Inhibition du canal SK3 et du développement de métastases par un ether-lipide synthétique / Inhibition of SK3 channel and metastasis development by a synthetic ether-lipid

Girault, Alban

24 June 2011

Il a été mis en évidence que le canal SK3 est un médiateur de la migration de cellules cancéreuses mammaires, une propriété essentielle à la formation de métastases. Par ailleurs, ce canal est inhibé par l’édelfosine, un éther-lipide ayant des propriétés anti-tumorales in vitro mais son usage en clinique a été abandonné en raison d’effets secondaires. Une première partie de ce travail a permis de déterminer les parties de l’édelfosine nécessaires à l’inhibition du canal SK3 et de la migration cellulaire. Ceci nous a permis de sélectionner l’Ohmline (1-O-Hexadécyl-2-O-Méthyl-sn-glycéro-lactose), un analogue non toxique de l’édelfosine qui conserve son activité inhibitrice de SK3 et de la migration. Dans un deuxième temps, nous avons testé ce lipide dans un modèle murin de développement tumoral et nous avons montré qu’il réduisait le développement des métastases sans modifier la tumeur primaire. En conclusion, nous avons décrit l’Ohmline qui est le premier inhibiteur lipidique de SK3 et qui pourrait devenir le premier membre d’une famille de composés lipidiques inhibiteurs de la formation de métastases. / It has been shown that SK3 channel was a mediator of breast cancer cells migration, a fundamental property for metastasis formation. In addition, edelfosine inhibits SK3 channel. This ether-lipid owns a high anti cancerous potential in vitro but its clinical use was hampered by some side effects, Firstly, we showed the structural parts of edelfosine required for SK3 channel inhibition and cell motility inhibition. Moreover, we selected Ohmline (1-O-Hexadécyl-2-O-Méthyl-sn-glycéro-lactose), an edlefosine’s analogue that preserves SK3 channel and motility inhibitory properties. Secondly, we evaluated this lipid on tumor development in nude mice model. We showed that this lipid reduces metastasis formation without effect on primary tumor. To conclude, we described Ohmline, the first lipid inhibitor of SK3. This compound should become the first member of a new family of metastasis lipid inhibitors.

Ether-lipides

Canal SK3

Cellules cancéreuses mammaires

Migration cellulaire

Métastases

Ether-lipid

SK3 channel

Breast cancer cells

Cells motility

Metastasis

Combinational Effects of Polymethoxyflavones and Atorvastatin in Inhibiting Human Breast Cancer Cells

Li, Longfang

01 January 2013

Utilization of potential synergistic interactions among different bioactive agents is a promising approach to inhibit complex diseases such as cancer. Nobiletin (NBT) and tangeretin (TAN) are major polymethoxyflavones (PMFs) found in citrus fruits. Herein, we studied NBT and TAN in combination with atorvastatin (ATST, Lipitor, a cholesterol-lowering drug) in MDAMB231 and MCF-7 human breast cancer cells. Both NBT/ATST and TAN/ATST combinations at low doses produced much stronger inhibitory effect on cancer cell viability in comparison to those produced by NBT, TAN, or ATST alone at much higher doses. Isobologram analysis confirmed that both NBT/ATST and TAN/ATST combinations produced strong synergy in inhibiting the growth of two breast cancer cell lines. Flow cytometry analysis showed that both NBT/ATST and TAN/ATST combinations caused significant cell cycle arrest at G0/G1 phase in MDAMB231 cells (ER+). Consistent with these results, PMFs and ATST combinations decreased expression levels of phospho Rb, cyclin D1, and CDK4. Further experiments showed that the combination treatment induced autophagy and late apoptosis in MDA-MB-231 cells. Meanwhile, co-treatment of PMFs and ATST induce G2/M phase in MCF-7 (ER+) cells.. The combination of PMFs and ATST also caused autophagy in MCF-7 cells, which was evidenced by activation of LC3B and P62. In conclusion, our result demonstrated strong synergy between two major citrus PMFs (NBT and TAN) and ATST in inhibiting human breast cancer cell growth.

MDA-MB-231 (ER-)

Food Science

Interdigitated ITO sensor for ECIS monitoring of breast cancer cells / Capteur interdigité en ITO pour le suivi par mesures d'impédance de cellules cancèreuses du sein

Martinez Santamaria, Jaime Andres

05 February 2019

Dans la lutte contre le cancer, la médecine personnalisée est une stratégie nécessaire et très prometteuse. En effet, il est primordial de pouvoir tester l'innocuité et l'efficacité de médicaments anticancéreux sur des échantillons provenant du patient lui-même, du fait de la diversité des réponses entre patients. Le but est d'améliorer la performance des soins et d'éviter des traitements inutiles et même parfois nocifs pour le patient. Ainsi, l'exemple de la chimiothérapie illustre parfaitement cette stratégie. Le cout élevé des molécules thérapeutiques, la nocivité de ces molécules et les réponses variées des patients face à une même molécule implique le recours aux tests de ces molécules sur un échantillon provenant du patient lui-même. Il en résulte un intérêt croissant dans le développement de tests simples, robustes et peu couteux permettant l'évaluation de la chimio sensibilité de cellules biologiques issues d'une biopsie. Les problématiques liées à la mise en place de tels tests sont la quantité de cellules disponibles dans une biopsie, la diversité des molécules thérapeutiques à tester et également le choix d'une technique de détection permettant de suivre la cinétique d'action des molécules sur les cellules biologiques. L'une des réponses à la faible quantité de cellules est le développement de tests dans des environnements microfluidiques qui nécessitent donc l'intégration et la miniaturisation d'une technique de détection. La stratégie qui sera étudiée dans cette thèse est l'utilisation de l'impedancemetrie par le biais d'électrodes inter digitées d'Oxyde d'Etain et d'Indium (ITO) pour l'analyse quantitative de l'état de cellules de cancer du sein pour des applications de criblage de médicaments anticancéreux. Ce matériau présente l'avantage d'être transparent permettant ainsi des mesures d'impédance qui pourrait être couplées à des mesures optiques dans un environnement microfluidique. Dans une première partie, nous avons caractérisé et étudié des électrodes inter digitées d'or et d'ITO pour des mesures d'impédance avec des cellules cancéreuses. Cette caractérisation par spectroscopie d'impédance réalisée dans des solutions de milieu de culture en présence et absence de cellules, ont permis de démontrer que la différence de sensibilité entre ces deux matériaux provenait à la fois d'une différence de comportement résistif mais également d'une différence d'impédance interfaciale, dans les deux cas à la défaveur de l'ITO. Après ce constat, nous avons donc poursuivi l'étude afin d'évaluer les capacités de l'ITO pour des mesures de chimio sensibilité de la molécule 5-fluorouracil et également proposé une stratégie pour améliorer la sensibilité de l'ITO tout en conservant sa transparence. La stratégie développée consiste en la modification de la surface de d'électrodes d'ITO avec de l'oxyde d'iridium pour améliorer la sensibilité de l'ITO, tout en gardant sa transparence. Cette approche est intéressante pour pouvoir concevoir un dispositif transparent et facile à coupler avec un système d'observation microscopique dans un environnement microfluidique / In the fight against cancer, personalized medicine is a necessary and very promising strategy. In fact, it is essential to be able to test the safety and effectiveness of anticancer drugs on samples from the patient, due to the diversity of responses between patients. The aim is to improve the performance of health care and avoid unnecessary and sometimes harmful treatments. Thus, chemotherapy perfectly illustrates this strategy. The high cost of therapeutic molecules, the harmfulness of these molecules and the varied responses of patients involve the use of tests with chemotherapeutic molecules on samples coming from cancer patients. This results in a growing interest in the development of simple, robust and inexpensive tests for assessing the chemo sensitivity of biological cells from a biopsy. The problems related to carrying out such tests are the quantity of cells available in a biopsy, the diversity of the therapeutic molecules to be tested and also the choice of a detection technique, able to monitor the kinetics of action of the molecules on the biological cells. One solution to the small amount of cells is to carry out the tests in microfluidic environments which therefore require the integration and miniaturization of a detection technique. The strategy that will be studied in this thesis is the use of electrical impedance with interdigitated electrodes of indium tin oxide (ITO) for the quantitative analysis of the state of breast cancer cells for screening applications of anticancer drugs. This material has the advantage of being transparent allowing impedance measurements that could be coupled to optical measurements in a microfluidic environment. In the first part, we characterized and studied interdigitated electrodes of gold and ITO for impedance measurements with cancer cells. This impedance spectroscopy characterization carried out in culture medium solutions, in the presence and absence of cells, demonstrated that the difference in sensitivity between these two materials comes from a difference in resistive behavior and also from a difference in interfacial impedance, in both cases to the disadvantage of ITO. After this, we continued the study to evaluate the capabilities of ITO for chemosensitivity measurements using the molecule 5 fluorouracil and we suggested a strategy to improve the sensitivity of ITO while maintaining its transparency. The strategy developed consists of modifying the surface of ITO electrodes with iridium oxide to improve the sensitivity of the ITO, while keeping its transparency. This approach is interesting for developing a transparent device and easy to couple with a microscopic observation system in a microfluidic environment

Médicine personnalisée

Electrodes interdigitées

Impédancemétrie

ITO

Oxyde d' iridium

Cellules de cancer du sein

Personalized medicine

Interdigitated electrodes

Impedance sensing

ITO

Iridium oxide

Breast cancer cells

620

Etude de l'implication des miARNs dans le cancer du sein triple négatif et la régulation de BRCA1. / Implication of the miARNs in sporadic triple negative breast cancer and in the regulation of BRCA1

Fkih m'hamed, Insaf

10 December 2015

Dans les cancers du sein triple négatif sporadiques, BRCA1 est fréquemment inactivé au niveau transcriptionnel, et il a été rapporté que cette inactivation peut être réalisée par une méthylation du promoteur. Plus récemment, il a été constaté que BRCA1 peut également être régulée au niveau post-transcriptionnel par les microARNs. L'accumulation de preuves indique que les miARNs ont un rôle causal dans la tumorigenèse. Nos travaux se sont axés sur l'étude de l’expression et des fonctions des microARN in vitro, in silico et ex vivo.Basé sur nos résultats de profilage de l'expression, quatre miARN candidats (miR-10b, miR-26a, miR-146a et miR-153) ont été choisis comme étant potentiellement impliqués dans le développement du cancer du sein triple négatif. Des essais d'expression exogènes ont révélé que miR-10b et miR-26a, mais pas miR-146a, peuvent réguler négativement l'expression du gène BRCA1 dans les cellules cancéreuses triple négatif MDA-MB-231 et luminales MCF7, alors que miR-153 pourrait réguler négativement l'expression du gène BRCA1 uniquement dans les cellules MCF7. L'analyse in silico des données de Cancer Genome Atlas (TCGA) a confirmé que miR-146a est significativement plus exprimé dans les tumeurs du sein triple négatif par rapport à d'autres tumeurs (non triple négatif) mammaires. L’étude ex vivo a montré que le niveau élévé d’expression de miR-146a et de miR-26 est associé à l’absence des métastases ganglionnaires dans le cancer du sein triple négatif. Aussi une corrélation entre l’expression de 4 miARNs est révélée permettant l’identification de différentes voies de signalisations impliquées dans le cancer du sein triple negatif.Nos travaux fournissent des preuves de l'implication des miARNs spécifiques comme des biomarqueurs potentiels dans le développement du cancer de sein triple négatif. / In sporadic triple-negative breast cancers BRCA1 is frequently inactivated at the transcriptional level, and it has been reported that this inactivation may be brought about by promoter methylation. More recently, it was found that BRCA1 may also be regulated at the post-transcriptional level by miRNAs. Accumulating evidence indicates that miRNAs have a causal role in tumorigenesis. Our work focused on the study of microRNAs expression and functions in vitro, in silico and ex vivo.Based on our expression profiling results, four candidate miRNAs (miR-10b, miR-26a, miR-146a and miR-153) were selected as being potentially involved in triple-negative breast cancer development. Exogenous expression assays revealed that miR-10b and miR-26a, but not miR-146a, can down-regulate the expression of BRCA1 in both triple-negative MDA-MB-231 and luminal epithelial MCF7 breast cancer-derived cells, whereas miR-153 could down-regulate BRCA1 expression only in MCF7 cells. In silico analysis of The Cancer Genome Atlas (TCGA) data confirmed that miR-146a is significantly higher expressed in triple-negative breast tumors compared to other (non triple-negative) breast tumors. The ex vivo study showed that the high level expression of miR-146a and miR-26 is associated with the absence of lymph node metastasis in triple negative breast cancer. Also a correlation between the expression of the 4 miRNAs was revealed, allowing the identification of different signaling pathways involved in the triple negative breast cancer.Our work provides evidence of the involvement of specific miRNAs as potential biomarkers in breast cancer triple negative development.

Régulation

MiARNs

BRCA1

Cellules

MicroRNAs

Regulation

BRCA1

Tissus

616

Gold Nanoparticle Mediated Radiation Therapy using MV Energy X-ray

Charchi, Negar

15 June 2023

No description available.

Cellular Biology

Radiation

Physics

Nanoscience

Optics

Unravelling the Mechanical Symphony: Exploring YAP and β-catenin Interactions in Breast Cancer Metastasis Implications

Su, Zhi Hong

January 2023

Breast cancer metastasis is one of the reasons why this type of cancer is destructive even after treatment as it tends to move from one organ to another increasing the risk factor for an individual. In the metastatic cascade, the tumour undergoes many different types of stress, including extracellular (ECM) stiffness. Key proteins that have been linked to the change in stiffness of the ECM are YAP and β-catenin. Both functions similarly in the manner that they need to translocate to the nucleus and bind to their respective transcription factors in order to activate their downstream genes. In parallel this seems to be on a stiffness dependent manner. Therefore, the hypothesis is that β-catenin is able to compensate for YAP function when YAP is downregulated in a stiffness dependent manner. In this work, results show a significant increase of YAP and β-catenin translocation to the nucleus of MDA-MB-231 cells when they are subject to the stiffer substrate in comparison to the softer substrate indicating increase gene expression of their respective pathways. The effect of the stiffness was then analyzed by doing single knockdown experiments with siRNA. To investigate the response of β-catenin, knocking down YAP was done, and it was shown that β-catenin translocation significantly increased on the softer matrix, while stiffer matrix showed no significant difference. Downstream gene expression also confirmed this idea with CTGF being downregulated with β-catenin knockdown and AXIN2 being downregulated with YAP knockdown. In the cell behavioural aspect, only when the double knockdown of YAP and β-catenin was done, the migration and proliferation rate had significant lowered. This echoes the idea further of the compensating effects of β-catenin to YAP. In addition, the exploration of the cytoskeleton network was investigated, as this is a key component in protein pathways, by treating the cells using LatA and Blebbistatin, affecting F-actin and myosin-II respectively. Knowing the critical role of cytoskeletal proteins in mechanotransduction, the hypothesis is that actin filaments and myosin-II mediate the YAP & β-catenin nuclear translocation activation. Findings show the direct relationship between F-actin and YAP as actin polymerization state significantly decreased when YAP was knockdown in a similar manner to when LatA was added. When myosin-II was added, both YAP and β-catenin nuclear translocation were affected, indicating its potential role in mechanotransduction. Furthermore, it was found that cell confluency and PIEZO1 activation had significant effects in YAP & β-catenin translocation. By seeding the cells with different densities, the β-catenin signalling could be visualized with IF staining, with the conclusion that at high confluency, the β-catenin translocation was alleviated. For the PIEZO1 studies, results indicate that PIEZO1 is an upstream regulator of YAP by doing single knockdown experiments and subsequently analysing YAP signalling. The findings underscore the potential significance of β-catenin as a modulator of mechanotransduction in the absence of YAP, showcasing the complexity of the protein signalling network orchestrating cellular response due to mechanical cues. Unravelling these protein interplay could offer novel insights into therapeutic targets for breast cancer mechanotransduction. Ultimately, this research adds to the understanding of the intricate protein signalling that governs mechanotransduction in breast cancer cells. The discovery of stiffness dependent YAP & β-catenin signalling, the interplay between YAP and β-catenin pathway mechanotransduction implicated by cell density, the regulation of YAP- β-catenin interplay in mechanotransduction by PIEZO1, the importance of F-actin & myosin-II in YAP & β-catenin translocation, and the YAP & β-catenin effects on cell behaviour, all help lay the groundwork for devising targeted interventions to impede cancer progression. / Thesis / Master of Applied Science (MASc) / Breast cancer is the most prominent type of cancer that exists in women and like other cancers, it can spread to other organs such as the bone, liver, and brain even though the microenvironments are different. With different proteins like yes-associated protein (YAP) regulating this microenvironmental change in the primary and secondary sites, it can flourish and become more aggressive which leads to death for the host. The interactions of these proteins and their pathways which affects the aggressiveness of the cancers are still not well understood. This project investigates the interaction between YAP and β-catenin in response to surface stiffness to understand the mechanical regulation of breast cancer metastasis. Alongside the protein signalling, cytoskeletal components, downstream gene expression, cell confluency, and membrane proteins are explored. Our results show that an increase in stiffness allow for higher nuclear translocation for YAP and β-catenin, enhancing downstream gene expression relating to migration and proliferation. Furthermore, in lower stiffness the crosstalk between YAP and β-catenin results in an inverse relationship. These findings suggest β-catenin compensates YAP function when YAP is inhibited. In terms of the cytoskeletal protein, an integral part of the cell, the intervention saw a significant alteration in the YAP & β-catenin signalling. Additionally, cell confluency played a large role in β-catenin nuclear translocation implicating the role of cell-to-cell contact in mechanotransduction. To see if mechanosensitive membrane proteins fit into the pathway, PIEZO1 studies were done and results show that it is an upstream effector of YAP, and consequently an indirect connection with β-catenin. All in all, this thesis provides insightful information in the role of stiffness matrix, cell confluency, membrane proteins and how that regulate YAP & β-catenin. This research provides the mechanism for the synergistic therapies targeting multiple proteins to prevent cancer growth and metastasis.

Mechanotransduction

Breast Cancer Cells

Metastasis

YAP

β-catenin

Nuclear translocation

YAP & β-catenin interplay

Myosin-II

Actin filament

Cell migration

Matrix stiffness

Cell confluency

PIEZO1

Úloha mitochondriální dráhy v indukci apoptózy taxany u buněk nádorů prsu / Role of the mitochondrial pathway in apoptosis induction by taxanes in breast cancer cells

Schmiedlová, Martina

January 2012

Apoptosis represents one of the cell death mechanisms which is realized after the application of taxanes in breast cancer cell lines. Apoptosis induction can be principally triggered either by outer or inner pathway. The aim of the diploma thesis is to contribute to the elucidation of role and mechanisms of the inner mitochondrial pathway of apoptosis induction after taxane application (paclitaxel and SB-T-1216) employing a model of breast carcinoma cell lines SK- BR-3 (nonfunctional p53, functional capase-3) and MCF-7 (functional p53, nonfunctional caspase-3). Specifically, we tested the effect of both employed taxanes on mitochondrial membrane potential, ROS level and the expression and localization of proteins regulating inner mitochondrial pathway. Taxane application resulted in mitochondrial membrane dissipation in SK-BR-3 cell line. However, this was not shown in MCF-7 cell line. We found no changes in Bax and Smac/DIABLO expression after taxane application in both tested cell lines. There was a decrease of Bid expression after taxane application in SK-BR-3 line, but not in MCF-7 line. Taxane application did not lead to the translocation of Bax and Bid (tBid) proteins from cytosol to mitochondria in both tested cell lines. Similarly, there was no Smac/DIABLO release from mitochondria to...

Mitochondrie jako cíl protinádorové terapie. / Mitochondria as a target of anticancer therapy.

Dvořák, Aleš

January 2017

Mitochondrial isocitrate dehydrogenase 2 (IDH2) catalyzes reductive carboxylation (RC, reverse Krebs cycle pathway) and 2HG synthesis (2HG) - metabolite of which many scientists are interested. 2HG may be concurrently synthetized in cytosol by IDH1. RC is involved in anabolic reactions necessary for cell proliferation - produces citrate, fatty acid precursor - especially in hypoxia. IDH2 and IDH1 are not the only enzymes that are involved in 2HG synthesis. Recently, several enzymes, which participate in 2HG production, have been discovered. 2HG is useful in cancer diagnostics due to its overproduction by transformed cells. Moreover, 2HG may cause epigenetic changes via inhibition of 2-oxoglutarate dependent dioxygenase. In this work, the importance of RC and 2HG synthesis in cancer and healthy cells was investigated by gas chromatography with mass spectrometry detection as well as IDH2 influence. We found that IDH2 significantly participates in reverse RC and 2HG synthesis in breast cancer cell lines and uses glutaminolysis as a supplementary anaplerotic pathway. RC is increased by hypoxia, inhibition of respiration, and decreased by activation of respiration or hypocapnia. We confirmed 2HG synthesis and RC in healthy cells (fibroblasts, breast epithelial cells etc.) as well as in cancer cells....

Development of advanced three-dimensional tumour models for anti-cancer drug testing

Wan, Xiao

January 2014

Animal testing is still the common method to test the efficacy of new drugs, but tissue engineered in vitro models are becoming more acceptable for replacing and reducing animal testing in anti-cancer drug screening by developing in vitro three-dimensional (3D) tumour models for anti-cancer drug testing. In this study, three-dimensional (3D) culture methods were developed to mimic the tumour microenvironment. 3D culturing is to seed, maintain and expand cultured cells in three-dimensional space, in contrast to the traditional two-dimensional (2D) method in which the cells attach to the bottom of culture containers as monolayers. To mimic the intercellular interplay for tumour study, cell co-culture was applied. In this thesis, perfusion culture showed a better homeostasis for 3D tumour model growth over 17 days, with a more controllable working platform and a more reliable response-dose correlation for data interpretation. In the Matrigel sandwich system, the co-culture of breast cancer cells and endothelial cells demonstrated the morphology featuring a vascular network and tumour structures, with the thickness of the three-dimensional structure around 100µm and tubule length 200-400 µm, and maintained for 10 days. The comparisons studies between Matrigel sandwich and other methods suggest that though not fully characterised, Matrigel is still a valuable scaffold choice for developing co-culture 3D tumour model. Finally, the combination of perfusion and co-culture showed the potential of applying this model in angiogenesis assay, with a drug response profile combining cell viability and morphology to mimic in vivo tumour physiology.

616.99

Análisis de los dominios funcionales del receptor de progesterona en líneas celulares estables de cáncer de mama

Quiles Lara, Ignacio

07 September 2007

Esta tesis se interesa por distinguir entre los efectos directos de los receptores nucleares y aquellos mediados por las rutas de transducción de señales en la transcripción de genes en respuesta a hormona y proliferación celular. Para esto, nosotros hemos expresado establemente en una línea celular T47Dy desprovista de PR, formas variantes marcadas de la isoforma B del PR en regiones involucradas bien en la unión al DNA(PRB-DBD), en su habilidad para interaccionar con ER y activar la cascada c-Src/Erk (PRB-ERID), o la incapacidad de reclutar coactivadores. La expresión génica en respuesta a progesterona en líneas celulares expresando los PRB salvaje y mutantes ha sido estudiada un microarray con 750 genes de cáncer de mama. Los resultados definen conjuntos de genes regulados en respuesta a hormona por los diferentes modos de acción del PRB, también genes dónde las rutas nucleares y no genómicas cooperan. Por último, se ha centrado la atención en la participación del gen Ciclina D1 (CCND1) en proliferación celular por hormona, el modo de acción del PR en su activación y el análisis de las regiones promotoras dónde PR se une. / This these is interested on distinguishing between direct effects of nuclear receptors and those mediated by signal transduction pathways on transcription of hormone-responsive genes and cell proliferation. For this, it stablies expressed in the PR-negative T47Dy breast cancer cell line, tagged forms of the PRB mutated at regions involved either in DNA binding, in its ability to interact with ER and activate the c-Src/Erk cascade, or the recruitment of coactivators. Gene expression in response to progestins in cell lines expressing wild type or mutant PRB has been studied by a 750 genes-containing breast cancer customized cDNA microarray. Our results define the subsets of hormoneresponsive genes regulated by the different modes of action of PRB, as well as genes where the nuclear and nongenomic pathways of PRB cooperate. Finally, it has focused the attention on the involvement of Cyclin D1 gene (CCND1) activation by hormone on cell proliferation, the mode of action of PR on its activation and the analysis of promoter regions where PR binds.

ligand binding domain

dimerization

binding domain

DNA

nuclear receptor

progesterone receptor

breast cancer cells

ciclina D1 (CCND1)

MAP quinasa

rutas genómicas & no genómicas

genes de respuesta a rrogesterona

P-Box & D-Box

dimerización

dominio de unión a ligando

receptor de progesterona

dominio de unión a DNA

receptores nucleares

células de cáncer de mama

P-Box & D-Box

576

61

616