Letteratura scientifica selezionata sul tema "Microenvironnement des cellules cancéreuses"
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Articoli di riviste sul tema "Microenvironnement des cellules cancéreuses"
Corporeau, Charlotte, Arnaud Huvet, Vianney Pichereau, Lizenn Delisle, Claudie Quéré, Christine Dubreuil, Sébastien Artigaud, Catherine Brenner, Monique Meyenberg Cunha-De Padua e Nathalie Mazure. "Crassostrea gigas, une huître au service de la recherche sur le cancer". médecine/sciences 35, n. 5 (maggio 2019): 463–66. http://dx.doi.org/10.1051/medsci/2019079.
Testo completoCordier-Bussat, Martine, Chantal Thibert, Pierre Sujobert, Laurent Genestier, Éric Fontaine e Marc Billaud. "Même l’effet Warburg est oxydable". médecine/sciences 34, n. 8-9 (agosto 2018): 701–8. http://dx.doi.org/10.1051/medsci/20183408017.
Testo completoParisel, Eléonore, Laura Prudhomme e Jonathan Pol. "L’immunocytokine FAP-IL2v: Un co-traitement efficace pour pallier la résistance au trastuzumab du cancer du sein HER2+". médecine/sciences 40, n. 6-7 (giugno 2024): 569–72. http://dx.doi.org/10.1051/medsci/2024072.
Testo completoTartour, Eric. "Vaccins anti-cancer : quel avenir dans les stratégies d’immunothérapie anti-cancéreuse ?" Biologie Aujourd'hui 212, n. 3-4 (2018): 69–76. http://dx.doi.org/10.1051/jbio/2019002.
Testo completoGoud, Bruno, e Daniel Louvard. "Mettre la cellule au coeur de la recherche contre le cancer". médecine/sciences 34, n. 1 (gennaio 2018): 63–71. http://dx.doi.org/10.1051/medsci/20183401015.
Testo completoLebecque, S., S. Goddard, J. J. Pin, J. Y. Blay e I. Treilleux. "Les cellules dendritiques dans le microenvironnement tumoral". Annales de Pathologie 24 (novembre 2004): 36–37. http://dx.doi.org/10.1016/s0242-6498(04)94036-9.
Testo completoDocq, Molène, e Boris Julien. "Cellules cancéreuses, cellules étoilées et rigidité du milieu extracellulaire". médecine/sciences 36, n. 2 (febbraio 2020): 176–79. http://dx.doi.org/10.1051/medsci/2020019.
Testo completoGuillon, Noëlle. "Des lymphocytes contre les cellules cancéreuses". Pour la Science N° 523 - mai, n. 5 (5 giugno 2021): 8. http://dx.doi.org/10.3917/pls.523.0008.
Testo completoHäfner, Sophia, e Laure Coulombel. "L’oligarchie contestée des cellules souches cancéreuses". médecine/sciences 25, n. 3 (marzo 2009): 227–28. http://dx.doi.org/10.1051/medsci/2009253227.
Testo completoVirolle, Thierry. "Cellules souches cancéreuses dans les glioblastomes". Bulletin du Cancer 104, n. 12 (dicembre 2017): 1075–79. http://dx.doi.org/10.1016/j.bulcan.2017.10.012.
Testo completoTesi sul tema "Microenvironnement des cellules cancéreuses"
Ringuette, Goulet Cassandra, e Goulet Cassandra Ringuette. "Interactions entre les cellules tumorales et stromales dans le microenvironnement du cancer de la vessie". Doctoral thesis, Université Laval, 2019. http://hdl.handle.net/20.500.11794/36895.
Testo completoLes fibroblastes associés au cancer (CAF) constituent le type cellulaire le plus abondant du microenvironnement tumoral. In vivo, les tumeurs les plus agressives corrèlent avec un enrichissement en CAF et une matrice extracellulaire plus dense. En effet, les interactions dynamiques et réciproques entre les cellules cancéreuses et les CAF favoriseraient la progression tumorale. Cependant, les molécules impliquées dans ces interactions ainsi que leurs effets sur le devenir de la tumeur et sur le remodelage du microenvironnement sont mal connus. Or, mieux définir et comprendre les mécanismes moléculaires impliqués dans cette interaction est crucial afin de pouvoir développer de nouvelles cibles thérapeutiques. Ainsi, nous avons étudié les interactions entre les cellules cancéreuses et les cellules stromales dans le microenvironnement du cancer de la vessie. Les exosomes sont une classe de vésicules extracellulaires d’origine endocytique de 30 à 200 nm de diamètre. Ils sont sécrétés par tous les types cellulaires et constituent, entre autres, un moyen de communication intercellulaire en transportant protéines, lipides et ARN d’une cellule à l’autre. Les cellules cancéreuses sécrètent une grande quantité d’exosomes et ces derniers joueraient un rôle dans la modulation du microenvironnement tumoral, notamment en activant les fibroblastes sains en CAF. Les travaux présentés dans cette thèse ont permis de démontrer que les exosomes sécrétés par les cellules cancéreuses sont internalisés par les fibroblastes vésicaux sains et qu’ils favorisent la prolifération de ces derniers. De plus, les exosomes dérivés de cellules cancéreuses activent les fibroblastes sains en CAF grâce au TGFβ qu’ils contiennent. La neutralisation du TGFβ par des anticorps spécifiques confirme ces résultats. Une fois activés, les CAF augmentent la prolifération, la migration et l’invasion des cellules cancéreuses via une sécrétion soutenue de la molécule IL-6. D’ailleurs, le blocage de la voie de signalisation de l’IL-6 renverse les effets observés sur les cellules cancéreuses. Nous avons également démontré que les CAF diminuent la sensibilité des cellules cancéreuses à la mitomycine C. Enfin, les CAF remodèlent la matrice extracellulaire du microenvironnement tumoral notamment par une sécrétion accrue des protéines oncofétales ténascine C et EDA-fibronectine, ainsi qu’une activité LOX-1 et MMP augmentée. Par ailleurs, la matrice extracellulaire générée par les CAF favorise la transition épithéliomésenchymateuse des cellules urothéliales saines en inhibant le marqueur épithelial Ecadhérine au profit du marqueur mésenchymateux N-cadhérine. Ainsi, une communication étroite et complexe entre les cellules cancéreuses et les CAF favorise la progression tumorale. En secrétant des facteurs solubles à activité protumorale et des protéines de la matrice extracellulaire, les CAF favorisent la prolifération, l’invasion et la chimiorésistance des cellules cancéreuses. Globalement, nos travaux soutiennent l'idée que l’inhibition de la transdifférenciation des fibroblastes sains en CAF est une cible thérapeutique de choix dans le développement de nouveaux anticancéreux.
Cancer-associated fibroblasts (CAFs) are the most abundant cell type of the tumor microenvironment. In vivo, aggressive tumors correlate with an enrichment of CAFs and a denser extracellular matrix. Indeed, the dynamic and reciprocal interactions between tumor cells and CAFs promote tumor progression. However, the molecules involved in these interactions, as well as their effects on the fate of the tumor and the remodeling of the microenvironment are poorly known. However, better define and understand the molecular mechanisms of this interaction is crucial to develop new treatments. Thus, we studied interactions between tumor cells and stromal cells in the microenvironment of bladder cancer. Exosomes are a class of extracellular vesicles with of endocytic origin measuring 30 to 200 nm in diameter. They are secreted by all types of cells and constitute, among others, a means of intercellular communication by transporting proteins, lipids and RNA from one cell to another. Cancer cells secrete a large amount of exosomes and these exert a role in the modulation of the tumor microenvironment, notably by activating healthy fibroblasts in CAFs. The work presented in this thesis has demonstrated that the exosomes secreted by cancer cells are internalized by vesical fibroblasts and promote their proliferation. In addition, exosomes derived from cancer cells activate healthy fibroblasts in CAFs using the TGFβ that they transport. The neutralization of TGFβ by specific antibodies confirms these results. Once activated, CAFs increase the proliferation, migration and invasion of cancer cells via a sustained secretion of the IL-6 molecule. Moreover, the blocking the IL-6 signaling pathway reverses the effects observed in cancer cells. We have also demonstrated that CAFs decrease the sensitivity of cancer cells to mitomycin C. Finally, CAFs remodel the extracellular matrix of the tumor microenvironment notably by an increased secretion of tenascin C and EDA-fibronectin oncofetal proteins, as well as a LOX-1 and MMP increased activity. In addition, the extracellular matrix generated by CAFs promotes the epithelio-mesenchymal transition of healthy urothelial cells by inhibiting the epithelial marker E-cadherin in favor of the mesenchymal marker N-cadherin. Thus, a close and complex communication between the cancer cells and the CAFs increases tumor progression. By secreting soluble factors with a pro-tumor activity and extracellular matrix proteins, CAFs promote the proliferation, invasion and chemoresistance of cancer cells. Overall, our work supports the idea that the inhibition of the transdifferentiation of healthy fibroblasts into CAFs is a therapeutic target of choice in the development of novel anticancer drugs.
Cancer-associated fibroblasts (CAFs) are the most abundant cell type of the tumor microenvironment. In vivo, aggressive tumors correlate with an enrichment of CAFs and a denser extracellular matrix. Indeed, the dynamic and reciprocal interactions between tumor cells and CAFs promote tumor progression. However, the molecules involved in these interactions, as well as their effects on the fate of the tumor and the remodeling of the microenvironment are poorly known. However, better define and understand the molecular mechanisms of this interaction is crucial to develop new treatments. Thus, we studied interactions between tumor cells and stromal cells in the microenvironment of bladder cancer. Exosomes are a class of extracellular vesicles with of endocytic origin measuring 30 to 200 nm in diameter. They are secreted by all types of cells and constitute, among others, a means of intercellular communication by transporting proteins, lipids and RNA from one cell to another. Cancer cells secrete a large amount of exosomes and these exert a role in the modulation of the tumor microenvironment, notably by activating healthy fibroblasts in CAFs. The work presented in this thesis has demonstrated that the exosomes secreted by cancer cells are internalized by vesical fibroblasts and promote their proliferation. In addition, exosomes derived from cancer cells activate healthy fibroblasts in CAFs using the TGFβ that they transport. The neutralization of TGFβ by specific antibodies confirms these results. Once activated, CAFs increase the proliferation, migration and invasion of cancer cells via a sustained secretion of the IL-6 molecule. Moreover, the blocking the IL-6 signaling pathway reverses the effects observed in cancer cells. We have also demonstrated that CAFs decrease the sensitivity of cancer cells to mitomycin C. Finally, CAFs remodel the extracellular matrix of the tumor microenvironment notably by an increased secretion of tenascin C and EDA-fibronectin oncofetal proteins, as well as a LOX-1 and MMP increased activity. In addition, the extracellular matrix generated by CAFs promotes the epithelio-mesenchymal transition of healthy urothelial cells by inhibiting the epithelial marker E-cadherin in favor of the mesenchymal marker N-cadherin. Thus, a close and complex communication between the cancer cells and the CAFs increases tumor progression. By secreting soluble factors with a pro-tumor activity and extracellular matrix proteins, CAFs promote the proliferation, invasion and chemoresistance of cancer cells. Overall, our work supports the idea that the inhibition of the transdifferentiation of healthy fibroblasts into CAFs is a therapeutic target of choice in the development of novel anticancer drugs.
Almairac, Fabien. "Plasticité des cellules tumorales de glioblastomes : inter-conversion d’un phénotype différencié et souche en fonction du microenvironnement". Electronic Thesis or Diss., Nice, 2016. http://theses.unice.fr/2016NICE4045.
Testo completoThere is great interest but little understanding in how cancer stem cells arise. Here we show that tumor cells exhibiting stem-like properties and expression of stemness(CD133) and pluripotency markers (SOX2, NANOG, OCT4), can arise from differentiated tumor cells that are isolated from human glioblastomas. These cells could transit from a more differentiated state that cannot self-renew to a self-renewing stem-like state upon EGF/EGFR signaling. This dedifferentiation process induced expression of pluripotency markers, and restored clonal and tumorigenic properties as well as resistance to temozolomide, the chemotherapy of reference. EGF/EGFR signaling including ERK activation was crucial for this cellular reprogramming. Interestingly, expression of pluripotency markers occurred before the cells re-entered the cell cycle, demonstrating that the cells have the capacity to change and reprogram before the cell division starts. Our findings support a model of tumor homeostasis in which tumor cells driven by environmental cues such as EGF, can spontaneously acquire stem-like properties contributing thus to the enrichment in tumor propagating cells
Almairac, Fabien. "Plasticité des cellules tumorales de glioblastomes : inter-conversion d’un phénotype différencié et souche en fonction du microenvironnement". Thesis, Nice, 2016. http://www.theses.fr/2016NICE4045/document.
Testo completoThere is great interest but little understanding in how cancer stem cells arise. Here we show that tumor cells exhibiting stem-like properties and expression of stemness(CD133) and pluripotency markers (SOX2, NANOG, OCT4), can arise from differentiated tumor cells that are isolated from human glioblastomas. These cells could transit from a more differentiated state that cannot self-renew to a self-renewing stem-like state upon EGF/EGFR signaling. This dedifferentiation process induced expression of pluripotency markers, and restored clonal and tumorigenic properties as well as resistance to temozolomide, the chemotherapy of reference. EGF/EGFR signaling including ERK activation was crucial for this cellular reprogramming. Interestingly, expression of pluripotency markers occurred before the cells re-entered the cell cycle, demonstrating that the cells have the capacity to change and reprogram before the cell division starts. Our findings support a model of tumor homeostasis in which tumor cells driven by environmental cues such as EGF, can spontaneously acquire stem-like properties contributing thus to the enrichment in tumor propagating cells
Benabbou, Nadia. "Implication de l'Insulin-like Growth Factor (IGF-I), secrété par le microenvironnement tumoral, dans la survie et la chimiorésistance des cellules cancéreuses". Phd thesis, Université Paris Sud - Paris XI, 2012. http://tel.archives-ouvertes.fr/tel-00921852.
Testo completoBenabbou, Nadia. "Implication de l’Insulin-like Growth Factor (IGF-I), secrété par le microenvironnement tumoral, dans la survie et la chimiorésistance des cellules cancéreuses". Thesis, Paris 11, 2012. http://www.theses.fr/2012PA11T100/document.
Testo completoThe microenvironment, composed of several cellular elements and extracellular matrix, plays an important role in tumor development and metastasis. Thus, the study of these interactions is important for cell targeted therapies fighting against chemoresistant tumor cells. This thesis aims to investigate the role of growth factor IGF-I in the chemoresistance of ovarian cancer cells and myeloid leukemia, present in the microenvironment.As a first step, we demonstrated that drug resistance of ovarian cancer cells gained by host cells (hospicells) is related to the secretion of IGF-I by these cells. We have also demonstrated that IGF-I is involved in the regulation of genes ABC (MDR-1, MRP1, MRP2, and BCRP) via STAT3, Jak2, PI3K et ERK signaling pathways.In myeloid leukemia, we have shown that IGF-I has an effect on cell proliferation. It induces the expression of P-gp protein and chemoresistance of cells sensitive to chemotherapy. We also determined the role of IGF-I in the resistance of leukemic cells in the presence of hospicells. These cells have an in vivo hyperangiogenic activity, related to HIF-1 and VEGF, and inhibit immune responses of T cells by NO production.We determined the crucial role of MMP-9 in resistant cells migration of breast cancer expressing P-gp protein and in the formation of a tubular network, suggesting a link between the expression of P-gp and MMP-9
Mathot, Pauline. "Mécanismes épigénétiques et réponse des cellules cancéreuses au microenvironnement : implication de la méthylation de l’ADN et de l’un de ses interprètes, MBD2". Thesis, Lyon, 2017. http://www.theses.fr/2017LYSE1163/document.
Testo completoBreast cancers develop in complex tissue environments where cancer associated fibroblasts (CAF) play a crucial role in tumorigenesis by secreting various growth factors, cytokines, proteases and extracellular matrix components. Soluble factors secreted by CAFs are involved in many pathways including inflammation, metabolism, proliferation, and epigenetic modulation suggesting that CAF-dependent reprograming of cancer cells affects a large set of genes. From RNAseq data obtained from breast cancer cell lines grown in presence of CAF-secreted factors, we identified 372 upregulated genes exhibiting an expression level positively correlated with the stromal content of breast cancer specimens. Furthermore, we observed that gene expression changes were not mediated through significant DNA methylation changes. Nevertheless CAF-secreted factors but also stromal content of the tumors remarkably activated specific genes characterized by a DNA methylation signature: hypermethylation at transcription start site (TSS) and shore regions. Experimental approaches (inhibition of DNA methylation, knockdown of MBD2, and ChIP assays) demonstrated the implication of DNA methylation and methyl DNA binding protein in the response of cancers cells to CAF-secreted factors. These data put in light the importance of epigenetics marks in the cancer cell reprogramming induced by stromal cell and indicate that the interpreters of the DNA methylation signal play a major role in the response of the cancer cells to the microenvironment
Pinet, Sandra. "Rôle du transfert des récepteurs des neurotrophines via les exosomes dans l'agressivité du glioblastome et le contrôle du microenvironnement". Thesis, Limoges, 2016. http://www.theses.fr/2016LIMO0039/document.
Testo completoGlioblastoma are tumors derived from astrocytes with a dark prognosis. Current therapies fail to inhibit relapses due to radioresistant properties of cancer stem cells (CSC). Communication between CSC and their microenvironment is required for maintain “stem cells niche” and cell survival . The transfer of materials between CSC, tumor cells and microenvironment contributes to therapeutic resistance. In glioma, recent studies reveal the major role of TrkB and TrkC in survival of CSC. Our previous work, in lung cancer, have shown that neurotrophin receptors exhibits a control on microenvironment cells and angiogenesis through exosome transfer. However, similar mechanism of oncogenic receptor transfer from CSC has never been studied. Our main goal was to determine the involvement of neurotrophin receptors in the transfer of biological aggressiveness to microenvironment cells in order to promote therapeutic resistance in glioblastoma. Our findings suggest a relationship between cell differentiation status, expression of neurotrophin receptors and their interaction with the microenvironment through exosomes. TrkB-containing exosomes play a key role in the control of glioblastoma progression and cell aggressiveness. Mechanisms of radioresistance might also be dependent of the transfer of neurotrophin receptors through exosomes. Indeed, our results on irradiated human GBM cells and treated by exosomes demonstrate the involvement of exosome in radioresistance mechanisms. Although mesenchymal stem cells (MSCs) are considered as stromal components of glioblastoma, their communication with CSC, particularly through exosomes, remain largely undefined. Our results show that GBM-derived exosomes modify the phenotype of MSCs and increase their proliferative and migratory abilities. The putative function of neurotrophin receptors transfer should be analyzed in these models to determine their prime role in glioblastoma pathogenesis and progression. This finding suggest that the neurotrophin receptor expression in exosomes could be used as diagnostis and prognosis biomarkers of GBM
Martin, Julie. "Impact du microenvironnement des cancers du sein sur le protéome membranaire endothélial (MiMEndo)". Electronic Thesis or Diss., Reims, 2023. http://www.theses.fr/2023REIMS046.
Testo completoThe multifunctional endocytosis receptor LRP1 plays a crucial role in regulating cancer cell aggressiveness, fibroblast behavior and angiogenesis. In breast cancer microenvironment, cancer-associated fibroblasts (CAF) play a key role in formation and remodeling of the extracellular matrix and tumor niche. The role of LRP1, highly expressed in CAF, remains poorly described in terms of its influence on endothelial cell behavior.To study the impact of stromal LRP1 expression on angiogenesis, we used different cell models: murine embryonic fibroblasts (MEF-1), MEF-1 invalidated for LRP1 (PEA-13) and CAF2 cells derived from breast cancer, invalidated or not for LRP1 by RNA interference. We used conditioned media and fibroblast-derived matrices to simulate the angiogenic effects of fibroblasts and CAF on endothelial cells.Our results show that LRP1 invalidation in embryonic fibroblasts and mammary CAF results in distinct effects on critical endothelial cell parameters. LRP1 expression in MEF-1 does not affect endothelial functions, while its presence in CAF diminishes angiogenic capacities and directs matrix remodeling processes in a manner unfavorable to endothelial migration. Through a comprehensive proteomic analysis of endothelial surface signaling platforms regulated by CAF-derived signals, we observed differential expression of secreted matrix compounds, surface receptors and membrane-associated proteins as a function of LRP1 expression in secretory cells. Analysis of CAF2-conditioned media revealed LRP1-dependent angiocrine signals, although no differences were detected in glycosaminoglycan composition. In conclusion, LRP1 expression in MEFs has no impact on endothelial functions, whereas in CAFs the receptor reduces angiogenic capacities. The identification of LRP1-modulated targets on the surface of endothelial cells will enable us to decipher the angiogenic pathways controlled by LRP1 in the fibroblastic compartment
Desmaison, Annaïck. "Impact des contraintes mécaniques sur la division cellulaire : analyse dans modèle tumoral multicellulaire en 3 dimensions : le sphéroïde". Toulouse 3, 2014. http://thesesups.ups-tlse.fr/2367/.
Testo completoA tumor micro-region consists of a heterogeneous cancer cell population organized in a 3D structure in which cell growth is influenced by interaction with the microenvironment. Changes in mechanical homeostasis within tissues are observed during tumor growth, leading to high pressure and tension forces within the growing tumor. Those changes in mechanical properties of the microenvironment participate to tumor development by influencing, amongst others, proliferation and migration of tumor cells. One important aspect of the control of proliferation is the regulation of the cell cycle. Many studies have demonstrated that mitosis progression, the division process of cell cycle, is not only biochemically regulated, but also mechanically regulated. However, the impact of mechanical cues on mitotic progression has essentially been documented using 2D monolayer-based models and very little is known about the consequences of mechanical stress on cell division within tumors. In this context, my goal was to investigate the impact of mechanical stress on cell division in MultiCellular Tumor Spheroids (MCTS), an in vitro model that mimics 3D cell organization and heterogeneity found in tumor microregions in vivo. We first induced mechanical stress on MCTS by restricting their growth in a confined environment. We demonstrated that mechanical stress impairs cell division. The study of the dynamics of mitosis progression within MCTS mechanically constrained in agarose, showed that mechanical stress induces a delay in prometaphase. This delay may be due to a transient defect in spindle assembly, and possibly implies actin filament dynamics. This defect in spindle assembly does not seem to induce a preferential orientation deviation of the division axis of cells within spheroids. Futhermore, we showed that in this mechanical stressed condition, drugs destabilizing the actomyosin cytoskeleton do not alter mitosis anymore, suggesting that signaling pathways could be activated and avoid aberrant mitosis progression. Altogether these results suggest that mechanical stress induced by progressive confinement of growing spheroid could slow down mitotic progression. However, a defect in mitosis progression could lead to chromosomes missegregation, responsible for increased genomic instability and cellular heterogeneity. This genetic heterogeneity characteristic of tumors is one of the major reasons for the limited efficiency of current therapeutic strategies. Mechanical stress might also induce the activation of specific pathways able to bypass the effect of certain drugs. This study paves the way for future research to a better understanding of the tumor cell response to mechanical cues similar to those encountered during in vivo tumor development. It could contribute to defining important characteristics of mechanical parameters of tumor on drug efficiency and open new perspectives in anti-tumor therapy
Cartier-Michaud, Amandine. "Etude de l'influence du PAI-1 matriciel sur la régulation de la transition Mésenchymo-Amiboïde des cellules cancéreuses". Phd thesis, Université d'Evry-Val d'Essonne, 2010. http://tel.archives-ouvertes.fr/tel-00875713.
Testo completoLibri sul tema "Microenvironnement des cellules cancéreuses"
Roger, Lacave, Larsen Christian-Jacques e Robert Jacques 1949-, a cura di. Cancérologie fondamentale. Montrouge: J. Libbey-Eurotext, 2005.
Cerca il testo completo1947-, Barry John M., a cura di. Xi bao zhuan xing. Taibei Shi: Shi bao wen hua chu ban gong si, 1993.
Cerca il testo completoMichael, Barry John, a cura di. The transformed cell: Unlocking the mysteries of cancer. London: Chapmans Publishers, 1992.
Cerca il testo completo1947-, Barry John M., a cura di. The transformed cell: Unlocking the mysteries of cancer. New York: Putnam, 1992.
Cerca il testo completo1947-, Barry John M., a cura di. The transformed cell: Unlocking the mysteries of cancer. London: Phoenix, 1993.
Cerca il testo completoPatricia, Kahn, e Graf T, a cura di. Oncogenes and growth control. Berlin: Springer-Verlag, 1986.
Cerca il testo completo1955-, Hannun Yusuf A., e Boustany Rose-Mary, a cura di. Apoptosis in neurobiology. Boca Raton: CRC Press, 1999.
Cerca il testo completoLancker, Julien L. Van. Apoptosis, genomic integrity, and cancer: An introduction to interacting molecules. Boston: Jones and Bartlett Publishers, 2006.
Cerca il testo completoLancker, Julien L. Van. Apoptosis, genomic integrity, and cancer. Sudberry, MA: Jones and Bartlett Publishers, 2005.
Cerca il testo completoM, Franks L., e Teich N. M, a cura di. Introduction to the cellular and molecular biology of cancer. 2a ed. Oxford: Oxford University Press, 1991.
Cerca il testo completoCapitoli di libri sul tema "Microenvironnement des cellules cancéreuses"
Martin, P. M., e L’H Ouafik. "Interactions entre les cellules tumorales et le microenvironnement tissulaire : « Quand le dialogue remplace le monologue »". In Cancer du sein avancé, 97–123. Paris: Springer Paris, 2007. http://dx.doi.org/10.1007/978-2-287-72615-6_11.
Testo completoLONDOÑO-VALLEJO, Arturo. "Les télomères et le cancer". In Les télomères, 259–86. ISTE Group, 2024. http://dx.doi.org/10.51926/iste.9097.ch11.
Testo completoAtti di convegni sul tema "Microenvironnement des cellules cancéreuses"
Dubuc, A., P. Monsarrat, S. Laurencin-Dalicieux, F. Virard, J. P. Sarrette, N. Merbahi e S. Cousty. "Application du plasma atmosphérique froid en oncologie : une revue systématique". In 66ème Congrès de la SFCO. Les Ulis, France: EDP Sciences, 2020. http://dx.doi.org/10.1051/sfco/20206603018.
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