The potential role of potent prolactin antagonists as chemotherapeutics for human cancers: an evaluation of select prolactin antagonists in human breast cancer cells

Almgren, Colleen Marie, D.V.M., Ph.D.

11 January 2005

No description available.

Health Sciences, General

prolactin

prolactin antagonists

human breast cancer

Investigating the Balance Between Estrogen Receptor Mediated Cell Proliferation and Genomic Surveillance

Brown, Margarita

07 November 2016

Breast cancer is a leading cause of cancer in women and the second leading cause of cancer death. Lifetime exposure to estrogen contributes to this risk but high dose estrogen has been used to induce apoptosis as treatment for breast cancer. These opposing tumorigenic and anti-tumorigenic effects of estrogen may be regulated differently by the two Estrogen Receptors (ER), Estrogen Receptor alpha (ERα) and Estrogen Receptor beta (ERβ). Although the receptors share a 96% homology in their DNA binding domain, they are unique in the ligand-binding domain with 53% amino acid homology. Previous studies have shown that ERα drives cell proliferation in the mammary gland. We propose that ERβ mediates genomic surveillance in the mammary gland to restrict proliferation. To test this hypothesis we first characterized each of our reference breast cancer cell lines to determine the ERα and ERβstatus. We found that ERβ transcript and protein are expressed in some breast cancer cell lines that are considered to be “triple-negative” (HCC1937 and MDA MB 231). Using specific ER agonists, we were able to demonstrate that amphiregulin, a secreted protein and a marker of ERα activation, is upregulated by ERα agonists in a dose dependent manner in cell lines that have ERα (T47D & MCF7). ERα agonists do not enhance AREG expression in cell lines that primarily expresses ERβ (HCC1937). Instead, CEBPd, a tumor suppressor, is expressed at high levels in this cell line. In conclusion, targeting ERβ has the potential to selectively activate tumor suppressor pathways without stimulating proliferation and may provide a treatment option for patients for whom inhibition of ERa is not an option.

Human Breast Cancer Estrogen Receptor

Molecular Biology

Other Animal Sciences

Studies of natural vitamin E forms and their synthetic derivatives for potential anticancer application in human breast cancer cell lines and mouse tumor models

Park, Sook Kyung

14 October 2011

Vitamin E is a group of naturally occurring fat soluble compounds which consists of eight distinct forms of tocopherols and tocotrienols. Although a well-defined physiological function of vitamin E is as an antioxidant, beneficial effects of individual vitamin E compounds on chronic human diseases such as cancer need to be better understood. Studies in this dissertation investigated potential application of gamma-tocopherol (gamma-T), gamma-tocotrienol (gamma-T3) or synthetic derivatives of tocotrienols as anticancer agents in comparison to alpha-tocopherol (alpha-T), its redox-silent acetic acid derivative (alpha-TEA) or alpha-tocotrienol (alpha-T3). Redox-silent derivatives of alpha- and gamma-T3; namely alpha-T3EA and gamma-T3EA exhibited potent anti-proliferative and proapoptotic activities in a murine mammary cancer cell line as well as in human breast cancer cell lines. Moreover, studies using human vascular endothelial cells in cell culture showed that the tocotrienol derivatives exhibited strong antiangiogenic activities which were markedly improved over those of the parent compounds. An antitumor efficacy study using the 66cl-4-GFP syngeneic mouse mammary tumor model showed that each tocotrienol derivative, when delivered in the diet, significantly suppressed mammary tumor growth; however serum and tissue concentrations of these novel compounds were lower than those of alpha-TEA, suggesting that the next generation of vitamin E derivatives will need to be modified to improve bioavailability. On the other hand, some natural-source vitamin E forms, especially gamma-forms, display anticancer activities without any chemical modification in both in vitro cell culture studies and in vivo animal models. Dietary delivery of gamma-T3 suppressed tumor growth in a syngeneic implantation mouse mammary cancer model by inhibiting cell proliferation and inducing apoptosis. Cell culture studies using human breast cancer cells showed that gamma-T3 triggered apoptosis by inducing endoplasmic reticulum (ER)-stress mediated by acid sphingomyelinase (ASMase) action. Activation of stress-activated mitogen-activated protein kinases (MAPKs), JNK and p38, was associated with gamma-T3-induced ER stress followed by upregulation of extrinsic death receptor-5 (DR5) expression in a CHOP transcription factor dependent manner. Gamma-T also triggered extrinsic apoptosis signaling by increasing DR5 mRNA, protein and cell surface expression levels followed by mitochondria-dependent apoptotic signaling. In agreement with in vitro studies, gamma-T delivered in the diet suppressed the tumor growth of MDA-MB-231-GFP human breast cancer cells in a xenograft model but the antitumor activity of gamma-T was hampered by co-administration of alpha-T. The preferential tissue retention of alpha-T over gamma-T could be overcome by use of sesamin, a dietary source of human cytochrome P450 inhibitor. Based on data presented, gamma-T and gamma-T3 show preclinical potential for cancer treatment either as single agents or in combination with other agents. / text

Vitamin E

Vitamin E-derivatives

Apoptosis

Human breast cancer cell

Mouse mammary tumor model

Anticancer agents

Characterization of Effects of Muc1 Expression on Epidermal Growth Factor Receptor Signaling in Breast Cancer

Pochampalli, Mamata Rani

January 2006

EGF receptors are key regulators of cell survival and growth in normal and transformed tissues. Ligand binding results in formation of homo/hetero dimers of these receptors, followed by activation of the kinase activity and subsequent tyrosine phosphorylation of many downstream molecules. The activation of these receptors is not only mediated by the binding of their cognate ligands, but by transactivaton by other molecules as well. Recent studies have identified an oncogenic glycoprotein MUC1 as a binding partner for EGFR and that MUC1 expression can potentiate EGFR-dependent signal transduction. After receptor activation, EGFR is typically downregulated via an endocytic pathway that results in receptor degradation or recycling. We report here that MUC1 expression inhibits the degradation of ligand-activated erbB1. In addition, MUC1 expression results in prolonged activation of Akt, but not ERK1,2 MAPKinase. The MUC1-mediated protection against degradation occurs with a decrease in EGF-stimulated ubiquitination of erbB1, and an increase in erbB1 recycling. We then utilized the WAP-TGFα transgenic mouse model of breast cancer and determined that a loss of Muc1 expression dramatically alters mammary tumor progression. While 100% of WAP-TGFα/Muc1^(+/+) mice form mammary gland tumors, only 37% of WAP-TGFα/Muc1^(-/-) form tumors. Furthermore, expression of cyclin D1 expression is significantly suppressed in tumors derived from WAPTGFα/Muc1^(-/-) animals, and loss of Muc1 expression resulted in a significant inhibition in the formation of hyperplastic lesions in the mammary gland. We also observed metastatic pulmonary adenocarcinoma (1/29) and perivascular lymphoma of unknown origin (28/29) in the WAP-TGFα transgenic mice but not in the WAP TGFα/Muc1^(-/-) animals. To determine the effects of Muc1 expression on metastasis in a model lacking perivascular lymphoma, we crossed MMTV-Wnt-1 and MMTV-MUC1 transgenic mice and evaluated interactions between Muc1 and EGFR. Although the MMTV-Wnt-1 mice are non-metastatic, a majority (6/10) of the bitransgenic MMTVWnt- 1/MMTV-MUC1 formed pulmonary metastases. Furthermore, overexpression of MUC1 increases the breast cancer cell invasion in vitro. The MUC1 induced increase in invasion is found to be EGF and EGFR-kinase dependent. Collectively, these data indicate that MUC1 expression contributes to many of the hallmarks of cancer and in addition, is an important modulator of EGFR-associated mammary tumor progression.

MUC1

EGFR

MOUSE MODELS

HUMAN BREAST CANCER CELL LINES

BREAST CANCER

Assessing the cyto-genotoxic impacts of un-neutralised and pH-neutralised acid mine drainage on the human breast cancer cell line, MCF-7

Botha, Shirmone

12 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: The use of toxicity tests to evaluate the quality of streams affected by mixtures such as acid mine drainage (AMD), adds value to assessments whereby site-specific toxicological data may identify toxicants that pose a threat to humans. To successfully evaluate the risk of combined mixtures, an improved understanding of the individual components, their uptake, metabolism, excretion and mode of action is required. This study aimed to identify the extent of AMD toxicity in a dose dependant manner on the MCF-7 cell line. The first study site associated with gold mining was chosen as the Tweelopies Stream situated in the Gauteng province of South Africa. The AMD effluent (un-neutralised) contaminating the Tweelopies Stream had undergone pH-neutralisation using a reactor-bed limestone technology incorporating the use of both calcium carbonate (CaCO3) powder and limestone beds. The second study site, the Kromdraai River, is situated in the eMalahleni region of South Africa where a predominance of coal mining exists. The pH -neutralisation of the AMD (un-neutralised) contaminated Kromdraai River was performed using a caustic soda (NaOH) precipitation technique. This study demonstrated the rapid and effective application of the comet assay as a screening tool for AMD-associated DNA breakages in the human cell line, MCF-7. Moreover, the study analysed parameters of cellular survival, DNA fragmentation and variations in morphologies indicative of cellular death. Collectively, the cyto-genetic aberrations observed in the MCF-7 cells as a result of exposure to gold and coal mining associated AMD, confirms the urgency of incorporating high-throughput screening in ecological toxicity assessment to evaluate cellular damage at genetic levels in low dose exposures where detection might be missed. / AFRIKAANSE OPSOMMING: Die gebruik van toksisiteitstoetse om die gehalte van strome te evalueer wat geraak word deur mengsels soos suur mynwater (SM), gee waarde aan spesifieke toksikologiese data van gifstowwe wat 'n bedreiging vir die mens kan identifiseer. Om die risiko van gekombineerde mengsels en hul individuele komponente beter te begrip en suksesvol evalueer, is hul opname, metabolisme, uitskeiding en modus van aksie nodig. Hierdie studie het gepoog om die omvang van SM-toksisiteit in 'n dosis afhanklike wyse op die MCF-7-sellyn te identifiseer. Die eerste studie-area wat gekies is, hou verband met goudmyn-ontginning, en is die Tweelopiesspruit, geleë in die Gauteng-provinsie van Suid-Afrika. Die SM-uitvloeisel (on-geneutraliseerde) wat die Tweelopiesspruit besoedel, het pH-neutralisasie ondergaan met behulp van die integrasie van 'n reaktor-bed kalksorpsietegnologie wat gebruik maak van beide kalsiumkarbonaat (CaCO3) poeier en kalksteenbeddens. Die tweede studie-area, is die Kromdraairivier geleë in die eMalahleni-streek van Suid-Afrika, waar steenkoolontginning die oorheersende aktiwiteit is. Die pH-neutralisasie van die SM (on-geneutraliseerde) in die geval van die Kromdraairivier word met behulp van 'n bytsoda (NaOH) neerslag tegniek, uitgevoer. Hierdie studie het die komeet-toets getoon as 'n vinnige en doeltreffende toepassing vir SM-geassosieerde DNA-breekskade in die menslike sel lyn, MCF-7. Verder het die studie parameters van sellulêre oorlewing, DNA-fragmentasie en variasies in sel morfologieë wat ‘n aanduiding van sellulêre dood is, ontleed. Gesamentlik dui die resultate daarop dat die sitogenetiese afwykings wat in die MCF-7-selle waargeneem is, as 'n gevolg van blootstelling aan goud- en steenkool-geassosieerde SM is. Die studie het verder die dringendheid van die integrasie van hoë-deurset tegnologieë in ekologiese toksisiteitstoetse in selle wat genetiese skade mag ondergaan, na 'n lae dosis blootstelling waar opsporing dalk gemis word, ondersteun.

Acid mine drainage

Genotoxicity

Human breast cancer cell line, MCF-7

Comet assay

UCTD

Development Of Bio-Photonic Sensor Based On Laser-Induced Fluorescence

Kim, Chan Kyu

15 December 2007

Laser-induced fluorescence (LIF) has been shown to be potentially useful for identifying microorganisms in real time. It is a selective and sensitive technique because the excitation is performed at one wavelength while the emission is monitored at longer wavelengths so that background from the excitation source can be eliminated. This specialized optical property of LIF can be applied to development of an optical sensor capable of quickly, non-invasively, and quantitatively probing complex biochemical transformations in microorganisms. Various bio-photonic optical fiber sensors based on laser-induced fluorescence (LIF) spectroscopy were developed as diagnostic tools for microorganisms. In the first phase, the enhancement of the sensitivity and selectivity of the optical sensor system focused on diagnosis of human breast cancer cell lines and Azotobacter vinelandii (an aerobic soil-dwelling organism). Autoluorescence spectra from human breast cancer cell lines and Azotobacter vinelandii corresponding to different growth environments were investigated. Then, the study has expanded to include the use of gold nanoparticles for specific DNA detection. The use of gold nanoparticales opens a door into construction of a compact, highly specific, inexpensive and userriendly optical fiber senor for specific DNA detection. An optical fiber laser-induced fluorescence (LIF) sensor based has been developed to detect single-strand (ss) DNA hybridization at the femtomolar level. Effects of various experimental parameters and configuration were investigated in order to optimize sensor performance and miniaturize sensor size.

gold nanoparticales

DNA

Azotobacter vinelandii

human breast cancer cell lines

Laser induced fluorescence

Modulation of Human Melatonin MT1 Receptor By Valproic Acid and its Effects in Combination with Melatonin on Human Breast Cancer

Jawed, Sana

09 1900

<p> The MT1 receptor is involved in the oncostatic action of melatonin and valproic acid (VPA) in human MCF-7 breast cancer cells and VPA can upregulate this receptor in C6 glioma cells. Therefore, the effect of VPA on the expression of the MT1 was examined in MCF-7 cells. Treatment of MCF-7 cells in low serum conditions with VPA (0.5 or 1mM) for 24 or 72 h caused a significant increase in MT1 receptor expression, as shown by reverse transcription-polymerase chain reaction analysis (RT-PCR). MTT [3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] assays performed in high serum conditions revealed a significant concentration-dependent inhibition of MCF-7 cell proliferation by VPA (0.5 - 5 mM), whereas melatonin (1 or 10 nM) showed modest effects alone. However, a combination of VPA and melatonin produced a marked synergistic inhibition of cell proliferation. In subsequent experiments, under high serum conditions, VPA treatment for 24h on these cells resulted in a significant decline of MT1 mRNA while the protein levels were still increasing, as seen by RT-PCR and western blotting respectively. The involvement of multiple biochemical events, such as: induction of the p53 tumor suppressor gene and repression of the estrogen receptor (ER)-alpha might be responsible for the synergistic inhibition of these cells after the simultaneous exposure to VPA and melatonin. These results indicate that clinically relevant concentrations of VPA upregulate melatonin MT1 receptor expression in human breast cancer cells. Moreover, the enhanced antiproliferative effect observed with a combination of VPA and melatonin suggests that a similar therapeutic approach may be beneficial in human breast cancer.</p> / Thesis / Master of Science (MSc)

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

The effects of Low α-Linolenic fatty acid Soybean Oil and Mid Oleic acid Soybean Oil on the growth of Her-2/neu and Fatty acid synthase over-expressing human breast cancer (SK-Br3) cells

Bark, Jee Hyun

21 January 2011

A variety of soybean oils (SOs) were developed with improved functional properties. Some of the modified SOs contain altered fatty acid (FA) composition by selective breeding methods. Currently, low α- linolenic acid soybean oil (LLSO) and low α- linolenic acid and mid oleic acid soybean oil (LLMOSO) are available FA modified SOs in the market. The consumption of FA modified SOs has been increased because the United States Food and Drug Administration required listing trans fat content in food products sold in U.S. as an effort to reduce possible health risks caused by trans fat beginning 2006. However, the effects of these FA modified SOs on human chronic diseases including breast cancer (BC) have not been studied. BC has become the most frequently diagnosed cancer and is the second leading cause of cancer death among American women. The type of dietary fat, FA composition, and n-6/n-3 ratio are known to influence BC development. Therefore, it is possible that the changed FA composition and n-6/n-3 ratio in the FA modified SOs may affect BC progression, and its critical health concern needs to be investigated. Increased human epithelial growth factor receptor 2 (Her-2/neu) and fatty acid synthase (FAS) are associated with BC progression. In fact, FAS activity and expression are affected by dietary FA composition and FA metabolism. Hypothesis of this research is that LLSO and LLMOSO may affect Her-2/neu and FAS expressing human BC (SK-Br3) cell growth in vitro and in vivo. To test our hypothesis, we investigated the potential adverse or beneficial effects of LLSO and LLMOSO in comparison with conventional SO and lard on human BC cells and then examined the possible mechanisms of action by evaluating the expression level of genes markers involved in growth factor mediated signal transduction pathway, specifically Her-2/neu PI 3-kinase (phophoinositide 3- kinase)-FAS signal transduction pathway. In vitro study demonstrated that all the tested oils at 0-2 μl/ml level have cytotoxic effects. LLMOSO had less cytotoxic effects on the growth of SK-Br3 cells compared to SO. However, there was no difference in SK-Br3 cell growth between LLSO and SO. The apoptotic protein markers (mutant p53 and caspase-3) analysis revealed that the cell growth inhibition by oil treatments was cytotoxic by triggering apoptosis. Western blot analysis demonstrated that LLSO- and LLMOSO- induced changes on cell growth involve Her-2/neu and FAS signaling transduction pathway and sterol regulatory element binding protein-1 (SREBP-1), mitogen activated protein kinase (MAPK), and phosphatidylinositol 3-kinase (PI 3-kinase) are possible down-stream effectors of Her-2/neu signaling pathway. We also evaluated the dietary effects of LLSO (20% fat of total calorie), SO (20%), and lard (20%) on the growth of SK-Br3 tumors implanted in athymic mice. Changes in tumor surface area, body weight, and food intake were monitored during the 6 months feeding study. After termination, tumor net weight, Her-2/neu and FAS mRNA expression in tumors, FAS protein expression in liver, lipid composition in diets, abdominal fat, and serum, as well as plasma total cholesterol and triglyceride levels were analyzed. In vivo study showed that there were no statistical differences in tumor size and tumor net weight among SO, LLSO, and lard groups. No differences in FAS mRNA and protein expression levels between the LLSO and SO groups were observed. Tumors from the lard group expressed higher Her-2/neu and FAS mRNA than those from the LLSO and SO group. The lipid analysis demonstrated that LLSO was not significantly distinct from SO in trans fat concentration after metabolism. Serum cholesterol and triglyceride levels were unchanged in LLSO fed compared to SO fed mice. In summary, LLSO which contained modification in αLA concentration showed similar effects on SK-Br3 as SO in both in vitro and in vivo. However, LLMOSO which contained more drastic modifications on FA composition exhibited less cytotoxicity compared to SO in vitro. / Master of Science

Fatty Acid Synthase

Soybean Oil

SK-Br3

Human Breast Cancer

Low linolenic Acid Soybean Oil

Epidermal Growth Factor Receptor

Identification and characterization of new biomarkers in aggressive subtypes of breast cancer

Yousef, Einas

05 1900

En 2015, la récidive tumorale et les métastases du cancer du sein demeurent une cause importante de décès à travers le monde. Toutefois, ces cancers sont souvent hétérogènes car en dépit d’un phénotype similaire, l’évolution clinique et la réponse au traitement peuvent varier considérablement. Il y a donc un intérêt évident à identifier et à caractériser de nouveaux biomarqueurs pour permettre classer les tumeurs mammaires dans des sous-groupes plus homogènes. Notre hypothèse est que chaque cancer mammaire possède des caractéristiques distinctes au plan des altérations du génome et des profils d’expression géniques et que ces changements se traduisent cliniquement par une prédisposition à former des métastases ou à répondre ou non à la chimiothérapie et aux thérapies ciblées. Dans le cadre de nos travaux, nous nous sommes intéressés aux sous-types agressifs de tumeurs mammaires et notamment les cancers de type triple négatif. Nous avons aussi tenté d’identifier des marqueurs capables de distinguer l’une de l’autre les tumeurs de type luminal A et luminal B. Pour ce faire, nous avons d’abord utilisé une stratégie in silico à partir de données publiques (micro-puces d’ADN et séquençage de l’ARN). Nous avons ensuite construit sept micro-matrices tissulaires (TMA) provenant de tissus mammaires normaux et tumoraux fixés à la formaline et enrobés en paraffine. Ces outils nous ont permis d’évaluer par immunohistochimie les niveaux d’expression différentielle des marqueurs suivants : ANXA1, MMP-9, DP103 et MCM2. Ceux-ci ont été comparés aux marqueurs usuels du cancer du sein (ER, PR, HER2, CK5/6 et FOXA1) et corrélés aux données cliniques (survie globale et métastase). Nos résultats indiquent que ces nouveaux marqueurs jouent un rôle important dans l’évolution clinique défavorable des tumeurs de haut grade. Dans un premier article nous avons montré que l’expression d’ANXA1 est dérégulée dans les cancers de type triple-négatif et aussi, dans une certaine mesure, dans les tumeurs HER2+. Nous croyons qu’ANXA1 permet de mieux comprendre le processus d’hétérogénéité tumorale et facilite l’identification des tumeurs de haut grade. Nous proposons également qu’ d’ANXA1 stimule la transition épithélio-mésenchymateuse (EMT) et la formation des métastases. Dans un second temps, nous avons montré que les niveaux d’expression de MMP-9 reflètent la différenciation cellulaire et corrèlent avec les sous-types de cancers mammaires ayant un mauvais pronostic. Nous estimons que MMP-9 permet de mieux comprendre et d’identifier les tumeurs mammaires à haut risque. De fait, la surexpression de MMP-9 est associée à une augmentation des métastases, une récidive précoce et une diminution de la survie globale. Dans le cadre d’un troisième article, nous avons montré que la surexpression du marqueur de prolifération MCM2 s’observe dans les cancers triple-négatifs, HER2+ et Luminal B par comparaison aux cancers luminal A (p< 0.0001). Nos résultats suggèrent qu’en utilisant un seuil de 40% de noyaux marqués, nous pourrions distinguer l’une de l’autre les tumeurs de type luminal A et luminal B. Cela dit, avant de pouvoir envisager l’utilisation de ce marqueur en clinique, une étude de validation sur une nouvelle cohorte de patientes s’impose. En somme, les résultats de nos travaux suggèrent qu’ANXA1, MMP-9 et MCM2 sont des marqueurs intéressants pour mieux comprendre les mécanismes physiopathologiques impliqués dans la progression tumorale et le développement des métastases. À terme, ces nouveaux marqueurs pourraient être utilisés seuls ou en combinaison avec d’autres gènes candidats pour permettre le développement de trousses « multigènes » ou d’essais protéomiques multiplex pour prédire l’évolution clinique des cancers mammaires. / In 2015, breast cancer remains a leading cause of death among women worldwide due to relapse and metastases. However, mammary tumors are known to be heterogeneous in terms of their clinical course and response to treatment, despite a seemingly similar phenotype. There is therefore an obvious need to identify and characterize new biomarkers of progression in breast cancers so that each tumor can be properly classified. Our hypothesis is that each breast cancer has its own set of genomic abnormalities or altered pattern of gene expression that can explain the aggressiveness of each tumor, its ability to metastasize and its response to chemotherapeutic agents or other forms of targeted therapies. In this study, our aim is to identify and characterize new biomarkers with prognostic value in aggressive subsets of breast cancer focusing primarily on triple-negative tumors and luminal B breast cancer. To achieve those aims, we conducted an in silico search from public databases of DNA microchip and RNA sequencing data. We next constructed seven tissue microarrays (TMA) using paraffin blocks from human breast cancer along with normal breast to examine the differential expression of new putative markers: ANXA1, MMP-9, DP103 and MCM2. Expression levels measured by immunohistochemistry were then compared to other conventional markers of breast cancer (ER, PR, HER2, Ki-67, CK 5/6, FOXA1) and correlated with clinical data (overall survival and metastasis). By comparing the relative expression of these markers in human breast tumors we were able to pinpoint the important role of ANXA1, MMP-9, DP103, and MCM2 in aggressive tumor subtypes recognized for their poor clinical course. Firstly, we have shown that ANXA1 expression is severely deregulated in high-grade breast cancers including triple-negative and, to some extent, HER2-positive breast cancers. In addition, our results also indicated a possible role of ANXA1 in regulating EMT and breast cancer cell metastasis. Secondly, expression of MMP-9 was found to mirror the degree of tumor differentiation and to correlate with breast cancers of unfavorable outcome. This implies that MMP-9 can help better characterize the biology of breast carcinoma and to identify subgroups of high-risk breast tumors. In fact, we found that high levels of MMP-9 in tumors were associated with increased metastatic dissemination, early relapse and reduced survival. Thirdly, we demonstrated that MCM2 is overexpressed in triple-negative, HER2 positive and luminal B breast cancer in comparison to luminal A breast cancer (p-value < 0.0001). Our findings support the notion that MCM2 can be used to distinguish luminal A from luminal B breast cancer based on a 40% index cut-point. However, an independent validation cohort is needed to confirm the clinical utility of MCM2. Lastly, our results suggest that ANXA1, MMP-9 and MCM2 are valuable genes/proteins candidate that can help better understand the mechanisms involved in tumor progression and metastasis. One may also envisage their use, alone or in combination with other genes, in the development of a multi-gene panel or multiplex proteomic assay to predict clinical outcome and guide therapeutic decisions.

Cancer du sein humain

Biomarqueur

L'analyse silico

Matrices tissulaires

ANXA1

MMP-9

MCM2

Ki-67

Human breast cancer

Biomarker

In silico analysis

Tissue microarray