The significance of c-Met in different molecular sub-types of invasive breast cancer

Ho-Yen, Colan Maxwell

January 2014

Introduction: Basal-like (BL) breast cancer is an aggressive sub-type of breast cancer for which there is no targeted systemic therapy. C-Met is a receptor tyrosine kinase implicated in breast cancer. Clinical trials assessing the efficacy of anti-c-Met therapy are underway, yet few studies have analysed the clinical significance of c-Met expression and/or activation in breast cancer, in particular whether there is a correlation with molecular sub-type. The aims of this study are: 1) to establish the clinical significance of c-Met expression in invasive breast cancer, 2) evaluate the novel proximity ligation assay (PLA) as a method of measuring c-Met activation and 3) address the effect of hepatocyte growth factor (HGF)-mediated c-Met phosphorylation on migration and protein expression in cell lines representative of the BL sub-type. Methods: Immunohistochemistry for c-Met was performed on 1455 cases of breast cancer using tissue microarray (TMA) technology. The PLA was performed on TMAs constructed from 181 breast cancers. C-Met expression and the PLA product were correlated with clinico-pathological parameters and survival. The effects of HGF on cell migration and protein expression were assessed using migration assays, western blots and immunofluorescent studies. Results: C-Met expression was independently associated with BL breast cancer (odds ratio = 6.44, 95% confidence interval (CI) = 1.74-23.78, p = 0.005) and reduced overall survival (hazard ratio = 1.81, 95% CI = 1.07-3.06), p = 0.026). The PLA signal was not associated with molecular sub-type or survival. HGF stimulation was associated with a significant increase in BL cell migration (p < 0.01) but no evidence of epithelial-mesenchymal transition was observed. Conclusion: My findings suggest BL breast cancer patients should be included in future trials of anti-c-Met therapy. Further work is necessary to establish the prognostic utility of the PLA as a measure of c-Met activation and the mechanisms driving HGF-mediated cell migration.

616.99

Activating senescence in p16-positive Basal-like breast cancer

Moore, Madeleine

January 2016

Breast cancer is the most common cancer in the UK and Basal-like breast cancer (a highly aggressive subtype) accounts for approximately 8-22% of all cases depending on ethnicity. Unlike most human malignancies and indeed other PAM50 breast cancer subtypes, the vast majority of Basal-like tumours are positive for wild type p16. This p16 signature is associated with a particularly poor prognosis and p16-positive Basal-like breast cancer remains the most clinically challenging subtype and is the focus of this project. Pro-senescence therapies are gaining momentum as attractive strategies for the treatment of those breast cancers with current unmet clinical need. To identify targets for pro-senescence therapy in p16-positive Basal-like breast cancer, a genome‐wide siRNA screen and two subsequent validation screens using two p16-positive cancer cell lines were performed. Screening revealed 20 siRNAs that induced senescence within both cancer cell lines. Strikingly, 11 of these 20 siRNAs targeted ribosomal proteins, implicating disrupted ribosomal biosynthesis in senescence activation in p16-positive Basal-like breast cancer. Importantly, subsequent experiments in normal human mammary epithelial cells established that specific ribosomal protein knockdown is well tolerated by normal cells. Analysis of the METABRIC data set showed a high degree of ribosomal dysregulation in Basal-like tumours and revealed that all 11 ribosomal hits identified were frequently overexpressed in p16-positive Basal-like breast cancers. Kaplan Meier analysis confirmed that elevated expression of six of the 11 ribosomal proteins correlates with a reduced overall survival in these women, further supporting a role for these proteins as drivers of disease. These six ribosomal hits, associated with the poorest patient survival, were prioritised for further validation. Senescence induction was found to be highly stable, and associated with dramatic changes to nucleolar morphology, reminiscent of the nucleolar signature observed upon premature senescence induction in normal human mammary epithelial cells. In addition, siRNA rescue experiments indicated that senescence initiation is dependent on p16 and p21 expression and is accompanied by p16 nuclear translocation and p21 degradation. Further, ribosomal protein silencing in MDA-MB-231 cells (p16-null Basal-like breast cancer cell line) resulted in a 'death-like' phenotype, partially dependent on p21 expression suggesting that, within a cancer context, ribosomal protein silencing may induce a differential response depending on the status of p16. In conclusion, it is proposed that these six ribosomal candidates may form the basis of a novel pro-senescence therapy for p16-positive Basal-like breast cancer. They may also represent novel prognostic biomarkers for this disease subset and may help to improve disease stratification and future directed personalised therapies.

Cytotoxic Activity of Sphingosine-1-Phosphate against Human Triple-negative/ Basal-like Breast Cancer

2016 January 1900

Breast cancer is one of the most common malignancy diagnosed in women and is the primary cause of cancer-related deaths in women worldwide. It is a heterogeneous group of diseases that have a different response, prognosis, and clinical outcomes. Estrogen, progesterone and HER2 negative breast cancer, known as triple negative breast cancer (TNBC), does not respond to hormonal therapy. Basal-like breast cancer (BLBC) has shorter overall survival rate among other subtypes. Tumors sharing both TNBC and BLBC are considered less responsive to currently available treatment. Chemoresistance to treatment has been a challenge in cancer biology and force investigation toward developing new targeted therapies, which selectively target specific subtypes. Sphingolipid metabolites have an important physiological role in determining cell fate. Sphingolipid metabolites, ceramide, sphingosine, and sphingosine-1-phosphate (S1P), are implicated in cancer. S1P exerts its functions via extracellular and intracellular targets. S1P synthesized inside the cell is exported outside and binds to G-protein coupled receptors, the sphingosine-1-phosphate receptors 1-5 (S1PR1-5). Although the intracellular function is not well defined, its suggested intracellular S1P promotes cell apoptosis. The S1P pathway has received great attention recently due its function in cell survival and death. This effect was reported to be concentration dependent. In this research, I focused on S1P effect on nine TNBC/BLBC cell lines. I examined the in-vitro effects of S1P on apoptosis, proliferation, and cytotoxicity in triple negative/ basal-like breast cancer cell lines. Moreover, I studied the co-administration of S1P with currently used chemotherapeutic agents in these cell lines. Data show that S1P can selectively induce cell death in TNBC/BLBC cell lines at a specific concentration. In this research, I found that the mechanism of cell death following treatment with different S1P concentrations was mainly due to apoptosis. Results show that S1P leads to cell shrinkage, rounding and detachment in the nine TNBC/BLBC cell lines. S1P combination with doxorubicin and docetaxel at different concentrations shows no beneficial effect of the combination compared to the chemotherapeuitc agent alone. In some cell lines, the combination showed a protective effect. Further studies are required to determine the mechanism by which S1P induces cell apoptosis, inhibits cell growth, and demonstrates lack of responsiveness in combination studies.

Sphingosine-1-Phosphate

Triple negative breast cancer

Basal-like breast cancer Cytotoxicity

Apoptosis

Proliferation

Chemotherapy

A homeobox protein, NKX6.1, up-regulates interleukin-6 expression for cell growth in basal-like breast cancer cells / ホメオボックスタンパク質 NKX6.1 による interleukin-6 の発現上昇を介したBasal-like乳癌細胞の増殖制御機構

Li, Wenzhao

25 July 2016

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第19930号 / 医博第4150号 / 新制||医||1017(附属図書館) / 33016 / 京都大学大学院医学研究科医学専攻 / (主査)教授 野田 亮, 教授 小川 誠司, 教授 高田 穣 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Basal-like breast cancer

Cell growth

IL-6

NKX6.1

Transcription factor

490

Regulation of tumor growth and progression by Focal Adhesion Kinase (FAK) in a murine model of basal-like Breast Cancer

Paul, Ritama

22 October 2020

No description available.

Cellular Biology

FAK

Basal-like breast cancer

AKT

mTOR

Tumor cell survival

Regulation and Action of Skp2 and Rhoa in Cell and Tumor Models: Investigation into the Molecular Mechanisms Responsible for the Aggressive Phenotype of Triplenegative Breast Cancer

Fagan-Solis, Katrina D.

01 February 2013

Breast cancer tops the list of new cancer cases and is predicted to be the second leading cause of cancer deaths in women in 2012. The primary objective of the present study was to provide insights into the molecular mechanisms underlying the aggressive growth and metastasis of triple-negative and basal-like breast cancers. To study increased growth and invasive behavior in triple-negative and basal-like breast cancers we utilize both an interesting and relevant cell culture model and examination of human tissue. In this study, we use the Tamoxifen-selected, MCF-7 derivative, TMX2-28 breast cancer cell line. TMX2-28 cells are triple-negative in that they lack expression of the estrogen receptor alpha (ERα), progesterone receptor (PR), and human epidermal growth factor receptor 2 (HER2). They also have acquired a mixed basal/luminal cytokeratin profile, suggestive of a more basal-like phenotype. TMX2-28 cells are highly proliferative and invasive. In addition to our cell culture model, we also examine human tissue. Thirty frozen breast carcinoma samples were evaluated for mRNA expression. Additionally, I analyzed protein expression, using immunohistochemistry (IHC), of 50 benign reduction mammoplasty and 188 breast tumors (formalin-fixed paraffin embedded). Of the 188 breast tumors, 93 were ERα-positive and 95 were ERα-negative. Of the 95 ERα-negative samples, 24 were further classified as non-triple negative (either PR or HER2 positive), 49 were classified as triple-negative, and 22 were not further classified due to unavailability of HER2 status and were used only in analyses of ERα-negative tumors. Thirty-seven of the 188 tumor samples were ductal carcinoma in situ, 138 were invasive ductal carcinomas, and 13 were classified as other. Lastly, 23 of the 188 tumors were grade 1, 48 were grade 2, 105 were grade 3, and 12 did not have grade data available. S-phase kinase-associated protein 2 (SKP2) plays an important role in cell cycle regulation by targeting p27 for degradation. The cyclin-dependent kinase (CDK) inhibitor p27 regulates G1/S transition by binding cyclin/CDK complexes and abrogating its activity. By targeting p27 for degradation, SKP2 frees the complexes needed to progress into the S phase of the cell cycle. Evaluation of SKP2 expression in TMX2-28 revealed significantly higher levels than in other breast cancer cell lines. Despite the high levels of SKP2 expression, p27 protein was not reduced. However, levels of the Serine 10 phosphorylated form of p27 (pSer10p27), which has been associated with increased proliferation rates, was found to be increased. Furthermore, suppression of SKP2 completely eliminated the pSer10p27 and slowed cycle progression confirming the role of SKP2 in the aggressive growth of TMX2-28 cells. Assessment of mRNA from 30 frozen human breast cancers demonstrated that SKP2 is more highly expressed in ERα-negative and basal-like breast cancers. Immunohistochemical analysis of 188 breast cancers and 50 benign reduction mammoplasty tissues confirmed that SKP2 is more highly expressed in ERα-negative breast cancers and for the first time demonstrated that triple-negative breast cancers are more likely to overexpress SKP2 than are non-triple-negative, but still ERα-negative, tumors. In contrast to some previous reports, we did not observe an inverse relationship between SKP2 and p27 expression. Only 11% of tumors expressed high SKP2 and low p27, while 32% of tumors had high SKP2 and high p27. Although no significant relationship between SKP2 and p27 expression was observed in human breast cancers, a significant positive relationship was discovered between SKP2 and pSer10p27. Furthermore, high levels of SKP2 and pSer10p27 were observed significantly more often in ERα-negative and triple negative breast tumors than in ERα-positive breast cancers. Based on these results and those of the cell culture experiments showing complete elimination of pSer10p27 after suppression of SKP2 it appears that levels of pSer10p27 may be a better indicator of SKP2-dependent p27 degradation than are levels of p27. Therefore, that inhibiting SKP2 in triple-negative breast cancers expressing high levels of both SKP2 and pSer10p27 regardless of p27 levels may be a valid therapeutic approach. A foremost threat to patients is tumor invasion and metastasis, with the greatest risk to patients diagnosed with triple-negative and basal-like breast cancers. Two distinct morphological/functional mechanisms are known for single cell migration in tissues: mesenchymal and amoeboid invasion. Mesenchymal movement involves the use of proteases that cause cellular lysis in tissues, thereby creating a path through which cells can invade. Amoeboid movement is protease-independent; cells find paths through the ECM by pushing and squeezing through regions of adequate size. Despite their invasive phenotype, TMX2-28 retains morphology similar to non-aggressive MCF-7 cells, suggesting that their invasion may be proteolytic-independent. We determined that TMX2-28 lack MMP-1 mRNA, and MMP-2/MMP-9 protein expression; each of which is important in protease-dependent invasion. Furthermore, TMX2-28 cells have low expression of other genes key to protease-dependent invasion including Slug, Zeb 1, Zeb 2, Vimentin, Fibronectin and N-cadherin. RhoA is a member of the Rho superfamily of GTPases that acts as a molecular switch to control signal transduction and is critical to the amoeboid invasion mechanism. TMX2-28 cells have high expression of protease-independent invasion genes such as RhoA, ROCK 1, ROCK 2, and E-cadherin. Finally, treating TMX2-28 cells with a RhoA pathway inhibitor or an shRNA targeting RhoA significantly reduces their invasiveness. These data suggest that TMX2-28 cells use a RhoA-dependent, proteolytic-independent invasion mechanism. Collectively, the data presented here demonstrate the roles of SKP2 and RhoA in triple-negative and basal-like breast cancers, making both genes, as well as their pathways, desirable therapeutic targets.

Basal-Like Breast Cancer

Cell Cycle

p27

proliferation

SKP2

Triple-Negative Breast Cancer

Molecular Biology

Characterizing Basal-Like Triple Negative Breast Cancer using Gene Expression Analysis: A Data Mining Approach.

Alsabi, Qamar

January 2019

No description available.

Biomedical Engineering

Genetics

Triple-negative breast cancer

TNBC

Basal-like breast cancer

BLBC

gene expression datasets

gene signature

Affymetrix gene chips

Affymetrix gene expression

data mining

Différentes approches de l'optimisation du traitement du cancer du sein de phénotype "basal like" triple négatif par un anti-PARP : contournement des protéines "Multidrug Resistance" et traitement combiné radiothérapie / chimiothérapie. Spécialité / Different approaches for optimizing the treatment of breast cancer of the « basal like » triple negative phenotype by an anti-PARP : bypassing the "Multidrug Resistance" proteins and combined treatments by radiotherapy / chemotherapy

Dufour, Robin

22 March 2016

Le cancer du sein de phénotype « Basal-like » triple négatif (BLTN) est particulièrement agressif et de mauvais pronostic. Il est insensible aux traitements hormonaux laissant pour seule stratégie de traitement la chimiothérapie conventionnelle. De ce fait, de nouvelles thérapeutiques ciblées sont en développement, tels que les inhibiteurs de la Poly-ADP-Ribose-Polymerase (PARP). Dans ce contexte, nos travaux de recherche ont été orientés sur l’optimisation du traitement des cancers du sein BLTN en modélisant l’action d’un anti-PARP modèle, l’Olaparib sur la lignée SUM1315 de phénotype BLTN. Dans un premier temps, l’étude de la coexpression de la BCRP et de la P-gp, deux protéines « Multidrug Resistance » (MDR) majeures en présence de 50 µM d’Olaparib® a montré une induction de leurs expressions chez les cellules SUM1315, avec une réponse de type relais. La BCRP établirait une première ligne de défense cellulaire et son action serait ensuite relayée par la P-gp durant 24h de traitement. Ce mécanisme est en corrélation avec la concentration intracellulaire d’Olaparib mesurée par HPLC. L’ensemble de nos résultats suggère qu’il serait possible de contourner le mécanisme de résistance induit par les protéines MDR si une concentration stable en Olaparib est maintenue dans les cellules à long terme. Nous avons ensuite étudié la potentialisation de l’action de l’Olaparib en le combinant avec un traitement par radiothérapie à basse et haute énergie, sur la viabilité des cellules de la lignée SUM1315. La comparaison des résultats avec un traitement Olaparib seul ou irradiation seule et ceux des traitements combinés Olaparib/radiothérapie a alors mis en évidence un effet synergique des deux traitements sur la viabilité cellulaire. L’effet synergique de cette combinaison fonctionne même avec de faibles doses d’Olaparib. De cette manière, il serait possible de réduire les doses d’anti-PARP utilisées tout en gardant les bénéfices du traitement. Enfin, nous avons développé deux techniques de cultures cellulaires en trois dimensions (i) « hanging drop » et (ii) « liquid overlay », permettant de mimer plus fidèlement les conditions des tumeurs in vivo. L’observation en microscopie électronique à transmission et à balayage des sphéroïdes obtenus par ces deux techniques a permis de démontrer l’intégrité des cellules au sein des sphéroïdes ainsi que la formation de jonctions cellulaires. Cependant, les sphéroïdes obtenus en « liquid overlay » ont montré une meilleure intégrité ultra-structurale. / « Triple Negative Basal-Like » (BLTN) breast cancer is particularly aggressive and of poor prognosis. It is insensitive to hormone-targeted therapies leaving conventional chemotherapy as the only treatment strategy. Therefore, new promising targeted therapies are being developed, such as Poly-ADP-Ribose-Polymerase inhibitors (anti-PARPs). In this context, our research has been directed towards optimizing the treatment of BLTN breast cancer by modelling the action of an anti-PARP model, Olaparib®, on BLTN cell line SUM1315. Firstly, the study of the co-expression of BCRP and P-gp, two major “Multidrug Resistance” proteins (MDR) in the presence of 50 µM Olaparib® showed an induction of their expression in SUM1315 cells, with a relay-type response. BCRP would establish a first line of cellular defense and its action would then be taken over by P-gp, for 24h of treatment. This mechanism is correlated with the intracellular concentration of Olaparib® measured by HPLC. All of our results suggest that it would be possible to circumvent the induced MDR resistance mechanism if a stable concentration of Olaparib® is maintained in cells in the long term. Secondly, we studied the potentiation of the action of Olaparib® combining it with low and high-energy radiations on the viability of SUM1315 cells. Comparison of the results with single Olaparib®, single irradiation, or the combination of Olaparib®/radiotherapy then demonstrated a synergistic effect of the two treatments when delivered concomitantly, on cell viability. The synergistic effect of this combination works even with low doses of Olaparib®. In this way it would be possible to reduce the anti-PARP doses while maintaining the benefits of this treatment. Finally, we have developed two techniques of cell culture in three dimensions: (i) "hanging drop" and (ii) "liquid overlay", in order to mimic more accurately the conditions of tumours in vivo. Observations of spheroids obtained by these two techniques by transmission and scanning electron microscopy demonstrated the integrity of cells within as well as the formation of cell junctions. However, the spheroids obtained by "liquid overlay" showed better ultra-structural integrity.

Culture 3D

Dosage intracellulaire d’Olaparib®,

BCRP

P-gp

Anti-PARP

3D cell culture

Low and high energy radiations

Intracellular level Olaparib®

Anti-PARP

BCRP,

P-gp,

610