Tumor invasion margin from diffusion weighted imaging

Mosayebi, Parisa

06 1900

Glioma is one of the most challenging types of brain tumors to be treated or controlled locally. One of the main problems is to determine which areas of the apparently normal brain contain glioma cells, as gliomas are known to infiltrate several centimetres beyond the clinically apparent lesion that is visualized on standard CT or MRI. To ensure that radiation treatment encompasses the whole tumor, including the cancerous cells not revealed by MRI, doctors treat the volume of brain that extends 2cm out from the margin of the visible tumor. This approach does not consider varying tumor-growth dynamics in different brain tissues, thus it may result in killing some healthy cells while leaving cancerous cells alive in other areas. These cells may cause recurrence of the tumor later in time which limits the effectiveness of the therapy. In this thesis, we propose two models to define the tumor invasion margin based on the fact that glioma cells preferentially spread along nerve fibers. The first model is an anisotropic reaction-diffusion type tumor growth model that prioritizes diffusion along nerve fibers, as given by DW-MRI data. The second proposed approach computes the tumor invasion margin using a geodesic distance defined on the Riemannian manifold of brain bers. Both mathematical models result in Partial Differential Equations (PDEs) that have to be numerically solved. Numerical methods used for solving differential equations should be chosen with great care. A part of this thesis is dedicated to discuss in detail, the numerical aspects such as stability and consistency of different finite difference methods used to solve these PDEs. We review the stability issues of several 2D methods that discretize the anisotropic diffusion equation and we propose an extension of one 2D stable method to 3D. We also analyze the stability issues of the geodesic model. In comparison, the geodesic model is numerically more stable than the anisotropic diffusion model since it results in a rst-order PDE. Finally, we evaluate both models on actual DTI data from patients with glioma by comparing our predicted growth with follow-up MRI scans. Results show improvement in predicting the invasion margin when using the geodesic distance model as opposed to the 2cm conventional Euclidean distance.

tumor invasion margin

Tumor invasion margin from diffusion weighted imaging

Mosayebi, Parisa

Unknown Date

No description available.

tumor invasion margin

Role of basement membranes and their break-down in human carcinomas:a study by <em>in situ</em> hybridization and immunohistochemistry of the expression of laminin chains, matrix metalloproteinases (MMPs) and their tissue inhibitors of metalloproteinases (TIMPs)

Määttä, M. (Marko)

19 October 2000

Abstract In malignancies many alterations involving matrix macromolecule synthesis, secretion and assembly into basement membranes (BMs) as well as their degradation are present. The most important groups associated with matrix turnover are matrix metalloproteinases (MMPs) and their inhibitors (TIMPs). In this study altogether 285 tissue samples were investigated comprising various malignant epithelial tumors and normal tissue structures, in which the distribution of different laminin chains was studied immunohistochemically. Laminin α5, β1 and γ1 were detected almost in all the BMs studied including normal tissues and malignancies, whereas α1 chain of laminin was present only in certain BMs. Laminin γ2 chain was solely expressed by epithelial BMs and was present in intracellular space especially in individual carcinoma cells infiltrating in the tumor stroma and in tumor cells in close contact with BM zone. Generally epithelial tumors contained quite well-formed BMs around their tumor clusters, except for infiltrative breast carcinoma and diffuse type gastric carcinoma. In situ hybridization revealed that only epithelial cells contained mRNAs for laminin α1 and γ2 chains, whereas laminin β1 chain and α1(IV) collagen were synthesized mainly by stromal cells. mRNA for MMP-2 was produced mainly by stromal cells in hepatocellular carcinoma of liver (HCC) and pancreatic adenocarcinoma, whereas MMP-9 and MT1-MMP were equally synthesized by carcinoma cells and cells of tumor stroma. However, in HCCs of grade III carcinoma cells predominated in their MT1-MMP expression. All three MMPs were immunolocalized to malignant epithelial cells and showed variably stromal cell positivity. Statistically mRNA synthesis for MT1-MMP was significantly associated with the shortened survival of patients with HCC (P ≤ 0.01). TIMP-1-3 mRNA, and especially TIMP-3, expressions in normal endometrium were significantly increased in endometrial stromal cells towards the secretory phase. In various endometrial hyperplasias TIMPs and MT1-MMP expressions were quite comparable to those seen in proliferating endometrium. In endometrial adenocarcinomas their expressions were significantly increased and the most intensified mRNA expressions were seen in grade III adenocarcinomas. Especially TIMP-3 and MT1-MMP mRNAs were synthesized by carcinoma cells. The results indicate that epithelial malignancies are capable of active synthesis and assembly of BM macromolecules. Simultaneous matrix synthesis and degradation seen in malignancies suggest that the mechanisms involved in matrix turnover are not lost during malignant transformation. mRNA synthesis for MMPs and TIMPs is generally increased in epithelial malignancies. The results therefore strongly support the concept that MMPs have an active role in carcinoma cell invasion.

immunolocalization

mRNA synthesis

matrix degradation

tumor invasion

Einfluss von Mifamurtid auf die Makrophagen-induzierte Tumorinvasion von Brustkrebszellen / The influence of Mifamurtid on the macrophage-induced tumorinvasion of breastcancer

Jautz, Jonas

31 July 2019

No description available.

610

macrophage-induced tumor invasion

Análise do comportamento das células de linhagens de carcinoma espinocelular de boca em microambiente ácido

Silva, Viviane Palmeira da

January 2017

Ampliar nosso conhecimento sobre a biologia do carcinoma espinocelular bucal é fundamental para o desenvolvimento de novas estratégias terapêuticas e para melhorar a sobrevida dos pacientes acometidos por essa patologia. Para tanto, compreender as contribuições do microambiente tumoral à carcinogênese é muito importante. Um característica importante a ser avaliada do microambiente tumoral é a acidificação do meio extracelular. Considerando que o pH ácido tumoral está relacionado à maior agressividade da lesão, o objetivo deste projeto é estudar os efeitos de um microambiente ácido na biologia de células de carcinoma espinocelular bucal. Para tanto, foram realizadas duas revisões da literatura, nas quais foram avaliados os seguintes temas: influência da acidez extracelular na invasão e migração; e os mecanismos moleculares envolvidos na resistência ao tratamento quimioterápico, induzida pela acidez do microambiente tumoral. Tais revisões embasaram a construção do terceiro artigo desta tese, o qual se propôs a comparar o comportamento de células linhagens de carcinoma espinocelular bucal (SCC-4 e SCC-9) e queratinócitos (HaCat) cultivadas em meio de cultura de pH 6.8 com células mantidas em meio neutro pH 7.4. As células foram expostas de forma contínua ou intermitente ao pH 6.8 e a adaptação das células foi avaliada pelo ensaio clonogênico. Além disso, as células foram avaliadas quanto à sua capacidade migratória pelo ensaio de cicatrização de feridas e de time lapse. A expressão gênica relacionada à indiferenciação e pluripotência foi investigada por PCR em tempo real com os marcadores Bmi-1 e CD44, assim como pelo ensaio de orosferas. A resistência desses grupos de células ao tratamento anti-câncer foi avaliada pelo ensaio de viabilidade celular da sulforodamina B após o tratamento com Cisplatina. Para a análise estatística, inicialmente foi realizada a distribuição dos dados, seguido da comparação estatística dos grupos utilizando, para distribuição normal, os testes ANOVA e ANOVA de duas vias. Toda a análise foi realizada no programa GraphPad Prism 5.0 e o nível de significância considerado foi de p< 0.05.Observamos que ambas as linhagens mudaram sua morfologia para um aspecto mesenquimal. Ao avaliar o perfil migratório observou-se que as células SCC-9 apresentaram maior capacidade de migração após a exposição ao pH6.8. O aumento da migração celular pode ser causado pela indução da transição epitélio-mesênquima, visto que observamos o aumento da expressão de N-caderina (SCC-4:p<0.05) concomitante à diminuição de E-caderina (SCC-4: p<0.05). A exposição à acidez também provocou, em ambas as linhagens, aumento da capacidade de formar orosferas em placa de baixa aderência, denotando um fenótipo pluripotente (SCC-4: p=0.007/ SCC-9: p= 0.1202). Tal resultado foi reforçado com aumento da expressão gênica do marcador de célula-tronco tumoral CD44 (p= 0.0325). na linhagem SCC-4. No entanto, observamos diminuição da expressão de Bmi-1(p=0.0572) em relação ao controle. A resistência à Cisplatina aumentou nos casos de exposição contínua à acidez (SCC-4: p<0,05). O recondicionamento em meio neutro reverteu a sensibilidade celular (SCC-4: p>0,05). Concluímos que a acidez extracelular no carcinoma espinocelular bucal aumenta a capacidade de migração, induz o fenótipo de células tronco-tumorais e aumenta a resistência a quimioterápicos. / To expand our knowledge about the biology of oral squamous cell carcinoma is crucial for the development of new therapeutic strategies and to improve the survival of the patients affected by this pathology. Therefore, understanding the contributions of the tumor microenvironment to carcinogenesis is very important. An important feature to be evaluated of the tumor microenvironment is the acidification of the extracellular medium. Considering that acidic pH is related to the greater aggressiveness of the tumor, the aim of this study is to analyze the effects of an acidic microenvironment on the biology of oral squamous cell carcinoma cells. We realized two reviews of the literature, in which the following themes were evaluated: the influence of extracellular acidity on the invasion and migration; and the molecular mechanisms involved in the resistance to chemotherapeutic treatment, induced by the acidity of the tumor microenvironment. These revisions helped to construct the third article of this thesis, which proposed to compare the behavior of squamous cell carcinoma lines (SCC-4 and SCC-9) and keratinocytes (HaCat), cultured under pH 6.8 was compared to cells maintained at pH 7.4. For the statistical analysis, the data distribution was initially performed, followed by the statistical comparison of the groups using, for normal distribution, ANOVA and ANOVA two-way tests. All analysis was performed in the GraphPad Prism 5.0 program and the level of significance considered was p <0.05.After continuous or intermittent exposure to pH 6.8, cell adaptation was assessed by the clonogenic assay. In addition, the migratory capacity of the cells was evaluated by the wound healing and time-lapse assays. The gene expression related to undifferentiation and pluripotency was assessed by real-time PCR analysis of the Bmi-1 and CD44 markers, as well as by the orosphere assay. The resistance of these cell groups to anti-cancer treatment was assessed by the sulforhodamine B cell viability assay after treatment with Cisplatin. We observed that both cell lines changed their morphology to a mesenchymal aspect. When assessed the migratory profile, it was observed that SCC-9 cells showed higher migration capacity after exposure to pH6.8. Increased cell migration may be caused by the induction of the epithelial-mesenchymal transition, as we observed increased N-cadherin (SCC-4:p<0.05) expression concomitant with decreased E-cadherin (SCC-4: p<0.05). Exposure to acidity also led to increased ability to form orospheres on low-attachment dishes, denoting a pluripotent phenotype in both strains (SCC-4: p=0.007/ SCC-9: p= 0.1202). This result was reinforced by increased expression of the CD44 (p= 0.0325) tumor cell marker in the SCC- 4 cells. However, we observed a decrease in the expression of Bmi-1(p=0.0572) in relation to the control. Resistance to Cisplatin increased when cells were continuously exposed to acidity(SCC-4: p<0,05). Neutral reconditioning reversed cell sensitivity (SCC-4: p>0,05). We conclude that extracellular acidity in oral squamous cell carcinoma increases the migration capacity, induces the cancer stem cell phenotype and increases resistance to chemotherapy.

Neoplasias bucais

Oral cancer

Acidosis

Cancer stem-cell

Tumor invasion

Chemoterapy

Metastasis

Mathematical representations in musculoskeletal physiology and cell motility

Graham, Jason Michael

01 July 2012

Research in the biomedical sciences is incredibly diverse and often involves the interaction of specialists in a variety of fields. In particular, quantitative, mathematical, and computational methods are increasingly playing significant roles in studying problems arising in biomedical science. This is particularly exciting for mathematical modeling as the complexity of biological systems poses new challenges to modelers and leads to interesting mathematical problems. On the other hand mathematical modeling can provide considerable insight to laboratory and clinical researchers. In this thesis we develop mathematical representations for three biological processes that are of current interest in biomedical science. A deeper understanding of these processes is desirable not only from the standpoint of basic science, but also because of the connections these processes have with certain diseases. The processes we consider are collective cell motility, bone remodeling, and injury response in articular cartilage. Our goals are to develop mathematical representations of these processes that can provide a conceptual framework for understanding the processes at a fundamental level, that make rigorous the intuition biological researchers have developed about these processes, and that help to translate theoretical and experimental work into information that can be used in clinical settings where the primary concern is in treating diseases associated with the process.

Articular Cartilage

Bone Remodeling

Cell Motility

Level set method

Nonlinear Diffusion

Tumor Invasion

Applied Mathematics

Extracellular vesicles as mediators of intercellular communication in human breast cancer progression

Menck, Kerstin

31 March 2014

No description available.

Extracellular vesicles

Breast cancer

Tumor invasion

EMMPRIN

Glycosylation

Tumor-associated macrophages

Wnt5a

Tumor microenvironment

Análise do comportamento das células de linhagens de carcinoma espinocelular de boca em microambiente ácido

Silva, Viviane Palmeira da

January 2017

Ampliar nosso conhecimento sobre a biologia do carcinoma espinocelular bucal é fundamental para o desenvolvimento de novas estratégias terapêuticas e para melhorar a sobrevida dos pacientes acometidos por essa patologia. Para tanto, compreender as contribuições do microambiente tumoral à carcinogênese é muito importante. Um característica importante a ser avaliada do microambiente tumoral é a acidificação do meio extracelular. Considerando que o pH ácido tumoral está relacionado à maior agressividade da lesão, o objetivo deste projeto é estudar os efeitos de um microambiente ácido na biologia de células de carcinoma espinocelular bucal. Para tanto, foram realizadas duas revisões da literatura, nas quais foram avaliados os seguintes temas: influência da acidez extracelular na invasão e migração; e os mecanismos moleculares envolvidos na resistência ao tratamento quimioterápico, induzida pela acidez do microambiente tumoral. Tais revisões embasaram a construção do terceiro artigo desta tese, o qual se propôs a comparar o comportamento de células linhagens de carcinoma espinocelular bucal (SCC-4 e SCC-9) e queratinócitos (HaCat) cultivadas em meio de cultura de pH 6.8 com células mantidas em meio neutro pH 7.4. As células foram expostas de forma contínua ou intermitente ao pH 6.8 e a adaptação das células foi avaliada pelo ensaio clonogênico. Além disso, as células foram avaliadas quanto à sua capacidade migratória pelo ensaio de cicatrização de feridas e de time lapse. A expressão gênica relacionada à indiferenciação e pluripotência foi investigada por PCR em tempo real com os marcadores Bmi-1 e CD44, assim como pelo ensaio de orosferas. A resistência desses grupos de células ao tratamento anti-câncer foi avaliada pelo ensaio de viabilidade celular da sulforodamina B após o tratamento com Cisplatina. Para a análise estatística, inicialmente foi realizada a distribuição dos dados, seguido da comparação estatística dos grupos utilizando, para distribuição normal, os testes ANOVA e ANOVA de duas vias. Toda a análise foi realizada no programa GraphPad Prism 5.0 e o nível de significância considerado foi de p< 0.05.Observamos que ambas as linhagens mudaram sua morfologia para um aspecto mesenquimal. Ao avaliar o perfil migratório observou-se que as células SCC-9 apresentaram maior capacidade de migração após a exposição ao pH6.8. O aumento da migração celular pode ser causado pela indução da transição epitélio-mesênquima, visto que observamos o aumento da expressão de N-caderina (SCC-4:p<0.05) concomitante à diminuição de E-caderina (SCC-4: p<0.05). A exposição à acidez também provocou, em ambas as linhagens, aumento da capacidade de formar orosferas em placa de baixa aderência, denotando um fenótipo pluripotente (SCC-4: p=0.007/ SCC-9: p= 0.1202). Tal resultado foi reforçado com aumento da expressão gênica do marcador de célula-tronco tumoral CD44 (p= 0.0325). na linhagem SCC-4. No entanto, observamos diminuição da expressão de Bmi-1(p=0.0572) em relação ao controle. A resistência à Cisplatina aumentou nos casos de exposição contínua à acidez (SCC-4: p<0,05). O recondicionamento em meio neutro reverteu a sensibilidade celular (SCC-4: p>0,05). Concluímos que a acidez extracelular no carcinoma espinocelular bucal aumenta a capacidade de migração, induz o fenótipo de células tronco-tumorais e aumenta a resistência a quimioterápicos. / To expand our knowledge about the biology of oral squamous cell carcinoma is crucial for the development of new therapeutic strategies and to improve the survival of the patients affected by this pathology. Therefore, understanding the contributions of the tumor microenvironment to carcinogenesis is very important. An important feature to be evaluated of the tumor microenvironment is the acidification of the extracellular medium. Considering that acidic pH is related to the greater aggressiveness of the tumor, the aim of this study is to analyze the effects of an acidic microenvironment on the biology of oral squamous cell carcinoma cells. We realized two reviews of the literature, in which the following themes were evaluated: the influence of extracellular acidity on the invasion and migration; and the molecular mechanisms involved in the resistance to chemotherapeutic treatment, induced by the acidity of the tumor microenvironment. These revisions helped to construct the third article of this thesis, which proposed to compare the behavior of squamous cell carcinoma lines (SCC-4 and SCC-9) and keratinocytes (HaCat), cultured under pH 6.8 was compared to cells maintained at pH 7.4. For the statistical analysis, the data distribution was initially performed, followed by the statistical comparison of the groups using, for normal distribution, ANOVA and ANOVA two-way tests. All analysis was performed in the GraphPad Prism 5.0 program and the level of significance considered was p <0.05.After continuous or intermittent exposure to pH 6.8, cell adaptation was assessed by the clonogenic assay. In addition, the migratory capacity of the cells was evaluated by the wound healing and time-lapse assays. The gene expression related to undifferentiation and pluripotency was assessed by real-time PCR analysis of the Bmi-1 and CD44 markers, as well as by the orosphere assay. The resistance of these cell groups to anti-cancer treatment was assessed by the sulforhodamine B cell viability assay after treatment with Cisplatin. We observed that both cell lines changed their morphology to a mesenchymal aspect. When assessed the migratory profile, it was observed that SCC-9 cells showed higher migration capacity after exposure to pH6.8. Increased cell migration may be caused by the induction of the epithelial-mesenchymal transition, as we observed increased N-cadherin (SCC-4:p<0.05) expression concomitant with decreased E-cadherin (SCC-4: p<0.05). Exposure to acidity also led to increased ability to form orospheres on low-attachment dishes, denoting a pluripotent phenotype in both strains (SCC-4: p=0.007/ SCC-9: p= 0.1202). This result was reinforced by increased expression of the CD44 (p= 0.0325) tumor cell marker in the SCC- 4 cells. However, we observed a decrease in the expression of Bmi-1(p=0.0572) in relation to the control. Resistance to Cisplatin increased when cells were continuously exposed to acidity(SCC-4: p<0,05). Neutral reconditioning reversed cell sensitivity (SCC-4: p>0,05). We conclude that extracellular acidity in oral squamous cell carcinoma increases the migration capacity, induces the cancer stem cell phenotype and increases resistance to chemotherapy.

Neoplasias bucais

Oral cancer

Acidosis

Cancer stem-cell

Tumor invasion

Chemoterapy

Metastasis

Análise do comportamento das células de linhagens de carcinoma espinocelular de boca em microambiente ácido

Silva, Viviane Palmeira da

January 2017

Ampliar nosso conhecimento sobre a biologia do carcinoma espinocelular bucal é fundamental para o desenvolvimento de novas estratégias terapêuticas e para melhorar a sobrevida dos pacientes acometidos por essa patologia. Para tanto, compreender as contribuições do microambiente tumoral à carcinogênese é muito importante. Um característica importante a ser avaliada do microambiente tumoral é a acidificação do meio extracelular. Considerando que o pH ácido tumoral está relacionado à maior agressividade da lesão, o objetivo deste projeto é estudar os efeitos de um microambiente ácido na biologia de células de carcinoma espinocelular bucal. Para tanto, foram realizadas duas revisões da literatura, nas quais foram avaliados os seguintes temas: influência da acidez extracelular na invasão e migração; e os mecanismos moleculares envolvidos na resistência ao tratamento quimioterápico, induzida pela acidez do microambiente tumoral. Tais revisões embasaram a construção do terceiro artigo desta tese, o qual se propôs a comparar o comportamento de células linhagens de carcinoma espinocelular bucal (SCC-4 e SCC-9) e queratinócitos (HaCat) cultivadas em meio de cultura de pH 6.8 com células mantidas em meio neutro pH 7.4. As células foram expostas de forma contínua ou intermitente ao pH 6.8 e a adaptação das células foi avaliada pelo ensaio clonogênico. Além disso, as células foram avaliadas quanto à sua capacidade migratória pelo ensaio de cicatrização de feridas e de time lapse. A expressão gênica relacionada à indiferenciação e pluripotência foi investigada por PCR em tempo real com os marcadores Bmi-1 e CD44, assim como pelo ensaio de orosferas. A resistência desses grupos de células ao tratamento anti-câncer foi avaliada pelo ensaio de viabilidade celular da sulforodamina B após o tratamento com Cisplatina. Para a análise estatística, inicialmente foi realizada a distribuição dos dados, seguido da comparação estatística dos grupos utilizando, para distribuição normal, os testes ANOVA e ANOVA de duas vias. Toda a análise foi realizada no programa GraphPad Prism 5.0 e o nível de significância considerado foi de p< 0.05.Observamos que ambas as linhagens mudaram sua morfologia para um aspecto mesenquimal. Ao avaliar o perfil migratório observou-se que as células SCC-9 apresentaram maior capacidade de migração após a exposição ao pH6.8. O aumento da migração celular pode ser causado pela indução da transição epitélio-mesênquima, visto que observamos o aumento da expressão de N-caderina (SCC-4:p<0.05) concomitante à diminuição de E-caderina (SCC-4: p<0.05). A exposição à acidez também provocou, em ambas as linhagens, aumento da capacidade de formar orosferas em placa de baixa aderência, denotando um fenótipo pluripotente (SCC-4: p=0.007/ SCC-9: p= 0.1202). Tal resultado foi reforçado com aumento da expressão gênica do marcador de célula-tronco tumoral CD44 (p= 0.0325). na linhagem SCC-4. No entanto, observamos diminuição da expressão de Bmi-1(p=0.0572) em relação ao controle. A resistência à Cisplatina aumentou nos casos de exposição contínua à acidez (SCC-4: p<0,05). O recondicionamento em meio neutro reverteu a sensibilidade celular (SCC-4: p>0,05). Concluímos que a acidez extracelular no carcinoma espinocelular bucal aumenta a capacidade de migração, induz o fenótipo de células tronco-tumorais e aumenta a resistência a quimioterápicos. / To expand our knowledge about the biology of oral squamous cell carcinoma is crucial for the development of new therapeutic strategies and to improve the survival of the patients affected by this pathology. Therefore, understanding the contributions of the tumor microenvironment to carcinogenesis is very important. An important feature to be evaluated of the tumor microenvironment is the acidification of the extracellular medium. Considering that acidic pH is related to the greater aggressiveness of the tumor, the aim of this study is to analyze the effects of an acidic microenvironment on the biology of oral squamous cell carcinoma cells. We realized two reviews of the literature, in which the following themes were evaluated: the influence of extracellular acidity on the invasion and migration; and the molecular mechanisms involved in the resistance to chemotherapeutic treatment, induced by the acidity of the tumor microenvironment. These revisions helped to construct the third article of this thesis, which proposed to compare the behavior of squamous cell carcinoma lines (SCC-4 and SCC-9) and keratinocytes (HaCat), cultured under pH 6.8 was compared to cells maintained at pH 7.4. For the statistical analysis, the data distribution was initially performed, followed by the statistical comparison of the groups using, for normal distribution, ANOVA and ANOVA two-way tests. All analysis was performed in the GraphPad Prism 5.0 program and the level of significance considered was p <0.05.After continuous or intermittent exposure to pH 6.8, cell adaptation was assessed by the clonogenic assay. In addition, the migratory capacity of the cells was evaluated by the wound healing and time-lapse assays. The gene expression related to undifferentiation and pluripotency was assessed by real-time PCR analysis of the Bmi-1 and CD44 markers, as well as by the orosphere assay. The resistance of these cell groups to anti-cancer treatment was assessed by the sulforhodamine B cell viability assay after treatment with Cisplatin. We observed that both cell lines changed their morphology to a mesenchymal aspect. When assessed the migratory profile, it was observed that SCC-9 cells showed higher migration capacity after exposure to pH6.8. Increased cell migration may be caused by the induction of the epithelial-mesenchymal transition, as we observed increased N-cadherin (SCC-4:p<0.05) expression concomitant with decreased E-cadherin (SCC-4: p<0.05). Exposure to acidity also led to increased ability to form orospheres on low-attachment dishes, denoting a pluripotent phenotype in both strains (SCC-4: p=0.007/ SCC-9: p= 0.1202). This result was reinforced by increased expression of the CD44 (p= 0.0325) tumor cell marker in the SCC- 4 cells. However, we observed a decrease in the expression of Bmi-1(p=0.0572) in relation to the control. Resistance to Cisplatin increased when cells were continuously exposed to acidity(SCC-4: p<0,05). Neutral reconditioning reversed cell sensitivity (SCC-4: p>0,05). We conclude that extracellular acidity in oral squamous cell carcinoma increases the migration capacity, induces the cancer stem cell phenotype and increases resistance to chemotherapy.

Neoplasias bucais

Oral cancer

Acidosis

Cancer stem-cell

Tumor invasion

Chemoterapy

Metastasis

Contrôle de l’invasion tumorale par la matrice extracellulaire : étude du rôle de la ténascine-x / Regulation of cell signalling in the control of tumor cell invasion by tenascin-X, an extracellular matrix glycoprotein

Margaron, Yoran

11 December 2009

La ténascine-X (TNX) est une glycoprotéine de la matrice extracellulaire. Son expression est fortement réprimée dans de nombreux cancers et l’invasion tumorale est accrue chez des souris TNX-/-. La TNX apparaît donc comme un répresseur potentiel du développement des tumeurs. L’objectif de notre travail est d’étudier cet effet présumé et d’en comprendre les mécanismes, en analysant in vitro le rôle de la TNX sur la croissance et la migration de cellules de fibrosarcome HT-1080 dans des modèles de culture bi- et surtout tridimensionnels, plus représentatifs de l’environnement cellulaire in vivo. Nos résultats montrent que la TNX inhibe la croissance des cellules tumorales, sans induire de mort apoptotique ou nécrotique. Des observations par microscopie confocale ont montré que la présence de TNX réduit l’étalement des cellules ainsi que leur efficacité de migration. Nous avons pu mettre en évidence que la TNX provoque un ralentissement de la migration des cellules tumorales ainsi qu’une diminution de la directionnalité de leurs trajectoires. L’observation de la protéolyse du collagène de type I par les cellules en migration montre qu’elle est inhibée en présence de TNX. Par ailleurs, la TNX réduit l’expression et l’activation des MMP 2, MMP-9, et MT1 MMP. Certaines voies de signalisation associées ont été étudiées : la TNX inhibe la phosphorylation de FAK sur sa tyrosine 397, ainsi que l’activation des GTPases RhoA et Rac, sans affecter celle de Cdc42. Par une régulation fine de ces molécules, qui sont impliquées dans le contrôle de la croissance et de la migration cellulaire, la TNX se caractérise comme un inhibiteur extracellulaire de l’invasion tumorale / Tenascin-X (TNX) is involved not only in the organisation of the extracellular matrix architecture but also in the regulation of cell behaviour. This matrix glycoprotein is down-regulated in many tumor types, while tumor invasion is promoted in TNX-deficient mice. In order to decipher the mechanisms by which TNX modulates tumor cell growth and migration, we compared the behaviour of HT1080 fibrosarcoma cells in conventionnal 2D culture model or embedded in 3D collagen gels, both containing or not recombinant TNX. Some experimentations have permit us to demonstrate that TNX inhibits tumor cells growth, without inducing apoptotic or necrotic cell death. Laser confocal microscopy observations demonstrated that the presence of TNX reduces cell spreading and migration efficency. Moreover, video time-lapse analysis showed that TNX reduces both velocity and directionnality of cell migration. This result is partly due to a decrease of pericellular proteolysis, as observed in situ using FITC-collagen-containing gels. Besides, we showed that TNX led to a decrease of MMP 2, MMP-9, MT1 MMP expression and activity. Then, we determined that both FAK phosphorylation on tyrosine 397 and activation of Rac1/2/3 and RhoA small GTPases were inhibited in TNX conditions. An inactivation of these small GTPases of the Rho family is known to deregulate cell cycle and highly decrease tumor cell spreading and migration efficiency in 3D environment. Taken together, these results indicate that TNX is an extracellular inhibitor of cell invasion, which acts by downregulating the main signalling pathways responsible for cell growth and motility in 3D-collagen gels

Migration cellulaire en matrice 3D

Ténascine

Invasion tumorale

Signalisation cellulaire

3D cell migration

Tenascin

Tumor invasion

Cell signalling

572.69