Your search keyword '"Akeila, Bellahcène"' showing total 30 results

1. Correction: Methylglyoxal, a glycolysis side-product, induces Hsp90 glycation and YAP-mediated tumor growth and metastasis

Author

Marie-Julie Nokin, Florence Durieux, Paul Peixoto, Barbara Chiavarina, Olivier Peulen, Arnaud Blomme, Andrei Turtoi, Brunella Costanza, Nicolas Smargiasso, Dominique Baiwir, Jean L Scheijen, Casper G Schalkwijk, Justine Leenders, Pascal De Tullio, Elettra Bianchi, Marc Thiry, Koji Uchida, David A Spiegel, James R Cochrane, Craig A Hutton, Edwin De Pauw, Philippe Delvenne, Dominique Belpomme, Vincent Castronovo, and Akeila Bellahcène

Subjects

Medicine, Science, Biology (General), QH301-705.5

Published

2024

2. Identification of myoferlin as a mitochondria-associated membranes component required for calcium signaling in PDAC cell lines

Author

Sandy Anania, Martin Farnir, Raphaël Peiffer, Yasmine Boumahd, Marc Thiry, Ferman Agirman, Naima Maloujahmoum, Akeila Bellahcène, and Olivier Peulen

Subjects

Pancreatic cancer, Mitochondria-associated membranes, ER-mitochondria contact sites, Myoferlin, Calcium signaling, IP3R3, Medicine, Cytology, QH573-671

Abstract

Abstract Background Pancreatic ductal adenocarcinoma is an aggressive cancer type with one of the lowest survival rates due to late diagnosis and the absence of effective treatments. A better understanding of PDAC biology will help researchers to discover the Achilles’ heel of cancer cells. In that regard, our research team investigated the function of an emerging oncoprotein known as myoferlin. Myoferlin is overexpressed in PDAC and its silencing/targeting has been shown to affect cancer cell proliferation, migration, mitochondrial dynamics and metabolism. Nevertheless, our comprehension of myoferlin functions in cells remains limited. In this study, we aimed to understand the molecular mechanism linking myoferlin silencing to mitochondrial dynamics. Methods Experiments were performed on two pancreas cancer cell lines, Panc-1 and MiaPaCa-2. Myoferlin localization on mitochondria was evaluated by immunofluorescence, proximity ligation assay, and cell fractionation. The presence of myoferlin in mitochondria-associated membranes was assessed by cell fractionation and its function in mitochondrial calcium transfer was evaluated using calcium flow experiments, proximity ligation assays, co-immunoprecipitation, and timelapse fluorescence microscopy in living cells. Results Myoferlin localization on mitochondria was investigated. Our results suggest that myoferlin is unlikely to be located on mitochondria. Instead, we identified myoferlin as a new component of mitochondria-associated membranes. Its silencing significantly reduces the mitochondrial calcium level upon stimulation, probably through myoferlin interaction with the inositol 1,4,5-triphosphate receptors 3. Conclusions For the first time, myoferlin was specifically demonstrated to be located in mitochondria-associated membranes where it participates to calcium flow. We hypothesized that this function explains our previous results on mitochondrial dynamics. This study improves our comprehension of myoferlin localization and function in cancer biology.

Published

2024

3. Methylglyoxal: a novel upstream regulator of DNA methylation

Author

Gaurav Dube, Assia Tiamiou, Martin Bizet, Yasmine Boumahd, Imène Gasmi, Rebekah Crake, Justine Bellier, Marie-Julie Nokin, Emilie Calonne, Rachel Deplus, Tom Wissocq, Olivier Peulen, Vincent Castronovo, François Fuks, and Akeila Bellahcène

Subjects

Methylglyoxal, DNA methylation, Breast cancer, Tumor suppressor genes, Metastasis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Aerobic glycolysis, also known as the Warburg effect, is predominantly upregulated in a variety of solid tumors, including breast cancer. We have previously reported that methylglyoxal (MG), a very reactive by-product of glycolysis, unexpectedly enhanced the metastatic potential in triple negative breast cancer (TNBC) cells. MG and MG-derived glycation products have been associated with various diseases, such as diabetes, neurodegenerative disorders, and cancer. Glyoxalase 1 (GLO1) exerts an anti-glycation defense by detoxifying MG to D-lactate. Methods Here, we used our validated model consisting of stable GLO1 depletion to induce MG stress in TNBC cells. Using genome-scale DNA methylation analysis, we report that this condition resulted in DNA hypermethylation in TNBC cells and xenografts. Results GLO1-depleted breast cancer cells showed elevated expression of DNMT3B methyltransferase and significant loss of metastasis-related tumor suppressor genes, as assessed using integrated analysis of methylome and transcriptome data. Interestingly, MG scavengers revealed to be as potent as typical DNA demethylating agents at triggering the re-expression of representative silenced genes. Importantly, we delineated an epigenomic MG signature that effectively stratified TNBC patients based on survival. Conclusion This study emphasizes the importance of MG oncometabolite, occurring downstream of the Warburg effect, as a novel epigenetic regulator and proposes MG scavengers to reverse altered patterns of gene expression in TNBC.

Published

2023

4. Correction: Human colon cancer cells highly express myoferlin to maintain a fit mitochondrial network and escape p53-driven apoptosis

Author

Gilles Rademaker, Brunella Costanza, Justine Bellier, Michael Herfs, Raphaël Peiffer, Ferman Agirman, Naïma Maloujahmoum, Yvette Habraken, Philippe Delvenne, Akeila Bellahcène, Vincent Castronovo, and Olivier Peulen

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2023

5. Paladin, overexpressed in colon cancer, is required for actin polymerisation and liver metastasis dissemination

Author

Gilles Rademaker, Brunella Costanza, Sébastien Pyr dit Ruys, Raphaël Peiffer, Ferman Agirman, Naïma Maloujahmoum, Didier Vertommen, Andrei Turtoi, Akeila Bellahcène, Vincent Castronovo, and Olivier Peulen

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Introduction Colorectal cancer remains a public health issue and most colon cancer patients succumb to the development of metastases. Using a specific protocol of pressure-assisted interstitial fluid extrusion to recover soluble biomarkers, we identified paladin as a potential colon cancer liver metastases biomarker. Methods Using shRNA gene knockdown, we explored the biological function of paladin in colon cancer cells and investigated the phospho-proteome within colon cancer cells. We successively applied in vitro migration assays, in vivo metastasis models and co-immunoprecipitation experiments. Results We discovered that paladin is required for colon cancer cell migration and metastasis, and that paladin depletion altered the phospho-proteome within colon cancer cells. Data are available via ProteomeXchange with identifier PXD030803. Thanks to immunoprecipitation experiments, we demonstrated that paladin, was interacting with SSH1, a phosphatase involved in colon cancer metastasis. Finally, we showed that paladin depletion in cancer cells results in a less dynamic actin cytoskeleton. Conclusions Paladin is an undervalued protein in oncology. This study highlights for the first time that, paladin is participating in actin cytoskeleton remodelling and is required for efficient cancer cell migration.

Published

2022

6. Myoferlin targeting triggers mitophagy and primes ferroptosis in pancreatic cancer cells

Author

Gilles Rademaker, Yasmine Boumahd, Raphaël Peiffer, Sandy Anania, Tom Wissocq, Maude Liégeois, Géraldine Luis, Nor Eddine Sounni, Ferman Agirman, Naïma Maloujahmoum, Pascal De Tullio, Marc Thiry, Akeila Bellahcène, Vincent Castronovo, and Olivier Peulen

Subjects

Myoferlin, Ferroptosis, Mitochondria, Pancreas cancer, Mitophagy, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Myoferlin, an emerging oncoprotein, has been associated with a low survival in several cancer types including pancreas ductal adenocarcinoma where it controls mitochondria structure and respiratory functions. Owing to the high susceptibility of KRAS-mutated cancer cells to iron-dependent cell death, ferroptosis, and to the high iron content in mitochondria, we investigated the relation existing between mitochondrial integrity and iron-dependent cell death. We discovered that myoferlin targeting with WJ460 pharmacological compound triggered mitophagy and ROS accumulation culminating with lipid peroxidation and apoptosis-independent cell death. WJ460 caused a reduction of the abundance of ferroptosis core regulators xc- cystine/glutamate transporter and GPX-4. Mitophagy inhibitor Mdivi1 and iron chelators inhibited the myoferlin-related ROS production and restored cell growth. Additionally, we reported a synergic effect between ferroptosis inducers, erastin and RSL3, and WJ460.

Published

2022

7. Resistance to Gemcitabine in Pancreatic Cancer Is Connected to Methylglyoxal Stress and Heat Shock Response

Author

Rebekah Crake, Imène Gasmi, Jordan Dehaye, Fanny Lardinois, Raphaël Peiffer, Naïma Maloujahmoum, Ferman Agirman, Benjamin Koopmansch, Nicky D’Haene, Oier Azurmendi Senar, Tatjana Arsenijevic, Frédéric Lambert, Olivier Peulen, Jean-Luc Van Laethem, and Akeila Bellahcène

Subjects

oncometabolite, methylglyoxal, glycolysis, therapy resistance, gemcitabine, metformin, Cytology, QH573-671

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a fatal disease with poor prognosis. Gemcitabine is the first-line therapy for PDAC, but gemcitabine resistance is a major impediment to achieving satisfactory clinical outcomes. This study investigated whether methylglyoxal (MG), an oncometabolite spontaneously formed as a by-product of glycolysis, notably favors PDAC resistance to gemcitabine. We observed that human PDAC tumors expressing elevated levels of glycolytic enzymes together with high levels of glyoxalase 1 (GLO1), the major MG-detoxifying enzyme, present with a poor prognosis. Next, we showed that glycolysis and subsequent MG stress are triggered in PDAC cells rendered resistant to gemcitabine when compared with parental cells. In fact, acquired resistance, following short and long-term gemcitabine challenges, correlated with the upregulation of GLUT1, LDHA, GLO1, and the accumulation of MG protein adducts. We showed that MG-mediated activation of heat shock response is, at least in part, the molecular mechanism underlying survival in gemcitabine-treated PDAC cells. This novel adverse effect of gemcitabine, i.e., induction of MG stress and HSR activation, is efficiently reversed using potent MG scavengers such as metformin and aminoguanidine. We propose that the MG blockade could be exploited to resensitize resistant PDAC tumors and to improve patient outcomes using gemcitabine therapy.

Published

2023

8. Tumor resistance to ferroptosis driven by Stearoyl-CoA Desaturase-1 (SCD1) in cancer cells and Fatty Acid Biding Protein-4 (FABP4) in tumor microenvironment promote tumor recurrence

Author

Géraldine Luis, Adrien Godfroid, Shin Nishiumi, Jonathan Cimino, Silvia Blacher, Erik Maquoi, Coline Wery, Alice Collignon, Rémi Longuespée, Laetitia Montero-Ruiz, Isabelle Dassoul, Naima Maloujahmoum, Charles Pottier, Gabriel Mazzucchelli, Edwin Depauw, Akeila Bellahcène, Masaru Yoshida, Agnès Noel, and Nor Eddine Sounni

Subjects

Lipid metabolism, Hypoxia, Reoxygenation, Drug-resistance, Tumor-microenvironment, ROS-ferroptosis, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Problem: Tumor recurrence is a major clinical issue that represents the principal cause of cancer-related deaths, with few targetable common pathways. Mechanisms by which residual tumors persist and progress under a continuous shift between hypoxia-reoxygenation after neoadjuvent-therapy are unknown. In this study, we investigated the role of lipid metabolism and tumor redox balance in tumor recurrence. Methods: Lipidomics, proteomics and mass spectrometry imaging approaches where applied to mouse tumor models of recurrence. Genetic and pharmacological inhibitions of lipid mediators in tumors were used in vivo and in functional assays in vitro. Results: We found that stearoyl-CoA desaturase-1 (SCD1) expressed by cancer cells and fatty acid binding protein-4 (FABP4) produced by tumor endothelial cells (TECs) and adipocytes in the tumor microenvironment (TME) are essential for tumor relapse in response to tyrosine kinase inhibitors (TKI) and chemotherapy. SCD1 and FABP4 were also found upregulated in recurrent human breast cancer samples and correlated with worse prognosis of cancer patients with different types of tumors. Mechanistically, SCD1 leads to fatty acid (FA) desaturation and FABP4 derived from TEM enhances lipid droplet (LD) in cancer cells, which cooperatively protect from oxidative stress-induced ferroptosis. We revealed that lipid mobilization and desaturation elicit tumor intrinsic antioxidant and anti-ferroptotic resources for survival and regrowth in a harsh TME. Inhibition of lipid transport from TME by FABP4 inhibitor reduced tumor regrowth and by genetic — or by pharmacological — targeting SCD1 in vivo, tumor regrowth was abolished completely. Conclusion: This finding unveils that it is worth taking advantage of tumor lipid addiction, as a tumor vulnerability to design novel treatment strategy to prevent cancer recurrence.

Published

2021

9. Methylglyoxal, a glycolysis metabolite, triggers metastasis through MEK/ERK/SMAD1 pathway activation in breast cancer

Author

Marie-Julie Nokin, Justine Bellier, Florence Durieux, Olivier Peulen, Gilles Rademaker, Maude Gabriel, Christine Monseur, Benoit Charloteaux, Lieven Verbeke, Steven van Laere, Patrick Roncarati, Michael Herfs, Charles Lambert, Jean Scheijen, Casper Schalkwijk, Alain Colige, Jo Caers, Philippe Delvenne, Andrei Turtoi, Vincent Castronovo, and Akeila Bellahcène

Subjects

Breast cancer, Methylglyoxal, SMAD1, Metastasis, Carnosine, MAPK, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Elevated aerobic glycolysis rate is a biochemical alteration associated with malignant transformation and cancer progression. This metabolic shift unavoidably generates methylglyoxal (MG), a potent inducer of dicarbonyl stress through the formation of advanced glycation end products (AGEs). We have previously shown that the silencing of glyoxalase 1 (GLO1), the main MG detoxifying enzyme, generates endogenous dicarbonyl stress resulting in enhanced growth and metastasis in vivo. However, the molecular mechanisms through which MG stress promotes metastasis development remain to be unveiled. Methods In this study, we used RNA sequencing analysis to investigate gene-expression profiling of GLO1-depleted breast cancer cells and we validated the regulated expression of selected genes of interest by RT-qPCR. Using in vitro and in vivo assays, we demonstrated the acquisition of a pro-metastatic phenotype related to dicarbonyl stress in MDA-MB-231, MDA-MB-468 and MCF7 breast cancer cellular models. Hyperactivation of MEK/ERK/SMAD1 pathway was evidenced using western blotting upon endogenous MG stress and exogenous MG treatment conditions. MEK and SMAD1 regulation of MG pro-metastatic signature genes in breast cancer cells was demonstrated by RT-qPCR. Results High-throughput transcriptome profiling of GLO1-depleted breast cancer cells highlighted a pro-metastatic signature that establishes novel connections between MG dicarbonyl stress, extracellular matrix (ECM) remodeling by neoplastic cells and enhanced cell migration. Mechanistically, we showed that these metastasis-related processes are functionally linked to MEK/ERK/SMAD1 cascade activation in breast cancer cells. We showed that sustained MEK/ERK activation in GLO1-depleted cells notably occurred through the down-regulation of the expression of dual specificity phosphatases in MG-stressed breast cancer cells. The use of carnosine and aminoguanidine, two potent MG scavengers, reversed MG stress effects in in vitro and in vivo experimental settings. Conclusions These results uncover for the first time the key role of MG dicarbonyl stress in the induction of ECM remodeling and the activation of migratory signaling pathways, both in favor of enhanced metastatic dissemination of breast cancer cells. Importantly, the efficient inhibition of mitogen-activated protein kinase (MAPK) signaling using MG scavengers further emphasizes the need to investigate their therapeutic potential across different malignancies.

Published

2019

10. Methylglyoxal Scavengers Resensitize KRAS-Mutated Colorectal Tumors to Cetuximab

Author

Justine Bellier, Marie-Julie Nokin, Maurine Caprasse, Assia Tiamiou, Arnaud Blomme, Jean L. Scheijen, Benjamin Koopmansch, Gillian M. MacKay, Barbara Chiavarina, Brunella Costanza, Gilles Rademaker, Florence Durieux, Ferman Agirman, Naïma Maloujahmoum, Pino G. Cusumano, Pierre Lovinfosse, Hing Y. Leung, Frédéric Lambert, Vincent Bours, Casper G. Schalkwijk, Roland Hustinx, Olivier Peulen, Vincent Castronovo, and Akeila Bellahcène

Subjects

Biology (General), QH301-705.5

Abstract

Summary: The use of cetuximab anti-epidermal growth factor receptor (anti-EGFR) antibodies has opened the era of targeted and personalized therapy in colorectal cancer (CRC). Poor response rates have been unequivocally shown in mutant KRAS and are even observed in a majority of wild-type KRAS tumors. Therefore, patient selection based on mutational profiling remains problematic. We previously identified methylglyoxal (MGO), a by-product of glycolysis, as a metabolite promoting tumor growth and metastasis. Mutant KRAS cells under MGO stress show AKT-dependent survival when compared with wild-type KRAS isogenic CRC cells. MGO induces AKT activation through phosphatidylinositol 3-kinase (PI3K)/mammalian target of rapamycin 2 (mTORC2) and Hsp27 regulation. Importantly, the sole induction of MGO stress in sensitive wild-type KRAS cells renders them resistant to cetuximab. MGO scavengers inhibit AKT and resensitize KRAS-mutated CRC cells to cetuximab in vivo. This study establishes a link between MGO and AKT activation and pinpoints this oncometabolite as a potential target to tackle EGFR-targeted therapy resistance in CRC. : Bellier et al. demonstrate that MGO stress is a constant feature of KRAS-mutated CRC tumors. MGO induces a key survival pathway implicated in resistance to EGFR-targeted therapy in CRC. The scavenging of this oncometabolite could be beneficial in the treatment of both wild-type and mutant KRAS CRC tumors. Keywords: methylglyoxal, colorectal cancer, KRAS mutation, EGFR-targeted therapy, Hsp27, carnosine, aminoguanidine, cetuximab, AKT signaling

Published

2020

11. Supplementary Table 1 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Author

Edith Bonnelye, Philippe Clézardin, Jane E. Aubin, Françoise Descotes, Hélène Follet, Vincent Castronovo, Akeila Bellahcène, Baptiste Dépalle, Delphine Goehrig, Lamia Bouazza, Helène Sorel, and Anaïs Fradet

Abstract

Supplementary Table 1 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Published

2023

12. Data from A Six-Gene Signature Predicting Breast Cancer Lung Metastasis

Author

Keltouma Driouch, Rosette Lidereau, Anna Teti, Vincent Castronovo, Teresa Garcia, Pascal Cherel, Ivan Bièche, Marianne Briffod, Catherine Noguès, Enrico Ricevuto, Jean-Marc Guinebretière, Alain Boudinet, Angels Sierra, Berta Martin Abad, Soraya Sin, Nadia Rucci, Akeila Bellahcène, Amanda Jackson, and Thomas Landemaine

Abstract

The lungs are a frequent target of metastatic breast cancer cells, but the underlying molecular mechanisms are unclear. All existing data were obtained either using statistical association between gene expression measurements found in primary tumors and clinical outcome, or using experimentally derived signatures from mouse tumor models. Here, we describe a distinct approach that consists of using tissue surgically resected from lung metastatic lesions and comparing their gene expression profiles with those from nonpulmonary sites, all coming from breast cancer patients. We show that the gene expression profiles of organ-specific metastatic lesions can be used to predict lung metastasis in breast cancer. We identified a set of 21 lung metastasis–associated genes. Using a cohort of 72 lymph node–negative breast cancer patients, we developed a 6-gene prognostic classifier that discriminated breast primary cancers with a significantly higher risk of lung metastasis. We then validated the predictive ability of the 6-gene signature in 3 independent cohorts of breast cancers consisting of a total of 721 patients. Finally, we show that the signature improves risk stratification independently of known standard clinical variables and a previously established lung metastasis signature based on an experimental breast cancer metastasis model. [Cancer Res 2008;68(15):6092–9]

Published

2023

13. Supplementary Figure 1 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Author

Edith Bonnelye, Philippe Clézardin, Jane E. Aubin, Françoise Descotes, Hélène Follet, Vincent Castronovo, Akeila Bellahcène, Baptiste Dépalle, Delphine Goehrig, Lamia Bouazza, Helène Sorel, and Anaïs Fradet

Abstract

Supplementary Figure 1 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Published

2023

14. Supplementary Figure 3 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Author

Edith Bonnelye, Philippe Clézardin, Jane E. Aubin, Françoise Descotes, Hélène Follet, Vincent Castronovo, Akeila Bellahcène, Baptiste Dépalle, Delphine Goehrig, Lamia Bouazza, Helène Sorel, and Anaïs Fradet

Abstract

Supplementary Figure 3 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Published

2023

15. Supplementary Table 1 from A Six-Gene Signature Predicting Breast Cancer Lung Metastasis

Author

Keltouma Driouch, Rosette Lidereau, Anna Teti, Vincent Castronovo, Teresa Garcia, Pascal Cherel, Ivan Bièche, Marianne Briffod, Catherine Noguès, Enrico Ricevuto, Jean-Marc Guinebretière, Alain Boudinet, Angels Sierra, Berta Martin Abad, Soraya Sin, Nadia Rucci, Akeila Bellahcène, Amanda Jackson, and Thomas Landemaine

Abstract

Supplementary Table 1 from A Six-Gene Signature Predicting Breast Cancer Lung Metastasis

Published

2023

16. Supplementary Materials Figures and Tables from Myoferlin Is a Key Regulator of EGFR Activity in Breast Cancer

Author

Vincent Castronovo, Philippe Delvenne, Eric Lifrange, Edwin De Pauw, Agnès Noel, Elettra Bianchi, Paul Peixoto, Vincent Hennequière, Christine Gilles, Akeila Bellahcène, Arnaud Blomme, and Andrei Turtoi

Abstract

PDF file, 2894K, Figure S1: Cell migration and invasion analysis following siRNA mediated silencing of myoferlin (MYOF) in MDA-MB231 cells. Figure S2: Myoferlin depletion in MDA-MB468 cells results in sustained EGFR phosphorylation upon EGF stimulation and impedes the EGF-induced cell migration. Figure S3: Analysis of time dependent pEGFR and EGFR expression patterns (48h post transfection with irrelevant siRNA) following EGF stimulation and chemical inhibition of the proteasome with MG132. Figure S4: Cellular adhesion assay on selected extracellular matrix proteins. Figure S5: Modulation of vimentin expression following myoferlin silencing in MDA-MB231 cells. Figure S6: Clathrin (CLH1) colocalizes with myoferlin and pEGFR during EGF mediated receptor activation and shows no modulation at the protein level following myoferlin silencing. Supplemental Tables Table S1: List of up-regulated breast tumor proteins obtained from the analysis of 3 non-tumoral adjacent and 3 tumoral specimens. Table S2: Average values (n=3) indicating the number of unique peptides, sequence coverage and score. Table S3: Glycosylated peptides observed for the proteins displayed in the Table 1.

Published

2023

17. Supplementary Figure 2 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Author

Edith Bonnelye, Philippe Clézardin, Jane E. Aubin, Françoise Descotes, Hélène Follet, Vincent Castronovo, Akeila Bellahcène, Baptiste Dépalle, Delphine Goehrig, Lamia Bouazza, Helène Sorel, and Anaïs Fradet

Abstract

Supplementary Figure 2 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Published

2023

18. Supplementary Table 2 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Author

Edith Bonnelye, Philippe Clézardin, Jane E. Aubin, Françoise Descotes, Hélène Follet, Vincent Castronovo, Akeila Bellahcène, Baptiste Dépalle, Delphine Goehrig, Lamia Bouazza, Helène Sorel, and Anaïs Fradet

Abstract

Supplementary Table 2 from Dual Function of ERRα in Breast Cancer and Bone Metastasis Formation: Implication of VEGF and Osteoprotegerin

Published

2023

19. Ferlin Overview: From Membrane to Cancer Biology

Author

Olivier Peulen, Gilles Rademaker, Sandy Anania, Andrei Turtoi, Akeila Bellahcène, and Vincent Castronovo

Subjects

ferlin, myoferlin, dysferlin, otoferlin, C2 domain, plasma membrane, Cytology, QH573-671

Abstract

In mammal myocytes, endothelial cells and inner ear cells, ferlins are proteins involved in membrane processes such as fusion, recycling, endo- and exocytosis. They harbour several C2 domains allowing their interaction with phospholipids. The expression of several Ferlin genes was described as altered in several tumoural tissues. Intriguingly, beyond a simple alteration, myoferlin, otoferlin and Fer1L4 expressions were negatively correlated with patient survival in some cancer types. Therefore, it can be assumed that membrane biology is of extreme importance for cell survival and signalling, making Ferlin proteins core machinery indispensable for cancer cell adaptation to hostile environments. The evidences suggest that myoferlin, when overexpressed, enhances cancer cell proliferation, migration and metabolism by affecting various aspects of membrane biology. Targeting myoferlin using pharmacological compounds, gene transfer technology, or interfering RNA is now considered as an emerging therapeutic strategy.

Published

2019

20. Methylglyoxal, a glycolysis side-product, induces Hsp90 glycation and YAP-mediated tumor growth and metastasis

Author

Marie-Julie Nokin, Florence Durieux, Paul Peixoto, Barbara Chiavarina, Olivier Peulen, Arnaud Blomme, Andrei Turtoi, Brunella Costanza, Nicolas Smargiasso, Dominique Baiwir, Jean L Scheijen, Casper G Schalkwijk, Justine Leenders, Pascal De Tullio, Elettra Bianchi, Marc Thiry, Koji Uchida, David A Spiegel, James R Cochrane, Craig A Hutton, Edwin De Pauw, Philippe Delvenne, Dominique Belpomme, Vincent Castronovo, and Akeila Bellahcène

Subjects

carbonyl stress, glyoxalase 1, LATS1, breast cancer, methylglyoxal, YAP, Medicine, Science, Biology (General), QH301-705.5

Abstract

Metabolic reprogramming toward aerobic glycolysis unavoidably induces methylglyoxal (MG) formation in cancer cells. MG mediates the glycation of proteins to form advanced glycation end products (AGEs). We have recently demonstrated that MG-induced AGEs are a common feature of breast cancer. Little is known regarding the impact of MG-mediated carbonyl stress on tumor progression. Breast tumors with MG stress presented with high nuclear YAP, a key transcriptional co-activator regulating tumor growth and invasion. Elevated MG levels resulted in sustained YAP nuclear localization/activity that could be reverted using Carnosine, a scavenger for MG. MG treatment affected Hsp90 chaperone activity and decreased its binding to LATS1, a key kinase of the Hippo pathway. Cancer cells with high MG stress showed enhanced growth and metastatic potential in vivo. These findings reinforce the cumulative evidence pointing to hyperglycemia as a risk factor for cancer incidence and bring renewed interest in MG scavengers for cancer treatment.

Published

2016

21. Fibroblast-derived prolargin is a tumor suppressor in hepatocellular carcinoma

Author

Barbara Chiavarina, Roberto Ronca, Yukihiro Otaka, Roger Bryan Sutton, Sara Rezzola, Takehiko Yokobori, Paola Chiodelli, Regis Souche, Didier Pourquier, Antonio Maraver, Gavino Faa, Lakhdar Khellaf, Evgenia Turtoi, Tetsunari Oyama, Stephanie Gofflot, Akeila Bellahcène, Olivier Detry, Philippe Delvenne, Vincent Castronovo, Masahiko Nishiyama, and Andrei Turtoi

Subjects

Cancer Research, Carcinoma, Hepatocellular, Cancer-Associated Fibroblasts, Liver Neoplasms, Genetics, Tumor Microenvironment, Humans, Fibroblasts, Molecular Biology

Abstract

Cancer-associated fibroblasts (CAF) are important constituents of the tumor microenvironment (TME) and are major drivers of tumorigenesis. Yet, therapies aiming at eliminating CAF have failed to cure patients. This setback has raised questions regarding whether CAF exclusively favour cancer progression, or if they may also assume tumor-suppressor functions. In the present study, we used proteomics and single cell RNA-sequencing analysis to examine the CAF landscape in hepatocellular carcinoma (HCC). We thereby unveil three major CAF populations in HCC, one of which specifically expressing the prolargin protein. This CAF subpopulation (further termed as CAF_Port) shared a strong transcriptomic signature with portal liver fibroblasts. We further show that CAF_Port deposit prolargin in the TME and that its levels are lower in tumors as compared to the peritumoral region. Mechanistically, aggressive cancer cells degraded prolargin using matrix metalloprotease activity. Survival analysis of 188 patients revealed that high prolargin protein levels correlate with good patient outcome (HR = 0.37; p = 0.01). In vivo, co-injection of cancer cells with fibroblasts silenced for prolargin, led to faster tumor development (5-fold; p = 0.01), mainly due to stronger angiogenesis. Using protein-protein interaction study and structural modelling, we further demonstrate that prolargin binds and inhibits the activity of several pro-agiogenic proteins, including hepatocyte and fibroblast growth factors. In conclusion, prolargin is angiogenesis modulator and CAF-derived tumor suppressor in HCC. Stabilizing prolargin levels in the CAF_Port subpopulation may revert their tumor-antagonizing properties, warranting exploration in further pre-clinical studies.

Published

2022

22. Cell Membrane Proteomic Analysis Identifies Proteins Differentially Expressed in Osteotropic Human Breast Cancer Cells

Author

Philippe Kischel, François Guillonneau, Bruno Dumont, Akeila Bellahcène, Verena Stresing, Philippe Clézardin, Edwin A. De Pauw, and Vincent Castronovo

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Metastatic breast cancer cells are characterized by their high propensity to colonize the skeleton and form bone metastases, causing major morbidity and mortality. Identifying key proteins involved in the osteotropic phenotype would represent a major step toward the development of both new prognostic markers and new effective therapies. Cell surface proteins differentially expressed in cancer cells are preferred potential targets for antibody-based targeted therapies. In this study, using cell surface biotinylation and a mass spectrometric approach, we have compared the profile of accessible cell surface proteins between the human breast cancer cell line MDA-MB-231 and its highly osteotropic B02 subclone. This strategy allowed the identification of several proteins either up- or downregulated in the osteotropic cell line, and differential protein expressions were validated using antibody-based techniques. Class I HLAs were down-regulated in the bone metastatic variant, whereas αvβ3 integrins, among others, were consistently up-regulated in this latter cell line. These results show that comprehensive profiling of the cell surface proteome of mother cancerous cell lines and derived organ-specific metastatic cell lines provides an effective approach for the identification of potential accessible marker proteins for both prognosis and antibodybased targeted therapies.

Published

2008

23. Asporin Is a Fibroblast-Derived TGF-β1 Inhibitor and a Tumor Suppressor Associated with Good Prognosis in Breast Cancer.

Author

Pamela Maris, Arnaud Blomme, Ana Perez Palacios, Brunella Costanza, Akeila Bellahcène, Elettra Bianchi, Stephanie Gofflot, Pierre Drion, Giovanna Elvi Trombino, Emmanuel Di Valentin, Pino G Cusumano, Sylvie Maweja, Guy Jerusalem, Philippe Delvenne, Eric Lifrange, Vincent Castronovo, and Andrei Turtoi

Subjects

Medicine

Abstract

BackgroundBreast cancer is a leading malignancy affecting the female population worldwide. Most morbidity is caused by metastases that remain incurable to date. TGF-β1 has been identified as a key driving force behind metastatic breast cancer, with promising therapeutic implications.Methods and findingsEmploying immunohistochemistry (IHC) analysis, we report, to our knowledge for the first time, that asporin is overexpressed in the stroma of most human breast cancers and is not expressed in normal breast tissue. In vitro, asporin is secreted by breast fibroblasts upon exposure to conditioned medium from some but not all human breast cancer cells. While hormone receptor (HR) positive cells cause strong asporin expression, triple-negative breast cancer (TNBC) cells suppress it. Further, our findings show that soluble IL-1β, secreted by TNBC cells, is responsible for inhibiting asporin in normal and cancer-associated fibroblasts. Using recombinant protein, as well as a synthetic peptide fragment, we demonstrate the ability of asporin to inhibit TGF-β1-mediated SMAD2 phosphorylation, epithelial to mesenchymal transition, and stemness in breast cancer cells. In two in vivo murine models of TNBC, we observed that tumors expressing asporin exhibit significantly reduced growth (2-fold; p = 0.01) and metastatic properties (3-fold; p = 0.045). A retrospective IHC study performed on human breast carcinoma (n = 180) demonstrates that asporin expression is lowest in TNBC and HER2+ tumors, while HR+ tumors have significantly higher asporin expression (4-fold; p = 0.001). Assessment of asporin expression and patient outcome (n = 60; 10-y follow-up) shows that low protein levels in the primary breast lesion significantly delineate patients with bad outcome regardless of the tumor HR status (area under the curve = 0.87; 95% CI 0.78-0.96; p = 0.0001). Survival analysis, based on gene expression (n = 375; 25-y follow-up), confirmed that low asporin levels are associated with a reduced likelihood of survival (hazard ratio = 0.58; 95% CI 0.37-0.91; p = 0.017). Although these data highlight the potential of asporin to serve as a prognostic marker, confirmation of the clinical value would require a prospective study on a much larger patient cohort.ConclusionsOur data show that asporin is a stroma-derived inhibitor of TGF-β1 and a tumor suppressor in breast cancer. High asporin expression is significantly associated with less aggressive tumors, stratifying patients according to the clinical outcome. Future pre-clinical studies should consider options for increasing asporin expression in TNBC as a promising strategy for targeted therapy.

Published

2015

24. Methylglyoxal Scavengers Resensitize KRAS-Mutated Colorectal Tumors to Cetuximab

Author

Justine Bellier, Marie-Julie Nokin, Maurine Caprasse, Assia Tiamiou, Arnaud Blomme, Jean L. Scheijen, Benjamin Koopmansch, Gillian M. MacKay, Barbara Chiavarina, Brunella Costanza, Gilles Rademaker, Florence Durieux, Ferman Agirman, Naïma Maloujahmoum, Pino G. Cusumano, Pierre Lovinfosse, Hing Y. Leung, Frédéric Lambert, Vincent Bours, Casper G. Schalkwijk, Roland Hustinx, Olivier Peulen, Vincent Castronovo, Akeila Bellahcène, MUMC+: MA Alg Onderzoek Interne Geneeskunde (9), Interne Geneeskunde, and RS: Carim - V01 Vascular complications of diabetes and metabolic syndrome

Subjects

Adult, Male, Glycosylation, akt, growth, HSP27 Heat-Shock Proteins, heat-shock-protein, Cetuximab, Mechanistic Target of Rapamycin Complex 2, Mice, SCID, resistance, Proto-Oncogene Proteins p21(ras), Phosphatidylinositol 3-Kinases, Mice, Inbred NOD, Stress, Physiological, Cell Line, Tumor, Animals, Humans, neoplasms, lcsh:QH301-705.5, ras, Aged, Cell Proliferation, Aged, 80 and over, Carnosine, Free Radical Scavengers, Middle Aged, Pyruvaldehyde, digestive system diseases, heat-shock-protein-27, targeted therapies, Clone Cells, Enzyme Activation, lcsh:Biology (General), Mutation, cancer cells, hsp27, Colorectal Neoplasms, metabolism, Glycolysis, Proto-Oncogene Proteins c-akt

Abstract

Summary: The use of cetuximab anti-epidermal growth factor receptor (anti-EGFR) antibodies has opened the era of targeted and personalized therapy in colorectal cancer (CRC). Poor response rates have been unequivocally shown in mutant KRAS and are even observed in a majority of wild-type KRAS tumors. Therefore, patient selection based on mutational profiling remains problematic. We previously identified methylglyoxal (MGO), a by-product of glycolysis, as a metabolite promoting tumor growth and metastasis. Mutant KRAS cells under MGO stress show AKT-dependent survival when compared with wild-type KRAS isogenic CRC cells. MGO induces AKT activation through phosphatidylinositol 3-kinase (PI3K)/mammalian target of rapamycin 2 (mTORC2) and Hsp27 regulation. Importantly, the sole induction of MGO stress in sensitive wild-type KRAS cells renders them resistant to cetuximab. MGO scavengers inhibit AKT and resensitize KRAS-mutated CRC cells to cetuximab in vivo. This study establishes a link between MGO and AKT activation and pinpoints this oncometabolite as a potential target to tackle EGFR-targeted therapy resistance in CRC. : Bellier et al. demonstrate that MGO stress is a constant feature of KRAS-mutated CRC tumors. MGO induces a key survival pathway implicated in resistance to EGFR-targeted therapy in CRC. The scavenging of this oncometabolite could be beneficial in the treatment of both wild-type and mutant KRAS CRC tumors. Keywords: methylglyoxal, colorectal cancer, KRAS mutation, EGFR-targeted therapy, Hsp27, carnosine, aminoguanidine, cetuximab, AKT signaling

Published

2019

25. Additional file 2: of Methylglyoxal, a glycolysis metabolite, triggers metastasis through MEK/ERK/SMAD1 pathway activation in breast cancer

Author

Marie-Julie Nokin, Bellier, Justine, Durieux, Florence, Peulen, Olivier, Rademaker, Gilles, Gabriel, Maude, Monseur, Christine, Benoit Charloteaux, Verbeke, Lieven, Laere, Steven, Roncarati, Patrick, Herfs, Michael, Lambert, Charles, Scheijen, Jean, Schalkwijk, Casper, Colige, Alain, Caers, Jo, Delvenne, Philippe, Turtoi, Andrei, Castronovo, Vincent, and Akeila Bellahcène

Abstract

Figure S1. RNA sequencing analysis of GLO1-depleted MDA-MB-231 cells. (A) MG extracellular concentrations were assessed over 48 h in conditioned medium of GLO1-depleted MDA-MB-231 cells using UPLC-MS/MS. (B) Volcano plots highlighting differentially expressed genes in shGLO1#1 and shGLO1#2 MDA-MB-231 cells. Orange and red dots represent genes differentially expressed significantly (q 1) for shGLO1 clones. Red dots represent genes of the pro-metastatic signature. (C) Tenascin C, Lumican and CD24 mRNA levels were assessed by qRT-PCR in MDA-MB-231 cells treated with MG 300 and 500 μM for 1 h. Data were analyzed using one-way ANOVA followed by Dunnett post-hoc test and shown as mean values ± SEM of three independent experiments. *p

Published

2019

26. Myoferlin controls mitochondrial structure and activity in pancreatic ductal adenocarcinoma, and affects tumor aggressiveness

Author

Gilles, Rademaker, Vincent, Hennequière, Laura, Brohée, Marie-Julie, Nokin, Pierre, Lovinfosse, Florence, Durieux, Stéphanie, Gofflot, Justine, Bellier, Brunella, Costanza, Michael, Herfs, Raphael, Peiffer, Lucien, Bettendorff, Christophe, Deroanne, Marc, Thiry, Philippe, Delvenne, Roland, Hustinx, Akeila, Bellahcène, Vincent, Castronovo, and Olivier, Peulen

Subjects

endocrine system diseases, Calcium-Binding Proteins, Membrane Proteins, Muscle Proteins, Adenocarcinoma, digestive system diseases, Oxidative Phosphorylation, Article, Mitochondria, Gene Expression Regulation, Neoplastic, Pancreatic Neoplasms, Adenosine Triphosphate, Cell Line, Tumor, Autophagy, Humans, RNA, Small Interfering, Energy Metabolism, Glycolysis, Carcinoma, Pancreatic Ductal, Cell Proliferation

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is the third leading cause of cancer-related death. Therapeutic options remain very limited and are based on classical chemotherapies. Energy metabolism reprogramming appears as an emerging hallmark of cancer and is considered a therapeutic target with considerable potential. Myoferlin, a ferlin family member protein overexpressed in PDAC, is involved in plasma membrane biology and has a tumor-promoting function. In the continuity of our previous studies, we investigated the role of myoferlin in the context of energy metabolism in PDAC. We used selected PDAC tumor samples and PDAC cell lines together with small interfering RNA technology to study the role of myoferlin in energetic metabolism. In PDAC patients, we showed that myoferlin expression is negatively correlated with overall survival and with glycolytic activity evaluated by 18F-deoxyglucose positron emission tomography. We found out that myoferlin is more abundant in lipogenic pancreatic cancer cell lines and is required to maintain a branched mitochondrial structure and a high oxidative phosphorylation activity. The observed mitochondrial fission induced by myoferlin depletion led to a decrease of cell proliferation, ATP production, and autophagy induction, thus indicating an essential role of myoferlin for PDAC cell fitness. The metabolic phenotype switch generated by myoferlin silencing could open up a new perspective in the development of therapeutic strategies, especially in the context of energy metabolism.

Published

2017

27. Myoferlin plays a key role in VEGFA secretion and impacts tumor-associated angiogenesis in human pancreas cancer

Author

Karim, Fahmy, Arnaud, Gonzalez, Mohammad, Arafa, Paul, Peixoto, Akeila, Bellahcène, Andrei, Turtoi, Philippe, Delvenne, Marc, Thiry, Vincent, Castronovo, Olivier, Peulen, Université de Liège, Mansoura University [Egypt], Institut de Recherche en Cancérologie de Montpellier (IRCM - U1194 Inserm - UM), and CRLCC Val d'Aurelle - Paul Lamarque-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM)

Subjects

Vascular Endothelial Growth Factor A, MESH: Cell Line, Tumor, Muscle Proteins, [SDV.CAN]Life Sciences [q-bio]/Cancer, MESH: Calcium-Binding Proteins, Adenocarcinoma, angiogenesis, MESH: Muscle Proteins, myoferlin, MESH: Platelet Endothelial Cell Adhesion Molecule-1, Cell Line, Tumor, MESH: Cell Proliferation, Humans, Cell Proliferation, MESH: Humans, Neovascularization, Pathologic, MESH: Carcinoma, Pancreatic Ductal, MESH: Vascular Endothelial Growth Factor A, Calcium-Binding Proteins, MESH: Adenocarcinoma, Membrane Proteins, pancreas ductal adenocarcinoma, VEGF, Pancreatic Neoplasms, Platelet Endothelial Cell Adhesion Molecule-1, MESH: Membrane Proteins, MESH: Pancreatic Neoplasms, exocytosis, MESH: Neovascularization, Pathologic, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Carcinoma, Pancreatic Ductal

Abstract

International audience; Pancreatic ductal adenocarcinoma is one of the most deadly forms of cancers with no satisfactory treatment to date. Recent studies have identified myoferlin, a ferlin family member, in human pancreas adenocarcinoma where its expression was associated to a bad prognosis. However, the function of myoferlin in pancreas adenocarcinoma has not been reported. In other cell types, myoferlin is involved in several key plasma membrane processes such as fusion, repair, endocytosis and tyrosine kinase receptor activity. In this study, we showed that myoferlin silencing in BxPC-3 human pancreatic cancer cells resulted in the inhibition of cell proliferation in vitro and in a significant reduction of the tumor volume in chick chorioallantoic membrane assay. In addition to be smaller, the tumors formed by the myoferlin-silenced cells showed a marked absence of functional blood vessels. We further demonstrated that this effect was due, at least in part, to an inhibition of VEGFA secretion by BxPC-3 myoferlin-silenced cells. Using immunofluorescence and electron microscopy, we linked the decreased VEGFA secretion to an impairment of VEGFA exocytosis. The clinical relevance of our results was further strengthened by a significant correlation between myoferlin expression in a series of human pancreatic malignant lesions and their angiogenic status evaluated by the determination of the blood vessel density.

Published

2016

28. Targeting osteopontin suppresses glioblastoma stem-like cell character and tumorigenicity in vivo

Author

Virginie, Lamour, Aurélie, Henry, Jérôme, Kroonen, Marie-Julie, Nokin, Zofia, von Marschall, Larry W, Fisher, Tieu-Lan, Chau, Alain, Chariot, Marc, Sanson, Jean-Yves, Delattre, Andrei, Turtoi, Olivier, Peulen, Bernard, Rogister, Vincent, Castronovo, Akeila, Bellahcène, Université de Liège, National Institutes of Health [Bethesda] (NIH), Centre de Recherche de l'Institut du Cerveau et de la Moelle épinière (CRICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche en Cancérologie de Montpellier (IRCM - U1194 Inserm - UM), and CRLCC Val d'Aurelle - Paul Lamarque-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Montpellier (UM)

Subjects

osteopontin, tumor initiating cells, Brain Neoplasms, EGFR, Sox2, glioblastoma, Mice, Nude, Autocrine Communication, Mice, stomatognathic system, Cell Line, Tumor, Spheroids, Cellular, Neoplastic Stem Cells, Animals, Humans, Gene Silencing, Molecular Targeted Therapy, RNA, Small Interfering, Neoplasm Transplantation, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Cell Proliferation

Abstract

International audience; Osteopontin (OPN) is a secreted protein involved in most aspects of tumor progression and metastasis development. Elevated OPN expression has been reported in multiple types of cancer including glioblastoma (GBM), the highest grade and most aggressive brain tumor. GBMs contain a subpopulation of glioma-initiating cells (GICs) implicated in progression, therapeutic resistance and recurrence. We have previously demonstrated that OPN silencing inhibited GBM cell growth in vitro and in vivo. Moreover, activation of CD44 signaling upon OPN ligation has been recently implicated in the acquisition of a stem cell phenotype by GBM cells. The present study is aimed to explore OPN autocrine function using shRNA silencing strategy in GICs enriched from GBM cell lines and a human primary GBM grown in EGF and bFGF defined medium. The removal of these growth factors and addition of serum induced a significant loss of OPN expression in GICs. We showed that OPN-silenced GICs were unable to grow as spheres and this capacity was restored by exogenous OPN. Importantly, the expression of Sox2, Oct3/4 and Nanog, key stemness transcription factors, was significantly decreased in GICs upon OPN targeting. We identified Akt/mTOR/p70S6K as the main signaling pathway triggered following OPN-mediated EGFR activation in GICs. Finally, in an orthotopic xenograft mouse model, the tumorigenic potential of U87-MG sphere cells was completely abrogated upon OPN silencing. Our demonstration of endogenous OPN major regulatory effects on GICs stemness phenotype and tumorigenicity implies a greater role than anticipated for OPN in GBM pathogenesis from initiation and progression to probable recurrence.

Published

2015

29. [SIBLING proteins: molecular tools for tumor progression and angiogenesis]

Author

Virginie, Lamour, Marie-Julie, Nokin, Aurélie, Henry, Vincent, Castronovo, and Akeila, Bellahcène

Subjects

Extracellular Matrix Proteins, Neovascularization, Pathologic, Carcinogenesis, Sialoglycoproteins, Phosphoproteins, Cell Movement, Neoplasms, Cell Adhesion, Animals, Humans, Integrin-Binding Sialoprotein, Neoplasm Invasiveness, Osteopontin, Neoplasm Metastasis, Cell Proliferation, Glycoproteins

Abstract

The small integrin-binding ligand N-linked glycoprotein (SIBLING) family consists of osteopontin (OPN), bonesialoprotein (BSP), dentin matrix protein 1 (DMP1), dentin sialophosphoprotein (DSPP) and matrix extracellular phosphoglycoprotein (MEPE). These proteins, initially identified in bone and teeth, share many structural characteristics. It is now well established that they are over expressed in many tumors and play a critical role at different steps of cancer development. In this review, we describe the roles of SIBLING proteins at different stages of cancer progression including cancer cell adhesion, proliferation, migration, invasion, metastasis and angiogenesis.

Published

2013

30. Selective osteopontin knockdown exerts anti-tumoral activity in a human glioblastoma model

Author

Virginie, Lamour, Marie, Le Mercier, Florence, Lefranc, Martin, Hagedorn, Sophie, Javerzat, Andreas, Bikfalvi, Robert, Kiss, Vincent, Castronovo, and Akeila, Bellahcène

Subjects

Neovascularization, Pathologic, Reverse Transcriptase Polymerase Chain Reaction, Blotting, Western, Apoptosis, Enzyme-Linked Immunosorbent Assay, Chick Embryo, Transfection, Immunohistochemistry, Cell Movement, Cell Line, Tumor, Animals, Humans, Osteopontin, RNA Interference, RNA, Small Interfering, Glioblastoma, Cell Proliferation

Abstract

Osteopontin (OPN), a member of the SIBLING (Small Integrin-Binding LIgand N-linked Glycoprotein) family, is overexpressed in human glioblastoma. Higher levels of OPN expression correlate with increased tumor grade and enhanced migratory capacity of tumor cells. Based on these observations, we explored the possibility that knocking down OPN expression in glioblastoma cells could exert an anti-tumoral activity using an avian in vivo glioblastoma model that mimics closely human gliobastoma. Human U87-MG glioma cells transfected with specific anti-OPN small interfering RNAs (siRNAs) were grafted onto the chicken chorio-allantoic membrane (CAM). OPN-deficient U87-MG cells gave rise to tumors that were significantly smaller than tumors formed from untransfected cells (paired t-test, p0.05). Accordingly, the amount of proliferating cells in OPN-deficient tumors showed a six-fold reduction when compared to control tumors. However, OPN inhibition did not affect significantly tumor-associated angiogenesis. In vitro, OPN-silenced U87-MG and U373-MG cells showed decreased motility and migration. This is the first demonstration that OPN inhibition blocks glioma tumor growth, making this invasion-related protein an attractive target for glioma therapy.

Published

2009