsing media were analyzed and factors affecting cell motility were found. The TME was found to be pivotal for cancer invasion: invasion was impaired in non-neoplastic tissue. Furthermore, changes in the ECM by lyophilization and rehydration led to a change in the invasion mechanism. High expression of stromal TNC and FN were excellent prognosticators in early-stage OTSCC. In conclusion, the present study highlighted the role of various TME components in cancer cell invasion as well as prognostication in OTSCC. Additionally, this study provided feasible tools for more precise diagnosis of early-stage OTSCC. / Tiivistelmä Liikkuvan kielen levyepiteelikarsinooma (OTSCC) on suuontelon yleisin syöpä. Viiden vuoden kuolleisuus OTSCC:an on edelleen noin 50 %. Kasvaimen mikroympäristön (TME) tiedetään nykyään olevan tärkeässä roolissa syövän kehityksessä ja etäpesäkkeiden muodostuksessa, sekä tarjoavan työkaluja ennusteiden laadintaan. Tämän tutkimuksen tarkoituksena oli selvittää TME:n hypoksian ja liukoisten tekijöiden vaikutusta syöpäsolujen liikkumiseen ja invaasioon ympäröivään kudokseen, sekä tutkia kahden solunulkoisen matriksin (ECM) proteiinin, tenaskiini-C:n (TNC) ja fibronektiinin (FN), vaikutusta OTSCC:n ennusteeseen. Hypoksian vaikutusta tutkittiin käyttäen suun levyepiteelikarsinoomasoluja liikkuvuus- ja invaasiokokeissa. Invaasiokokeissa hyödynnettiin kolmiulotteista ihmisen myoomaan perustuvaa invaasiomallia. Myös liukoisten tekijöiden ja ECM:n muutosten vaikutusten tutkimisessa käytettiin myoomamallia: liukoisten tekijöiden vaikutusta tutkittiin huuhtomalla myoomakiekot ennen niiden käyttämistä, ja ECM:n muutosten vaikutusta kylmäkuivaamalla ja uudelleen nesteyttämällä myoomakiekot. ECM:ia tutkittiin myös analysoimalla TNC:n ja FN:n värjäytyvyyden merkitystä OTSCC:n ennusteessa. Hypoksian vaikutus osoittautui solulinjariippuvaiseksi: hypoksia lisäsi kielisyöpäsolujen liikkuvuutta ja invaasiota eniten aggressiivisimmilla solulinjoilla. Lisäksi solujen vaste hypoksialle oli erilainen huuhdotussa kudoksessa. Huuhteluliuos analysoitiin ja siitä löydettiin solujen liikkumiseen vaikuttavia tekijöitä. TME:n havaittiin olevan ratkaisevassa roolissa syöpäsolujen invaasiossa: syöpäsolut eivät kyenneet invasoitumaan lainkaan ei-neoplastiseen kudokseen. Lisäksi muutosten ECM:ssä havaittiin johtavan muutoksiin solujen käyttämässä invaasion mekanismissa. Strooman TNC:n ja FN:n värjäytyvyyden todettiin olevan erinomaisia ennustekijöitä aikaisen vaiheen OTSCC:ssa. Tiivistettynä voidaan todeta, että tämä tutkimus alleviivasi useiden TME:n komponenttien vaikutusta syövän invaasiolle ja ennusteelle OTSCC:ssä. Lisäksi se tarjoaa käyttökelpoiset työkalut (TNC ja FN) tarkemmalle diagnostiikalle aikaisen vaiheen OTSCC:ssä. cancer invasion fibronectin hypoxia immunohistochemistry myoma organotypic cell culture prognosis squamous cell carcinoma tenascin-C tongue cancer tumor microenvironment ennuste fibronektiini hypoksia immunohistokemia kasvaimen mikroympäristö kielisyöpä levyepiteelikarsinooma myooma organotyyppiset invaasiomallit syövän invaasio tenaskiini-C
177	Conception de polysaccharides sulfatés inhibiteurs de l’héparanase pour le traitement de l’angiogénèse tumorale / Design of sulfated polysaccharide-based heparanase inhibitors for the treatment of tumor angiogenesis Poupard, Nicolas 30 June 2017 (has links) L’angiogénèse tumorale correspond à la formation de nouveaux vaisseaux sanguins afin d’alimenter la tumeur et d’amplifier son développement. Cette étape constitue un facteur pronostique défavorable pour les patients et son inhibition représente un fort intérêt thérapeutique. Parmi les acteurs participant à l’angiogénèse tumorale, on retrouve l’enzyme de dégradation héparanase au sein du microenvironnement tumoral de nombreux cancers. Ces travaux de thèse ont pour objectif de développer des inhibiteurs spécifiques de l’héparanase à partir de polysaccharides sulfatés pour le traitement de l’angiogénèse tumorale. La première partie de ces travaux a été consacrée à l’élaboration de polysaccharides sulfatés de bas poids moléculaires issus de sources animales (Héparine, Chrondroïtine sulfate), algales (Fucoïdanes, Carraghénane-λ-ι-κ) ou bactérienne (Dextran sulfate). Nous avons utilisé pour cela un procédé de dépolymérisation radicalaire assisté par ultrasons, développé en 2013 au laboratoire, que nous avons associé à un procédé de modification chimique appelé glycol-split. Les composés produits ont été évalués pour leurs activités d’inhibition de l’héparanase et de la coagulation sanguine. Ce criblage a notamment permis l’identification d’un dérivé de bas poids moléculaire issu de Carraghénane-λ possédant une forte inhibition de l’héparanase pour une faible inhibition de la coagulation. La deuxième partie de ces travaux s’est ensuite concentrée sur l’évaluation du potentiel anti-angiogénique des inhibiteurs de l’héparanase. Dans ce but, nous avons dans un premier temps évalué le rôle de l’hypoxie et/ou le manque de nutriments sur la production d’héparanase par des cellules de cancers mammaires. Dans ces conditions de stress, nous avons observé que la lignée MCF-7 excrétait une forte quantité d’héparanase. L’analyse en Matrigel 3D du réseau angiogénique formé par des cellules microvasculaires HskMEC, en présence du surnageant de MCF-7 riche en héparanase, a montré une forte stimulation de l’angiogénèse. Les mêmes tests réalisés en présence des inhibiteurs de l’héparanase ont montré une inhibition de l’angiogénèse qui semblait corrélée avec l’inhibition de l’héparanase. / Tumor angiogenesis is defined by the spouting of new blood vessels from preexisting ones in order to sustain and amplify the tumor development. This crucial step is associated with poor prognosis for patients and it’s inhibition is therefore considered as a primising way to treat cancer. Among several actors participating in the angiogenesis process, the degradative enzyme heparanase is active in the tumor microenvironment of many cancers. The work presented in this thesis aim to develop specific heparanase inhibitors using sulfated polysaccharides for the treatment of tumor angiogenesis. The first part of this work is dedicated to the conception of low molecular weights sulfated polysaccharides obtainable from animal source (Héparine, Chondroïtine sulfate), algal source (Fucoidan, Carrageenan-λ-ι-κ) and bacterial source (dextran sulfate). To do so, we used a depolymeriation process based on free radicals associated to ultrasonic waves developed in 2013 in the laboratory. This depolymerization method was then coupled with a chemical process called glycol-split. The produced compounds were evaluated for their capacity to inhibit heparanase and blood coagulation. This screening phase lead to the identification of a low molecular weight compound produced from λ-carrageenan endowed with a strong heparanase inhibition power and a low impact on the blood coagulation. The second part of this work was then focused on the evaluation of the anti-angiogenic properties of our best heparanase inhibitors. To do so, we first evaluated the role of hypoxia and lack of nutrients on the heparanase production from breast cancer cell lines. In these higly stressful conditions, we observed that the MCF-7 cell line secreted a huge amount of heparanase. 3D Matrigel angiogenesis network formation using Hsk-MEC microvascular cells in the presence of MCF-7 heparanase rich supernatant showed a strong angiogenesis stimulation. Same tests realized in the presence of heparanase inhibitors showed an angiogenesis inhibition power that seemed correlated with heparanase inhibition. Angiogénèse Héparanase Coagulation sanguine Microenvironnement tumoral Polysaccharides sulfatés Glycol-split Hypoxie Ciblage thérapeutique Angiogenesis Heparanase Blood coagulation Tumor microenvironment Sulfated polysaccharides Glycol-split Hypoxia Therapeutic targeting
178	Aide au ciblage du microenvironnement tumoral par le développement d’un nano-système de détection et de traitement des tumeurs avec inhibition ciblée de l’héparanase / Tumor microenvironment targeting by the development of a nano-system for the detection and treatment of tumors by targeted inhibition of heparanase Achour, Oussama 07 July 2014 (has links) Le microenvironnement des cellules tumorales présente plusieurs particularités comme l'hypoxie, l'acidification du milieu extracellulaire et l'hypersécrétion d'enzymes hydrolytiques. Ces hydrolases, comme la cathepsine D et l'héparanase, interviennent dans les étapes de la progression tumorale et notamment l'angiogenèse. Cette thèse s'intègre dans un projet dont la finalité est de concevoir un nano-objet moléculaire enzymo-sensible qui réagirait d'une manière spécifique aux enzymes hypersécrétées dans le microenvironnement tumoral pour assurer de façon simultanée, une fonction de détection et de ciblage des tumeurs. La première partie de nos travaux a été consacrée à la conception et à la validation d'un lien peptidique intégrable dans l'objet moléculaire, sensible aux formes de la cathepsine D actives du microenvironnement tumoral de cancers mammaires. Cet objectif a été réalisé suite à l'étude cinétique de l'hydrolyse de 5 peptides par la cathepsine D mature et la pro-cathepsine D dans les conditions de pH du microenvironnement tumoral. Nous avons également étudié l'effet de l'hypoxie et de l'acidification du milieu extracellulaire sur la sécrétion des formes actives de la cathepsine D par la lignée tumorale de cancer mammaire MCF-7. Dans une deuxième partie, nous avons travaillé sur l'élaboration d'héparines de bas poids moléculaire pouvant assurer la fonction thérapeutique de l'objet moléculaire grâce à leur activité anti-angiogénique. Nous avons mis au point une méthode innovante pour la dépolymérisation de l'héparine qui consiste en une hydrolyse radicalaire par le péroxyde d'hydrogène assistée par les ultrasons. Cette technique permet la production d'oligosaccharides d'héparines caractérisées par des poids moléculaires et des degrés de sulfatation contrôlés. En fonction des conditions de dépolymérisation par cette technique, les héparines de bas poids moléculaires produites peuvent être utilisées comme anticoagulant ou anti-angiogénique. / Tumor microenvironment is characterized by several particularities such as hypoxia, extracellular media acidification and the hyper-secretion of hydrolytic enzymes. These hydrolases, such as cathepsin D and heparanase, are involved in many steps of tumor progression like angiogenesis. This thesis is a part of a project that aims to develop a "smart" molecular nano-object that specifically reacts to hyper-secreted enzymes in the tumor microenvironment for the simultaneous detection and targeting of tumor. The first part of our work concerned the design and the validation of a peptide that is sensitive to active forms of cathepsin D which is a protease, unregulated in many tumors microenvironment such as breast cancers. This objective has been achieved following the kinetic study of the hydrolysis of 5 peptides by mature cathepsin D and procathepsin D in the pH conditions of the tumor microenvironment. On the other hand, we studied the effect of hypoxia and the acidification of the extracellular medium on the secretion of active forms of cathepsin D by the breast cancer cell line MCF-7. In a second part, we worked on the development of low molecular weight heparins that may provide therapeutic function of the molecular object through their anti-angiogenic activity. We have developed an innovative method for the depolymerization of heparin that consists on a radical hydrogen peroxide hydrolysis assisted by ultrasound. This technique allows the production of heparins oligosaccharides characterized by controlled molecular weight and degree of sulfatation. Depending on the depolymerization conditions by this technique, the produced low molecular weight heparins can be used as an anticoagulant or anti-angiogenic. Microenvironnement tumoral Héparanase Cathepsine D Ciblage thérapeutique Théranostique Imagerie moléculaire Héparine de bas poids moléculaire Tumor microenvironment Heparanase Cathepsin D Drug delivery Theranostic Molecular imaging Low molecular weight heparin
179	Physiopathologie de cellules souches cancéreuses isolées de glioblastomes primitifs et évaluation pré-clinique de molécules "tête de série" par une approche de biologie et de chimie médicinale / Physiopathology of cancer stern cells isolated from primary glioblastoma and pre-clinical evaluation of lead molecules by an approach of biology and medicinal chemistry Dong, Jihu 15 September 2015 (has links) Les glioblastomes sont des tumeurs primaires du cerveau les plus malignes. L’identification des cellules souches cancéreuses de glioblastome (CSGs) a transformé notre vision globale des glioblastomes en révélant une hiérarchie cellulaire au sein de ces tumeurs. Les CSGs sont douées de propriétés d’auto-renouvellement, de différenciation et peuvent entrer en quiescence. Elles sont considérées comme les cellules entretenant les tumeurs, responsables de leur dissémination et des rechutes après traitement. La découverte des CSGs a conduit à un changement de paradigme dans le développement des thérapies anticancéreuses, avec la nécessité de cibler dans le traitement non seulement les cellules de la masse tumorale, mais aussi les CSGs. Un criblage différentiel de la chimiothèque Prestwick réalisé au laboratoire a permis d’identifier le bisacodyl comme une molécule présentant une cytotoxicité spécifique sur les CSGs en quiescence.Cette thèse présente un travail sur la caractérisation des CSGs, la compréhension du mode d’action du bisacodyl, ainsi que l’évaluation de son potentiel thérapeutique sur un modèle 3D in intro et des modèles in vivo. / Glioblastomas are the most malignant primary brain tumors. The identification of glioblastoma stemcells (GSCs) has transformed our comprehension of those tumors by revealing a hierarchical organization. GSCs can self-renew, differentiate and enter into a quiescent state. They are considered as cells which fuel and as the main culprits of tumor relapse. The discovery of GSCs triggered a change in paradigm for cancer therapy. Indeed to gain in efficacy, therapies need to target, not only the cells forming the bulk of the tumor, but also GSCs particularly resistant and endowed with a high tumorigenic potential. Chemical screening of the Prestwick chemical library in our laboratory, unveiled bisacodyl with a specific activity on quiescent GSCs.This thesis presents work on the characterization of GSCs, study of the mode of action of bisacodyl on GSCs, as well as a preclinical evaluation of bisacodyl on a 3D model in vitro and animal models in vivo. Glioblastome Cellule souche cancéreuse Bisacodyl Microenvironnement tumoral Acidité tumorale Quiescence Hypoxie Tumorosphères Sphéroides Glioblastoma Cancer stem cell Bisacodyl Tumor microenvironment Tumor acidity Quiescence Hypoxia Tumorospheres Spheroids 571.6 615.7 616.99
180	Effet sur le microenvironnement tumoral d’une modulation pharmacologique du stress oxydant / Effect of oxidative stress modulators on tumor microenvironment Thomas, Audrey 20 June 2012 (has links) Les Formes réactives de l’oxygène (FRO) ont un rôle bien établi dans l’oncogénèse en augmentant les capacités de prolifération et d’invasion des cellules tumorales. Mais les FRO exercent aussi un effet important sur le microenvironnement tumoral, en particulier en participant à l’échappement des tumeurs au système immunitaire. Une modulation pharmacologique de l’équilibre oxydo-réductif tumoral est donc susceptible d’influencer la progression tumorale. Il a été montré que l’induction pharmacologique d’un stress oxydant dans les cellules tumorales peut induire un effet cytotoxique mais ses effets sur le microenvironnement sont moins bien connus. L’objectif de nos travaux était d’étudier l’effet d’une modulation du stress oxydant sur les cellules immunitaires du microenvironnement tumoral et in fine de préciser les conséquences potentielles sur la progression tumorale. L’arsenic trioxyde (As2O3), inducteur de FRO, présentait à faible dose, dénuée d’effet cytotoxique direct sur les cellules malignes, un effet antitumoral dans un modèle de cancer colique murin. Cet effet était lié à une déplétion sélective en lymphocytes T régulateurs (Tregs) et était médié par la génération d’anions superoxyde (O2°-) et de monoxyde d’azote (NO), eux même responsables de la formation de peroxynitrite. Les Tregs présentaient un niveau basal de FRO plus élevé que les autres populations lymphocytaires, qui pourrait expliquer leur plus grande sensibilité à un surcroît de stress oxydant induit par l’As2O3. Un cytotoxique antitumoral, la vinorelbine, s’est également montré capable d’exercer un effet sur le microenvironnement tumoral. Par co-cultures, nous avons montré que la vinorelbine induisait un effet bystander toxique sur les cellules immunitaires effectrices voisines des cellules tumorales. In vivo, le prétraitement par vinorelbine de cellules malignes implantées à la souris était responsable d’une perte de la réactivité anti-tumorale des cellules mono-nuclées. Cet effet était dépendant de la production d’O2°- et de NO par les cellules malignes. Un modulateur du stress oxydant, le mangafodipir, inhibait cet effet, permettant ainsi de restaurer la réponse immunitaire antitumorale locale. Notre travail a donc permis de mettre en évidence que des modulateurs du stress oxydant peuvent agir sur le microenvironnement, et spécialement sur les cellules immunitaires. Ils pourraient être utilisés en clinique pour restaurer la réponse immunitaire antitumorale. Une meilleure compréhension du rôle du stress oxydant dans la défaillance de l’immunité antitumorale est nécessaire. / Several reports have demonstrated the involvement of reactive oxygen species (ROS) in carcinogenesis, through promotion of cancer cell proliferation and invasion. But ROS could also have consequences on non cancerous cells which are part of the tumor microenvironment, such as immune cells. Therefore, a pharmacological modulation of oxidative stress can induce a cytotoxic effect on tumor cells but its consequences on microenvironment are unknown. The aim of our studies was to evaluate the effects of a pharmacological modulation of oxidative stress on immune cells from the tumor microenvironment. At low dose, Arsenic trioxide (As203), an oxidative stress modulator, was shown to exert antitumor effects in colon tumor-bearing mice. We observed that this effect was related to As203-induced regulatory T cells (Tregs) -selective depletion in vitro and in vivo and was mediated by oxidative and nitrosative bursts. The differential effect of As203 on Tregs versus other CD4 cells was related to difference in the cells’redox status. We also observed that vinorelbine, an anticancer agent, could interfere with the antitumor immune response. We showed that vinorelbine could alter the function of immune cells surrounding tumor cells by a bystander toxic effect against tumor effector cells. In vivo experiment in A549 tumor bearing nude mice showed that adoptive transfer of A549 immune splenocytes was not able to delay tumor growth when vinorelbine-pretreated A549 cells were used for immunization. This effect was mediated by ROS and was inhibited by an oxidative stress modulator, mangafodipir, which restored antitumor immune function. Therefore, our work showed that oxidative stress modulators can influence tumor microenvironment and more specifically, immune cells. They could be used to restore antitumor immune response. Formes réactives de l’oxygène Modulateurs du stress oxydant Microenvironnement tumoral Cellules immunitaires Cancer Vinorelbine Effet bystander Trioxyde d’arsenic Reactive oxygen species Oxidative stress modulators Tumor microenvironment Immune cells Arsenic trioxide Vinorelbine Bystander effect 616.994 042

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