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Study of the involvement of autophagy in the acquisition of tumor resistance to Natural Killer-mediated lysis / Etude de l'implication de l'autophagie dans l'acquisition de résistance tumorale à la lyse par les lymphocytes "Natural Killer"Baginska, Joanna 28 November 2013 (has links)
Les lymphocytes « Natural Killer » (NK) sont des effecteurs de l’immunité innée, capables de lyser les cellules cancéreuses grâce au relargage de la protéase cytotoxique Granzyme B (GzmB). Récemment, de nouvelles stratégies anti-cancéreuses, basées sur l’utilisation des cellules NK, ont émergé et se sont révélées très prometteuses. Il est maintenant clairement établi que le microenvironnement tumoral hypoxique influence la réponse immunitaire et constitue, de ce fait, un obstacle majeur pour établir des protocoles d’immunothérapies efficaces. Des études récentes ont montré que l’autophagie est un régulateur important de l’immunité innée dans le microenvironnement tumoral, mais les mécanismes de régulation impliqués restent encore peu connus. Nous avons montré in vitro que l'hypoxie diminue la sensibilité des cellules de carcinome mammaire à la lyse dépendante des cellules NK par un mécanisme impliquant l'activation de l'autophagie. De manière intéressante, cette diminution de lyse est reversée par l’inhibition de l’autophagie. Nous avons démontré que la résistance des cellules tumorales hypoxiques à la lyse par les cellules NK n'est liée ni à un défaut de reconnaissance des cellules cibles, ni à une altération de l’activité cytotoxique des effecteurs. Nous avons mis en évidence que l'activation de l’autophagie conduit à la dégradation de GzmB dans les lysosomes des cellules hypoxiques. Ainsi, ces cellules deviennent résistantes à l’apoptose, qui est normalement induite par GzmB, transféré par les cellules NK. L’invalidation génétique et pharmacologique de l'autophagie permet de restaurer le niveau intracellulaire de GzmB et réduit la résistance des cellules cibles hypoxiques in vitro. Nos résultats mettent en évidence que l'autophagie est un régulateur primordial de la réponse immunitaire anti-tumorale dépendante des cellules NK. Nous avons validé ce concept in vivo en montrant que l’inhibition de l'autophagie favorise de manière significative la prise en charge de la tumeur par les cellules NK dans des modèles murins de mélanome et de carcinome mammaire. Cette étude contribue à l’avancé des connaissances sur la manière dont l'autophagie, induite par l'hypoxie, affecte la lyse dépendante des cellules NK et ouvre la voie à la formulation de nouvelles stratégies thérapeutiques anti-tumorales combinant l’utilisation des cellules NK à des inhibiteurs d'autophagie. / Natural killer (NK) cells are effectors of the antitumor immunity, able to kill cancer cells through the release of the cytotoxic protease granzyme B. NK-based therapies have recently emerged as promising anticancer strategies. However, it is well established that hypoxic microenvironment interferes with the function of antitumor immune cells and constitutes a major obstacle for cancer immunotherapies. Recent studies demonstrated that autophagy is an important regulator of innate immune response in this microenvironment, but the mechanism by which autophagy regulates NK cell-mediated antitumor immune responses remains elusive. Here, we demonstrate that hypoxia impairs breast cancer cell susceptibility to NK-mediated lysis in vitro via the activation of autophagy. This impairment was not related to a defect in target cell recognition by NK cells but to the degradation of NK-derived granzyme B in autophagosomes of hypoxic cells. Inhibition of autophagy by targeting beclin1 (BECN1) restored granzyme B levels in hypoxic cells in vitro and induced tumor regression in vivo by facilitating NK-mediated tumor cell killing. Together, our data highlight autophagy as a mechanism underlying the resistance of hypoxic tumor cells to NK-mediated lysis and provides a cutting-edge advance in our understanding of the underlying mechanism. This study might pave the way for the formulation of more effective NK cell-based antitumor therapies.
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Envolvimento das galectinas na angiogênese tumoral em modelo de melanoma murino e associação com o microambiente tumoral via receptores toll-like / Involvement of galectins in tumor angiogenesis in a murine melanoma model and association with tumor microenvironment through toll-like receptorsMelo, Camila Morais 09 October 2015 (has links)
O melanoma é a forma mais letal entre os cânceres de pele. Essa neoplasia freqüentemente apresenta-se resistente a abordagens terapêuticas. A angiogênese associada ao tumor representa um crítico passo da tumorigênese, resultado da ação de diferentes citocinas e fatores de crescimento como VEGF produzidos no microambiente tumoral. As galectinas extracelulares participam de múltiplos processos biológicos incluindo angiogênese tumoral e metástases, sua interação com as células presentes no microambiente tumoral pode ocorrer via receptores toll-like sugerindo seu envolvimento nos processos pro-inflamatórios e na secreção de citocinas. Recentemente mostramos que a ausência de gal-3 no estroma e parênquima tumoral diminui a angiogênese por interferir na resposta de macrófagos via VEGF e/ou TGFbeta1. Entretanto, o envolvimento de galectinas extracelulares na angiogênese e na modulação do sistema imune no microambiente tumoral ainda não está esclarecido. Assim, este estudo visa buscar respostas ao envolvimento das galectinas no crescimento tumoral e angiogênese contribuindo ao combate do melanoma maligno. Nossos resultados mostram a participação das galectinas 1 e 3 no crescimento tumoral e seu envolvimento com macrófagos via receptores toll-like, além de coordenarem a modulação do perfil de polarização de macrófagos derivados da medula óssea de camundongos wild-type. Dessa forma, podemos inferir que essas galectinas agem como coordenadoras de mudança de perfil dos macrófagos, uma vez que inibidas extracelularmente promovem uma diminuição do crescimento tumoral em camundongos wild-type, inoculados com células de melanoma murino e uma manutenção do perfil de macrófagos M1 in vitro. Assim, concluimos que as galectinas 1 e 3 extracelulares são importantes para o crescimento tumoral de melanomas murinos pois promovem o crescimento tumoral e são coordenadoras da mudança do perfil de macrófagos / Melanoma is the most aggressive form of skin cancer. This tumor often presents itself resistant to therapeutic approaches. The tumor-associated angiogenesis is a critical step in tumorigenesis and the result of the action of several cytokines and growth factors such as VEGF produced in the tumor microenvironment. The extracellular galectins participate in multiple biological processes including tumor angiogenesis and metastasis, their interaction with cells present in the tumor microenvironment may occur via toll-like receptors suggesting their involvement in pro-inflammatory processes and the secretion of cytokines. We have recently shown that the absence of Gal-3 the stroma and tumor parenchyma decreases angiogenesis by interfering with the macrophage response by VEGF and / or TGFbeta1. However, the involvement of extracellular galectins on angiogenesis modulation of the immune system in the tumor microenvironment is not yet clear. This study aims is to find answers to the involvement of galectins on tumor growth and angiogenesis contributing to the study of the malignant melanoma. Our results demonstrate the involvement of galectin 1 and 3 on tumor growth and its involvement in macrophage by toll-like receptors pathway, and coordinating the modulation of the polarization profile in wild-type mice bone marrow derived macrophages. Therefore, we show these galectins act as coordinators of macrophages profile change, since inhibited extracellularly promote a reduction in tumor growth in wild-type mice inoculated with murine melanoma cells and macrophages M1 maintenance of profile in vitro. Thus, we conclude that galectins 1 and 3 extracellular are important for tumor growth of murine melanomas because they promote tumor growth and are coordinators of change macrophages profile
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Desvio da resposta imunológica deflagrada por morte celular em melanoma experimental pelo imunoestimulador P-MAPA: uma potencial estratégia antitumoral dependente da ativação de receptores TOLL-LIKE? / Deviation of the immune response triggered by cell death in experimental melanoma by immunostimulator P-MAPA: a potential antitumor strategy dependent on the activation of Toll-Like receptors?Adalberto Alves Martins Neto 22 November 2017 (has links)
O melanoma é o mais agressivo tumor da pele, cuja resistência aos tratamentos quimioterápicos tem promovido a crescente utilização de imunoquimioterapia, como é o caso da utilização de agonistas dos receptores Toll-Like (TLRs). Nesse contexto, os compostos abreviados por P-MAPA e seu sintético estrutural MRB-CFI-1 com reconhecidas propriedades antitumorais e imunológicas, são fortes candidatos na terapia e prevenção desse tipo de câncer. Esse estudo visa determinar o potencial anticâncer do P-MAPA e de MRB-CFI-1 contra o melanoma murino em consequência ao padrão de resposta microambiental semelhante ao de morte imunogênica, em regimes de tratamento terapêutico ou vacinal, na vigência de quimioterapia com cisplatina e/ou em associação com antígenos de células tumorais totais. Após avaliação In vivo do crescimento de tumores B16F10 implantados em modelos murinos selvagem e nocaute para o gene Myd88, na vigência ou não do tratamento com cisplatina e/ou P-MAPA, nossos resultados mostraram que o P-MAPA apresentou atividade pró-tumoral e antagonizou a ação da cisplatina em inibir o crescimento dos tumores, de forma dependente de Myd88. Além disso, através de análises qualitativa e quantitativa pelo software ImageJ em fotomicrografias de secções tumorais coradas histologicamente, observamos que o P-MAPA promoveu mudanças microambientais nos tumores que podem impactar negativamente em seu desempenho. Como monoterapia em esquema de vacinação com lisado tumoral total em combinação com quimioterapia, o P-MAPA em dose baixa falhou em suprimir o crescimento de tumores B16F10, mas o seu sintético MRB-CFI-1 foi capaz de prevenir o crescimento desse tipo de melanoma num regime de vacinação profilática. Apesar do sucesso terapêutico desse imunomodulador em diversos modelos de câncer e de doenças infecciosas, o P-MAPA não foi eficaz em produz respostas microambientais contra o melanoma murino, dados esses que limitam a aplicabilidade clínica do composto. De outro modo, o composto fosfato inorgânico MRB-CFI-1 foi protetivo em retardar o aparecimento desse tipo de doença. Assim, o presente estudo foi importante por ampliar o entendimento funcional do P-MAPA numa abordagem imunoquimioterápica em modelos biológicos de tumores de melanoma, e representa uma importante mudança na utilização de constituintes individuais similares ao P-MAPA que sejam mais eficazes, de fácil obtenção, e de produção controlada e garantida / Melanoma is the most aggressive skin cancer, whose resistance to chemotherapeutic treatments has promoted the increasing use of immunochemotherapy, as is the case for the use of Toll-Like receptor agonists (TLRs). In this context, the compounds abbreviated by P-MAPA and its structural synthetic MRB-CFI-1 with recognized antitumor and immunological properties are strong candidates in the therapy and prevention of this type of cancer. This study aims to determine the anti-cancer potential of P-MAPA and MRB-CFI-1 against murine melanoma as a consequence of the microenvironmental response pattern similar to that of immunogenic death in therapeutic or vaccine treatment regimens when using chemotherapy with cisplatin alone or in combination with whole tumor cell antigens. After In vivo evaluation of the growth of B16F10 tumors implanted in wild-type and Myd88 gene knockout mice, under treatment or not with cisplatin and / or P-MAPA, our results showed that P-MAPA showed pro-tumor activity and antagonized the action of cisplatin in inhibiting the growth of tumors in a Myd88-dependent manner. In addition, using qualitative and quantitative analysis by ImageJ software in histological images of tumor sections, we observed that P-MAPA promoted microenvironmental changes in tumors that may negatively impact its performance. As monotherapy in vaccination schedule with total tumor lysate in combination with chemotherapy, low dose P-MAPA failed to suppress the growth of B16F10 tumors, but its synthetic MRB-CFI-1 was able to prevent the growth of this type of melanoma in prophylactic vaccination regimen. Despite the therapeutic success of this immunomodulator in various cancer models and infectious diseases, P-MAPA has not been effective in producing microenvironmental responses against murine melanoma, data that limit the clinical applicability of the compound. Otherwise, the inorganic phosphate compound MRB-CFI-1 was protective in delaying the onset of this type of disease. Thus, the present study was important because it broadened the functional understanding of P-MAPA in an immuno-chemotherapeutic approach in biological models of melanoma tumors and represents an important change in the use of individual constituents similar to P-MAPA that are more efficient, easily obtainable, and controlled and guaranteed production
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Role of the Bone Morphogenetic Proteins pathway in leukemic stem cell regulation and resistance in acute myeloid leukemia / Rôle de la voie des Bone Morphogenetic Proteins dans la régulation des cellules souches leucémqiues dans la leucémie aiguë myeloïdeFlores Violante, Mario 16 September 2019 (has links)
Les leucémies aiguës myéloïdes (LAM) sont des maladies hématologiques hétérogènes caractérisées par une prolifération clonale des blastes myéloïdes qui s’infiltrent dans la moelle osseuse (MO), le sang et d’autres organes. Identifiée comme le type le plus courant de leucémie aiguë chez l’adulte avec 80% des cas, la LAM est synonyme de rechute et de mauvais pronostic, avec 70% des patients étant confrontés à une mortalité dans l’année suivant le diagnostic. La présence des cellules souches leucémiques (CSL) a été associée à une résistance à la chimiothérapie et à une rechute dans la LAM. Le microenvironnement tumoral a été décrit pour son rôle clé dans la régulation des CSL par l’interaction des voies de signalisation. La voie des Bone Morphogenetic Proteins (BMP) est fortement impliquée dans la régulation des cellules souches hématopoïétiques (CSH), mais elle a également été reconnue pour réguler les CSL. Ici, nous avons identifié des concentrations élevées de BMP2 et BMP4 dans la MO des patients atteints de LAM au moment du diagnostic. De plus, nous avons identifié pour la première fois une nouvelle cascade de signalisation impliquant la liaison de BMP4 au récepteur BMPR1A, qui induit l’expression de ΔNp73 et NANOG. L’activation de cette signalisation favorise un phénotype proche des cellules souches dans les cellules leucémiques. Par conséquent, nous avons émis l’hypothèse que cette voie est responsable de la capacité de résistance des cellules leucémiques à la chimiothérapie. En outre, nous avons identifié BMPR1A/ΔNp73/NANOG comme marqueurs potentiels du pronostic dans la LAM, en raison de leurs surexpressions au moment du diagnostic associé à une rechute dans les trois ans. Lorsque nous avons analysé des échantillons de LAM lors d’une rechute, nous avons constaté des taux plus élevés de l’isoforme ΔNp73 par rapport à ceux de patients au moment du diagnostic. D’autre part, nous avons identifié une forte expression du récepteur BMPR1A, ΔNp73, NANOG, SOX2 et ID1 dans les cellules leucémiques primaires résistantes à court terme. Ces résultats sont en corrélation avec ce que nous avons observé dans les cellules résistantes de LAM, où BMPR1A, ΔNp73, NANOG et ID1 semblent être impliqués dans la capacité de résistance des cellules de LAM face à la chimiothérapie. La modulation et le ciblage des éléments de la voie BMP et des gènes associés identifiés au travers de notre étude représentent donc une approche prometteuse pour le développement de stratégies thérapeutiques innovantes et plus efficaces contre les LAM / Acute myeloid leukemias (AML) are heterogeneous hematological malignancies characterized by a clonal proliferation of myeloid blasts which infiltrate the bone marrow, blood and other organs. Identified as the most common type of acute leukemia in adults with 80% of cases, AML is associated with high relapse and poor prognosis where 70% of patients face mortality within one year after diagnosis. Leukemic stem cell (LSCs) presence has been related to resistance to chemotherapeutic agents and relapse in AML. The tumor microenvironment has been described for its key role regulating LSCs through the crosstalk of signaling pathways. Bone Morphogenetic Proteins (BMP) pathway is highly involved in hematopoietic stem cell (HSC) regulation, but has also been recognized to regulate LSCs. Here, we have identified high concentrations of BMP2 and BMP4 in bone marrow (BM) AML samples at diagnosis. Furthermore, we have identified for the first time a new signaling cascade, involving the binding of BMP4 to BMPR1A receptor, which induces the expression of ΔNp73 and NANOG. Activation of this signaling promotes a stem-like phenotype in leukemic cells. Therefore, we hypothesized that this signaling is responsible for the resistant capacity of leukemic cells to chemotherapy. In addition, we have reported BMPR1A/ΔNp73/NANOG as potential AML prognosis markers, due to their overexpression at diagnosis associated to an increased rate of relapse of AML patients within three years. When we analyzed AML samples at relapse, higher levels of ΔNp73 isoform were found compared to patients at diagnosis. Moreover, we have identified high expression of the BMPR1A receptor, ΔNp73, NANOG, SOX2 and ID1 in short-term resistant primary leukemic cells. These results correlate with what we observed in AML resistant cells, where BMPR1A, ΔNp73, NANOG and ID1 seem to be implicated in driving the resistant capacity of AML cells to drug therapy. Therefore, modulation and targeting of the BMP pathway elements and related genes identified with our study, represent a promising approach towards the development of new and more effective therapeutic strategies against AML
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Implication du microenvironnement sur la survenue de la maladie métastatique et l’apparition d’une maladie résiduelle dans les adénocarcinomes ovariens séreux / Role of ovarian cancer microenvironment in metastatic disease progression and chemoresistanceLis, Raphaêl 18 November 2011 (has links)
Trop souvent diagnostiqués à des stades tardifs du fait de leur quasi asymptomatie, les adénocarcinomes séreux ovariens posent un véritable problème de santé publique. Malgré les progrès récents de prise en charge chirurgicale, l’émergence d’une maladie résiduelle microscopique chimiorésistante impacte grandement le pronostic des patientes.Le microenvironnement tumoral est un acteur clé de la progression tumorale et de l’émergence de résistances aux traitements anticancéreux. Durant ces travaux de thèse, nous nous sommes intéressés à deux composants majeurs du stroma tumoral, d’une part les cellules souches mésenchymateuses, d’autre part les cellules endothéliales.Nous avons pu démontrer que les cellules souches mésenchymateuses participent à la progression tumorale et l’émergence de résistances. Enfin nous avons démontré que les cellules endothéliales, via la production de facteurs angiocrines, participent à la chimiorésistance des cellules tumorales ovariennes.Dans ce travail, nous avons pu définir de nouvelles cibles thérapeutiques mettant en jeu la relation entre les cellules tumorales ovariennes et l’hôte. / Ovarian cancers constitute a poor prognosis disease. Due to their absence of symptoms, ovarian cancers are generally diagnosed at late stages. Despite major breakthrough regarding ovarian cancer surgery, minimal residual disease-induced relapse is still a hurdle for clinicians.Tumor microenvironment is a key actor on disease progression and resistance to therapy. In this study, we have focused on two major components of the tumor stroma, on one hand, the mesenchymal stem cells, and the endothelial cells on the other hand.We were able to demonstrate that mesenchymal stem cells are critically involved in ovarian cancer progression and resistance to therapy, while the endothelium, through production of angiocrine factors, is deeply involved in resistance of ovarian cancer cells to platinum and taxane based therapy.Here, we set forth the idea that disrupting the relationship between ovarian cancer cells and their host stroma constitute a new therapeutic window.
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Conjugated Bile Acid and Sphingosine 1-phosophate prompt Cholangiocarcinoma Cell Growth via Releasing ExosomesAlruwaili, Waad A 01 January 2019 (has links)
Cholangiocarcinoma (CCA) is a fatal primary malignancy that is formed in the bile ducts. Cancer-associated myofibroblasts play a crucial role in CCA proliferation and invasion. Furthermore, there is a growing interest in the role of the exosome in the interaction between the cancer-associated myofibroblasts and cholangiocarcinoma which lead to CCA growth. However how cholangiocarcinoma-derived exosome affect the cancer-associated myofibroblasts in the tumor microenvironment remain unknown. In this study, we examined whether exosome produced by cholangiocarcinoma could involve in the prompt of CCA cells growth by regulation of myofibroblast. We found that cholangiocarcinoma-derived exosome could prompt elevated α-smooth muscle actin and stromal cell-derived factor one expression that induces myofibroblast proliferation. We then demonstrated that cholangiocarcinoma-derived exosome upregulated periostin expression that plays an important role in cancer metastasis. In 3D organotypic rat CCA coculture model, TCA and S1P considerably increase the growth of CCA cell. Conclusion: cholangiocarcinoma-derived exosome trigger cancer-associated myofibroblasts proliferation in the tumor microenvironment that leads to prompt CCA growth.
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Imaging the tumor microenvironment : the dynamics and modification of hypoxiaLjungkvist, Anna January 2003 (has links)
<p>The tumor vasculature is poor and heterogeneous which may result in inadequate oxygenation and changed energy status. In addition the balance between cell proliferation and the rate of cell death is disturbed, which results in tumor growth. </p><p>The aims of this study were 1) to gain more insight into the relation between tumor vascularity, hypoxia, and proliferation in solid tumors, and 2) to study the changes and dynamics of tumor oxygenation in relation to the vascular architecture within individual tumors. For this purpose a double hypoxic marker method was developed, which was subsequently used to 3) determine the turnover rate of hypoxic cells in three different tumor models and 4) to study the effect of cytotoxic drugs on tumor hypoxia and cell death.</p><p>Solid tumor models grown in mice were used. The tumor microenvironment was investigated with exogenous cell markers for hypoxia (pimonidazole and CCI-103F), cell proliferation (BrdUrd) and blood perfusion (Hoechst 33342). The vasculature and the exogenous cell markers were visualized with immunohistochemical techniques. The tumor sections were scanned and quantified with an image analysis systemconsisting of a fluorescence microscope, CCD camera and image analysis software.</p><p>The spatial organization of hypoxia, proliferation, and tumor vasculature was analyzed in several xenograft lines. The study revealed two main hypoxic patterns that seemed to be the consequence of complex relations between vasculature, oxygen delivery, proliferation, and cell loss. The novel double hypoxic cell marker method, with sequential injection of two hypoxic markers, was developed to study dynamic changes of the tumor oxygenation. Based on varying injection intervals between the markers the hypoxic cell half-life was determined in three tumor lines, and ranged from 17 to 49 hours. Intra-tumoral changes in oxygenation status upon oxygen modifying treatments were measured with the double hypoxic marker method. Both decreased levels of tumor hypoxia after carbogen breathing (95%O2 and 5% CO2) and increased levels of tumor hypoxia, as a result of reduced tumor perfusion after hydralazine treatment was detected. Finally the double hypoxic marker assay was used to analyze the effects of the hypoxic cytotoxin tirapazamine in relation to the hypoxic cell population, which caused a reversible decrease of the hypoxic fraction.</p><p>The results presented in this thesis now form the basis for further studies to identify subpopulations of cells that represent specific targets for therapy, and to investigate the effects of different treatment modalities.</p>
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Imaging the tumor microenvironment : the dynamics and modification of hypoxiaLjungkvist, Anna January 2003 (has links)
The tumor vasculature is poor and heterogeneous which may result in inadequate oxygenation and changed energy status. In addition the balance between cell proliferation and the rate of cell death is disturbed, which results in tumor growth. The aims of this study were 1) to gain more insight into the relation between tumor vascularity, hypoxia, and proliferation in solid tumors, and 2) to study the changes and dynamics of tumor oxygenation in relation to the vascular architecture within individual tumors. For this purpose a double hypoxic marker method was developed, which was subsequently used to 3) determine the turnover rate of hypoxic cells in three different tumor models and 4) to study the effect of cytotoxic drugs on tumor hypoxia and cell death. Solid tumor models grown in mice were used. The tumor microenvironment was investigated with exogenous cell markers for hypoxia (pimonidazole and CCI-103F), cell proliferation (BrdUrd) and blood perfusion (Hoechst 33342). The vasculature and the exogenous cell markers were visualized with immunohistochemical techniques. The tumor sections were scanned and quantified with an image analysis systemconsisting of a fluorescence microscope, CCD camera and image analysis software. The spatial organization of hypoxia, proliferation, and tumor vasculature was analyzed in several xenograft lines. The study revealed two main hypoxic patterns that seemed to be the consequence of complex relations between vasculature, oxygen delivery, proliferation, and cell loss. The novel double hypoxic cell marker method, with sequential injection of two hypoxic markers, was developed to study dynamic changes of the tumor oxygenation. Based on varying injection intervals between the markers the hypoxic cell half-life was determined in three tumor lines, and ranged from 17 to 49 hours. Intra-tumoral changes in oxygenation status upon oxygen modifying treatments were measured with the double hypoxic marker method. Both decreased levels of tumor hypoxia after carbogen breathing (95%O2 and 5% CO2) and increased levels of tumor hypoxia, as a result of reduced tumor perfusion after hydralazine treatment was detected. Finally the double hypoxic marker assay was used to analyze the effects of the hypoxic cytotoxin tirapazamine in relation to the hypoxic cell population, which caused a reversible decrease of the hypoxic fraction. The results presented in this thesis now form the basis for further studies to identify subpopulations of cells that represent specific targets for therapy, and to investigate the effects of different treatment modalities.
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Studies of the tumor microenvironment : Local and systemic effects exerted by the cross-talk between tumor and stroma cells in pancreatic cancerTjomsland, Vegard January 2010 (has links)
Pancreatic cancer is one of the most lethal cancers and despite all research efforts the last 50 years, there are still no effective therapy for this terrible disease. Until quite recently most research in the field of pancreatic duct adenocarcinoma (PDAC) was focused on the tumor cells and mechanisms essential for their proliferation and survival. However, the tumor does not only consist of tumor cells, rather a combination of tumor cells and numerous stroma cell types, i.e. the tumor microenvironment. The tumor cells have developed the ability to activate the surrounding cells to produce factors important for the progression of the tumor. Cancer associated fibroblasts (CAFs) are the major stroma component and as much as 70% of the total PDAC tumor mass consists of these cells. In this thesis I have investigated the mechanisms involved in the cross-talk between tumor cells and CAFs and distinguished the local and systemic effects of this communication. Tumor derived IL-1α was identified as an important factor creating the inflammatory profile seen in CAFs. In PDAC patients, IL-1α was detected in 90% of the tumors and high expression was associated with poor clinical outcome. Moreover, the PDAC tumors had elevated expression levels of many inflammatory factors that were induced in CAFs by the tumor derived IL-1α in vitro. Consequently, this high expression of inflammatory factors in CAFs will attract immune cells including tumor associated macrophages (TAMs), dendritic cells (DCs), and CD8+ T cells. This indicates an immune suppressive role of CAFs, protecting the tumor cells by acting as decoy targets for immune cells homing into the tumor. The inflammatory factors produced in the PDAC microenvironment did not only affect the infiltrating immune cells, but had also systemic effects that included decreased levels of blood DCs in PDAC patients. Furthermore, these myeloid and plasmacytoid DCs were partly activated and had a semi mature phenotype and impaired immunostimulatory function. Low levels of blood DCs were direct associated with poor patient prognosis and the same was seen for low expression of ICOSL by the DCs. The findings presented in this thesis indicate an essential role for the cross-talk between tumor cells and stroma in the production of tumor promoting factors. Treatment of PDAC patients with drugs that target the IL-1α signaling pathway could prevent the communication between these cells, thus reduce the amount of inflammatory factors both locally and systemically. Altogether, our findings support the idea that neutralization of the IL-1α signaling molecule could be a promising therapy for pancreatic cancer. The findings presented in this thesis indicate an essential role for the cross-talk between tumor cells and stroma in the production of tumor promoting factors. Treatment of PDAC patients with drugs that target the IL-1α signaling pathway could prevent the communication between these cells, thus reduce the amount of inflammatory factors both locally and systemically. Altogether, our findings support the idea that neutralization of the IL-1α signaling molecule could be a promising therapy for pancreatic cancer. / Mindre än 5% av patienterna som drabbas av cancer i bukspottkörteln förväntas överleva i mer än fem år. De typiska symtomen kommer sent och sjukdomen framskrider snabbt. Några av de riskfaktorer som identifierats är tobaksrökning, fetma och typ 2 diabetes. Forskningen har hittills siktat in sig på tumörcellerna och de mekanismer de använder för att överleva och föröka sig. Men en tumör innehåller också normala kroppsceller och vid bukspottkörtelcancer kan så mycket som 70 procent bestå av i sig ofarliga bindvävsceller. Miljön i tumören skapas av samspelet mellan dessa celltyper. De cancerceller som är bäst på att utnyttja omgivningen för sin tillväxt fortlever och för sina egenskaper vidare. En sådan egenskap är att kunna manipulera bindvävsceller till att producera signalsubstanser och tillväxtfaktorer som gynnar tumören. Mekanismerna bakom denna kommunikation har studerats och ett viktigt fynd var att tumörcellerna producerar signalämnet interleukin 1-alpha (IL-1a). Detta protein upptäcktes i 90 procent av de undersökta tumörerna, och var kopplat till dålig prognos hos patienterna. Signalen via IL-1a sätter igång tillverkningen av substanser som behövs för nybildning och tillväxt av blodkärl, i sin tur en förutsättning för att tumören ska leva vidare och växa. Proteinet stimulerar också celldelning i tumören, bidrar till att lura kroppens immunförsvar och underlättar spridning av dottertumörer till andra delar av kroppen. När vi slår ut signaleringen kan tumörcellerna inte längre påverka bindvävscellerna lika effektivt, och således minskar förekomsten av flera faktorer som gynnar tumörtillväxten. IL-1a kan därför vara en lovande kandidat att utforska vidare för framtida som ett läkemedel mot bukspottkörtelcancer.
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Engineering PNIPAAm Biomaterial Scaffolds to Model Microenvironmental Regulation of Glioblastoma Stem-Like CellsJanuary 2017 (has links)
abstract: Following diagnosis of a glioblastoma (GBM) brain tumor, surgical resection, chemotherapy and radiation together yield a median patient survival of only 15 months. Importantly, standard treatments fail to address the dynamic regulation of the brain tumor microenvironment that actively supports tumor progression and treatment resistance. Moreover, specialized niches within the tumor microenvironment maintain a population of highly malignant glioblastoma stem-like cells (GSCs). GSCs are resistant to traditional chemotherapy and radiation therapy and are likely responsible for near universal rates of tumor recurrence and associated morbidity. Thus, disrupting microenvironmental support for GSCs could be critical to more effective GBM therapies. Three-dimensional (3D) culture models of the tumor microenvironment are powerful tools for identifying key biochemical and biophysical inputs that may support or inhibit malignant behaviors. Here, we developed synthetic poly(N-isopropylacrylamide-co-Jeffamine M-1000® acrylamide) or PNJ copolymers as a model 3D system for culturing GBM cell lines and low-passage patient-derived GSCs in vitro. These temperature responsive scaffolds reversibly transition from soluble to insoluble in aqueous solution by heating from room temperature to body temperature, thereby enabling easy encapsulation and release of cells in a 3D scaffold. We also designed this system with the capacity for presenting the cell-adhesion peptide sequence RGD for adherent culture conditions. Using this system, we identified conditions that promoted GBM proliferation, invasion, GSC phenotypes, and radiation resistance. In particular, using two separate patient-derived GSC models, we observed that PNJ scaffolds regulated self-renewal, provided protection from radiation induced cell death, and may promote stem cell plasticity in response to radiation. Furthermore, PNJ scaffolds produced de novo activation of the transcription factor HIF2α, which is critical to GSC tumorigenicity and stem plasticity. All together, these studies establish the robust utility of PNJ biomaterials as in vitro models for studying microenvironmental regulation of GSC behaviors and treatment resistance. / Dissertation/Thesis / Doctoral Dissertation Biomedical Engineering 2017
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