268 results on '"Olivier Feron"'
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2. Supplementary Figures 1 - 4 from Antitumor Activity of 7-Aminocarboxycoumarin Derivatives, a New Class of Potent Inhibitors of Lactate Influx but Not Efflux
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Olivier Feron, Olivier Riant, Pierre Sonveaux, Caroline Bouzin, Emmanuel Seront, Olivier Schicke, and Nihed Draoui
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PDF file - 276KB, Supplementary Figure 1. Chemical structures of 7ACC, 3BP and AR-C155858. Supplementary Figure 2. Effects of 7ACC on FaDu cell viability. Supplementary Figure 3. Pimonidazole labelling of tumor sections from control and 7ACC2-treated mice. Supplementary Figure 4. Effects of 3BP on lactate uptake and titration of the effects of 7ACC by extracellular lactate.
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- 2023
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3. Supplementary Figures S1-S4 from Therapeutic Potential of Focal Adhesion Kinase Inhibition in Small Cell Lung Cancer
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Sebahat Ocak, Charles Pilette, Yves Sibille, Pierre P. Massion, Olivier Feron, Sébastien Dupasquier, Bruno Detry, Maha Zohra Ladjemi, Marylène Lecocq, and Frank Aboubakar Nana
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Supplementary Figure S1: Western blot densitometric quantifications. Supplementary Figure S2: FAK Inhibitor 14 (Inh14) and PF-562,271 (PF-271)'s effects on FAK expression/activity, cell proliferation, and apoptosis in NCI-H446 SCLC cell lines. Supplementary Figure S3: PF-573,228 (PF-228)'s effects on FAK expression/activity, cell proliferation, and apoptosis in NCI-H82 SCLC cell lines transduced with FAK shRNA. Supplementary Figure S4: phospho-Paxillin expression in NCI-H446 SCLC cell line where FAK has been inhibited with pharmacological and genetic methods.
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- 2023
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4. Data from Antitumor Activity of 7-Aminocarboxycoumarin Derivatives, a New Class of Potent Inhibitors of Lactate Influx but Not Efflux
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Olivier Feron, Olivier Riant, Pierre Sonveaux, Caroline Bouzin, Emmanuel Seront, Olivier Schicke, and Nihed Draoui
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High lactate concentration in tumors is associated with bad prognosis. Lactate is released by glycolytic cells in tumors and recaptured by oxidative cancer cells to feed the tricarboxylic acid (TCA) cycle after conversion into pyruvate. Monocarboxylate transporters (MCT) mediate these fluxes of proton-linked lactate and represent attractive targets to interrupt lactate shuttle and to inhibit tumor growth. Here, we investigated the properties of 7-aminocarboxycoumarins (7ACC) developed to selectively interfere with lactate fluxes in the lactate-rich tumor microenvironment. The pharmacologic properties of two compounds of this family, including their effects on lactate influx and efflux and antitumor activity, were investigated using human cancer cell lines and mouse xenograft models. Contrary to the reference MCT1 inhibitor AR-C155858, 7ACC unexpectedly inhibited lactate influx but not efflux in tumor cells expressing MCT1 and MCT4 transporters. 7ACC delayed the growth of cervix SiHa tumors, colorectal HCT116 tumors, and orthoptopic MCF-7 breast tumors. MCT target engagement was confirmed by the lack of activity of 7ACC on bladder UM-UC-3 carcinoma that does not express functional MCT. 7ACC also inhibited SiHa tumor relapse after treatment with cisplatin. Finally, we found that contrary to AR-C155858, 7ACC did not prevent the cell entry of the substrate-mimetic drug 3-bromopyruvate (3BP) through MCT1, and contributed to the inhibition of tumor relapse after 3BP treatment. In conclusion, our results indicate that 7ACC selectively affects a single part of the MCT symporter translocation cycle, leading to strict inhibition of lactate influx. This singular activity is associated with antitumor effects less prone to resistance and side effects. Mol Cancer Ther; 13(6); 1410–8. ©2014 AACR.
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- 2023
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5. Data from Therapeutic Potential of Focal Adhesion Kinase Inhibition in Small Cell Lung Cancer
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Sebahat Ocak, Charles Pilette, Yves Sibille, Pierre P. Massion, Olivier Feron, Sébastien Dupasquier, Bruno Detry, Maha Zohra Ladjemi, Marylène Lecocq, and Frank Aboubakar Nana
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Small cell lung cancer (SCLC) has a poor prognosis. Focal adhesion kinase (FAK) is a non–receptor tyrosine kinase regulating cell proliferation, survival, migration, and invasion, which is overexpressed and/or activated in several cancers, including SCLC. We wanted to determine whether FAK contributes to SCLC aggressive behavior. We first evaluated the effect of FAK small-molecule inhibitor PF-573,228 in NCI-H82, NCI-H146, NCI-H196, and NCI-H446 SCLC cell lines. PF-573,228 (0.1–5 μmol/L) inhibited FAK activity by decreasing phospho-FAK (Tyr397), without modifying total FAK expression. PF-573,228 decreased proliferation, decreased DNA synthesis, induced cell-cycle arrest in G2–M phases, and increased apoptosis in all cell lines. PF-573,228 also decreased motility in adherent cell lines. To make sure that these effects were not off-target, we then used a genetic method to inhibit FAK in NCI-H82 and NCI-H446, namely stable transduction with FAK shRNA and/or FAK-related nonkinase (FRNK), a splice variant lacking the N-terminal and kinase domains. Although FAK shRNA transduction decreased total and phospho-FAK (Tyr397) expression, it did not affect proliferation, DNA synthesis, or progression through cell cycle. However, restoration of FAK-targeting (FAT) domain (attached to focal adhesion complex where it inhibits pro-proliferative proteins such as Rac-1) by FRNK transduction inhibited proliferation, DNA synthesis, and induced apoptosis. Moreover, although FAK shRNA transduction increased active Rac1 level, FRNK reexpression in cells previously transduced with FAK shRNA decreased it. Therefore, FAK appears important in SCLC biology and targeting its kinase domain may have a therapeutic potential, while targeting its FAT domain should be avoided to prevent Rac1-mediated protumoral activity.
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- 2023
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6. Inhibition of basal and glucagon-induced hepatic glucose production by 991 and other pharmacological AMPK activators
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Manuel Johanns, Cyril Corbet, Roxane Jacobs, Melissa Drappier, Guido T. Bommer, Gaëtan Herinckx, Didier Vertommen, Nicolas Tajeddine, David Young, Joris Messens, Olivier Feron, Gregory R. Steinberg, Louis Hue, Mark H. Rider, UCL - SSS/DDUV/PHOS - Protein phosphorylation, UCL - SSS/DDUV/BCHM - Biochimie-Recherche métabolique, UCL - SSS/IREC - Institut de recherche expérimentale et clinique, Department of Bio-engineering Sciences, and Structural Biology Brussels
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Liver/metabolism ,Diabetes Mellitus, Type 2/drug therapy ,mice ,pyruvate tolerance test ,AMP-Activated Protein Kinases ,direct AMPK activators ,Biochemistry ,Pyruvic Acid/metabolism ,Mice ,Pyruvic Acid ,Glucose/metabolism ,Animals ,Lactic Acid ,Glucagon/metabolism ,AMP-Activated Protein Kinases/genetics ,Lactic Acid/metabolism ,Molecular Biology ,pyruvate transport ,glycerol phosphate dehydrogenase ,Gluconeogenesis ,Cell Biology ,Glucagon ,Glucose ,Diabetes Mellitus, Type 2 ,Liver - Abstract
Pharmacological AMPK activation represents an attractive approach for the treatment of type 2 diabetes (T2D). AMPK activation increases skeletal muscle glucose uptake, but there is controversy as to whether AMPK activation also inhibits hepatic glucose production (HGP) and pharmacological AMPK activators can have off-target effects that contribute to their anti-diabetic properties. The main aim was to investigate the effects of 991 and other direct AMPK activators on HGP and determine whether the observed effects were AMPK-dependent. In incubated hepatocytes, 991 substantially decreased gluconeogenesis from lactate, pyruvate and glycerol, but not from other substrates. Hepatocytes from AMPKβ1−/− mice had substantially reduced liver AMPK activity, yet the inhibition of glucose production by 991 persisted. Also, the glucose-lowering effect of 991 was still seen in AMPKβ1−/− mice subjected to an intraperitoneal pyruvate tolerance test. The AMPK-independent mechanism by which 991 treatment decreased gluconeogenesis could be explained by inhibition of mitochondrial pyruvate uptake and inhibition of mitochondrial sn-glycerol-3-phosphate dehydrogenase-2. However, 991 and new-generation direct small-molecule AMPK activators antagonized glucagon-induced gluconeogenesis in an AMPK-dependent manner. Our studies support the notion that direct pharmacological activation of hepatic AMPK as well as inhibition of pyruvate uptake could be an option for the treatment of T2D-linked hyperglycemia.
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- 2022
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7. Supplementary Data from Identification of Cyclooxygenase-2 as a Major Actor of the Transcriptomic Adaptation of Endothelial and Tumor Cells to Cyclic Hypoxia: Effect on Angiogenesis and Metastases
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Olivier Feron, Philippe Martinive, Romain Boidot, and Géraldine Daneau
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Supplementary Data from Identification of Cyclooxygenase-2 as a Major Actor of the Transcriptomic Adaptation of Endothelial and Tumor Cells to Cyclic Hypoxia: Effect on Angiogenesis and Metastases
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- 2023
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8. Supplementary Data from Cleaved Caspase-3 Transcriptionally Regulates Angiogenesis-Promoting Chemotherapy Resistance
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Romain Boidot, Frédérique Végran, Laurent Arnould, Suzie Chen, Olivier Feron, Lionel Apetoh, Bertrand Collin, François Ghiringhelli, Alexandra Oudot, Valentin Derangère, Anaïs Lagrange, Etienne Viltard, Magalie Dosset, Françoise Beltjens, Sandy Chevrier, and Antoine Bernard
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This file contains all supplementary figures with their legends, supplementary tables and supplementary methods
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- 2023
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9. Data from Cleaved Caspase-3 Transcriptionally Regulates Angiogenesis-Promoting Chemotherapy Resistance
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Romain Boidot, Frédérique Végran, Laurent Arnould, Suzie Chen, Olivier Feron, Lionel Apetoh, Bertrand Collin, François Ghiringhelli, Alexandra Oudot, Valentin Derangère, Anaïs Lagrange, Etienne Viltard, Magalie Dosset, Françoise Beltjens, Sandy Chevrier, and Antoine Bernard
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Caspases are well known for their role in apoptosis. Recently, nonapoptotic roles of caspases have been identified, however, these noncanonical roles are not well documented and the mechanisms involved are not fully understood. Here, we studied the role of cleaved caspase-3 using human- and mouse-proficient caspase-3 cancer cell lines and human-deficient caspase-3 cancer cells. Cleaved caspase-3 functioned as a transcription factor and directly bound to DNA. A DNA-binding domain was identified in the small subunit of caspase-3 and an active conformation was essential for caspase-3 transcriptional activity. Caspase-3 DNA binding enhanced angiogenesis by upregulating the expression of proangiogenic genes and by activating pathways that promoted endothelial cell activation. Some proapoptotic genes were downregulated in caspase-3–proficient cells. Inhibiting caspase-3 increased the efficacy of chemotherapy and decreased spontaneous tumor development. These data highlight a novel nonapoptotic role of caspase-3 and suggest that cleaved caspase-3 could be a new therapeutic target in cancer.Significance:These findings report a noncanonical function of caspase-3 by demonstrating its ability to transcriptionally regulate the VEGFR pathway.
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- 2023
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10. Supplementary Materials and Methods from Regulation of Monocarboxylate Transporter MCT1 Expression by p53 Mediates Inward and Outward Lactate Fluxes in Tumors
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Olivier Feron, Sarab Lizard-Nacol, Pierre Sonveaux, Chantal Dessy, Aude Le Breton, Aline Meulle, Frédérique Végran, and Romain Boidot
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PDF file - 36K
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- 2023
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11. Supplementary Figure 1 from Lactate Influx through the Endothelial Cell Monocarboxylate Transporter MCT1 Supports an NF-κB/IL-8 Pathway that Drives Tumor Angiogenesis
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Olivier Feron, Pierre Sonveaux, Carine Michiels, Romain Boidot, and Frédérique Végran
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Supplementary Figure 1 from Lactate Influx through the Endothelial Cell Monocarboxylate Transporter MCT1 Supports an NF-κB/IL-8 Pathway that Drives Tumor Angiogenesis
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- 2023
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12. Supplementary Methods from Lactate Influx through the Endothelial Cell Monocarboxylate Transporter MCT1 Supports an NF-κB/IL-8 Pathway that Drives Tumor Angiogenesis
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Olivier Feron, Pierre Sonveaux, Carine Michiels, Romain Boidot, and Frédérique Végran
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Supplementary Methods from Lactate Influx through the Endothelial Cell Monocarboxylate Transporter MCT1 Supports an NF-κB/IL-8 Pathway that Drives Tumor Angiogenesis
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- 2023
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13. Supplementary Figure 1 from Regulation of Monocarboxylate Transporter MCT1 Expression by p53 Mediates Inward and Outward Lactate Fluxes in Tumors
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Olivier Feron, Sarab Lizard-Nacol, Pierre Sonveaux, Chantal Dessy, Aude Le Breton, Aline Meulle, Frédérique Végran, and Romain Boidot
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PDF file - 27K
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- 2023
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14. Supplementary Methods, Tables 1-2 from Preconditioned Endothelial Progenitor Cells Reduce Formation of Melanoma Metastases through SPARC-Driven Cell–Cell Interactions and Endocytosis
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Olivier Feron, Christian Kupatt, Antonis K. Hatzopoulos, Martine Raes, Marc Dieu, Marie Grandjean, Caroline Bouzin, and Florence Defresne
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Supplementary Methods, Tables 1-2 from Preconditioned Endothelial Progenitor Cells Reduce Formation of Melanoma Metastases through SPARC-Driven Cell–Cell Interactions and Endocytosis
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- 2023
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15. Editorial: Targeting glucose metabolism in cancer immunity and immunotherapy
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Olivier Feron, Chih-Hao Chang, and Frédérique Végran
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Immunology ,Immunology and Allergy - Published
- 2023
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16. Ex vivopurging of cancer cells from ovarian tissue using photodynamic therapy: a novel strategy to restore fertility in leukemia patients
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Saeid Moghassemi, Arezoo Dadashzadeh, Alessandra Camboni, Olivier Feron, Ricardo Bentes Azevedo, and Christiani A Amorim
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General Medicine - Abstract
STUDY QUESTIONIs it possible to purge leukemia cells from ovarian tissue (OT) fragments before transplantation?SUMMARY ANSWEROur photodynamic therapy (PDT) approach has been shown to efficiently destroy leukemia cells from tumor-infiltration mimicking models (TIMs), indicating the feasibility of this technique to purge OT samples.WHAT IS KNOWN ALREADYAutotransplantation of cryopreserved OT is the most suitable option to preserve fertility for prepubertal girls and women who require immediate cancer treatment. Up until now, more than 200 live births have already been reported after OT cryopreservation and transplantation. Leukemia is the 12th most common cancer in Europe among prepubertal girls and women of reproductive age and in 2020, the estimated number of new leukemia cases was higher than 33 000 in girls between 0 and 19 years old. Unfortunately, once their health has been restored, autotransplantation of cryopreserved OT for leukemia patients is not advised due to the high risk of transferring malignant cells back to the patient leading to leukemia recurrence.STUDY DESIGN, SIZE, DURATIONTo safely transplant the OT from leukemia patients and restore their fertility, our goal was to develop a PDT strategy to eliminate leukemia ex vivo. To this end, we designed OR141-loaded niosomes (ORN) to create the most effective formulation for ex vivo purging of acute myelogenous leukemia cells from OT fragments (n = 4). Moreover, to ensure that such treatments are not harmful to follicle survival and development so they can be deemed a potential fertility restoration alternative, the effect of the ORN-based PDT purging procedure on follicles was assessed after xenografting the photodynamic-treated OT in SCID mice (n = 5). The work was carried out between September 2020 and April 2022 at the Catholic University of Louvain.PARTICIPANTS/MATERIALS, SETTING, METHODSAfter establishing the best ORN formulation, our PDT approach was used to eradicate HL60 cells from ex vivo TIMs prepared by microinjection of a cancer cell suspension into OT fragments. The purging efficiency was analyzed by droplet digital polymerase chain reaction and immunohistochemical analyses. Additionally, we evaluated the effect of ORN-based PDT on follicle density, survival and development, and tissue quality in terms of fibrotic areas and vascularization after 7-day xenotransplantation to immunodeficient mice.MAIN RESULTS AND THE ROLE OF CHANCEThe ex vivo purging of TIMs demonstrated that our PDT strategy could selectively eradicate the malignant cells from tissue fragments without affecting OT normal cells, as evidenced by PCR and immunohistochemical analysis. Regarding the effect of our PDT approach on follicle population and OT quality, our results after xenotransplantation revealed no significant difference between the follicle density of control (non-treated, grafted OT) and PDT-treated groups (2.38 ± 0.63 and 3.21 ± 1.94 morphologically normal follicles/mm2, respectively). In addition, our findings showed that the control and PDT-treated OT could be equally vascularized (7.65 ± 1.45% and 9.89 ± 2.21%, respectively). Similarly, the proportions of fibrotic area did not differ between the control (15.96 ± 5.94%) and PDT-treated groups (13.32 ± 3.05%).LARGE SCALE DATAN/A.LIMITATIONS, REASONS FOR CAUTIONThis study did not use OT fragments from leukemia patients, but TIMs created after injection of HL60 cells into OT from healthy patients. Therefore, while the results are promising, whether our PDT approach will be equally successful in eliminating malignant cells from leukemia patients remains to be assessed.WIDER IMPLICATIONS OF THE FINDINGSOur results showed that the purging procedure causes no significant impairment effect on follicle development and tissue quality, suggesting that our novel PDT procedure could be a promising strategy to destroy leukemia cells in fragments of OT, allowing safe transplantation in cancer survivors.STUDY FUNDING/COMPETING INTEREST(S)This study was supported by grants from the Fonds National de la Recherche Scientifique de Belgique (FNRS-PDR Convention grant number T.0004.20 awarded to C.A.A.); Fondation Louvain (awarded to C.A.A.; a Ph.D. scholarship awarded to S.M., as part of a legacy from Mr Frans Heyes, and a Ph.D. scholarship awarded to A.D. as part of a legacy from Mrs. Ilse Schirmer); and Foundation Against Cancer (grant number 2018-042 awarded to A.C.). The authors declare no competing interests.
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- 2023
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17. Editorial: Insights in pharmacology of anti-cancer drugs: 2021
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Patricia Sancho and Olivier Feron
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Pharmacology ,Pharmacology (medical) - Published
- 2022
18. The impact of macrophages on endothelial cells is potentiated by cycling hypoxia: Enhanced tumor inflammation and metastasis
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Victor Delprat, Camille Huart, Olivier Feron, Fabrice Soncin, and Carine Michiels
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Cancer Research ,Oncology - Abstract
Cycling hypoxia (cyH), neo-angiogenesis, and tumor-associated macrophages are key features of the tumor microenvironment. In this study, we demonstrate that cyH potentiates the induction by unpolarized and M1-like macrophages of endothelial inflammatory phenotype and adhesiveness for monocytes and cancer cells. This process triggers a positive feedback loop sustaining tumor inflammation. This work opens the door for innovative therapeutic strategies to treat tumor inflammation and metastasis.In cancers, the interaction between macrophages and endothelial cells (ECs) regulates tumor inflammation and metastasis. These cells are both affected by cycling hypoxia (cyH), also called intermittent hypoxia, a feature of the tumor microenvironment. cyH is also known to favor tumor inflammation and metastasis. Nonetheless, the potential impact of cyH on the dialog between macrophages and ECs is still unknown. In this work, the effects of unpolarized, M1-like, and M2-like macrophages exposed to normoxia, chronic hypoxia (chH), and cyH on endothelial adhesion molecule expression, pro-inflammatory gene expression, and EC adhesiveness for monocytes and cancer cells were investigated. cyH increased the ability of unpolarized and M1-like macrophages to induce EC inflammation and to increase the expression of the EC endothelial adhesion molecule ICAM1, respectively. Unpolarized, M1-like, and M2-like macrophages were all able to promote EC adhesive properties toward cancer cells. Furthermore, the ability of macrophages (mostly M1-like) to shift EC phenotype toward one allowing cancer cell and monocyte adhesion onto ECs was potentiated by cyH. These effects were specific to cyH because they were not observed with chH. Together, these results show that cyH amplifies the effects of macrophages on ECs, which may promote tumor inflammation and metastasis.
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- 2022
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19. Discovery of Mitochondrial Complex I Inhibitors as Anticancer and Radiosensitizer Drugs Based on Compensatory Stimulation of Lactate Release
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Junjie Lan, Octavia Cadassou, Cyril Corbet, Olivier Riant, Olivier Feron, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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Cancer Research ,Oncology ,cancer ,L-lactate ,glycolysis ,spheroid ,respiration ,mitochondria ,complex I ,oxygen consumption rate ,radiotherapy ,reoxygenation - Abstract
Cancer cells may stimulate glycolytic flux when O2 becomes insufficient. Increase in L-lactate release therefore appears as an escape mechanism to drugs targeting mitochondrial respiration but also represents a response that may be exploited to screen for compounds blocking either mitochondrial carriers of oxidizable substrates or the electron transport chain. Here, we developed a screening procedure based on the capacity of cancer cells to release L-lactate to gain insights on the development of mitochondrial complex I inhibitors. For this purpose, we synthesized derivatives of carboxyamidotriazole, a compound previously described as a potential OXPHOS inhibitor. Two series of derivatives were generated by cycloaddition between benzylazide and either cyanoacetamides or alkynes. A primary assay measuring L-lactate release as a compensatory mechanism upon OXPHOS inhibition led us to identify 15 hits among 28 derivatives. A secondary assay measuring O2 consumption in permeabilized cancer cells confirmed that 12 compounds among the hits exhibited reversible complex I inhibitory activity. Anticancer effects of a short list of 5 compounds identified to induce more L-lactate release than reference compound were then evaluated on cancer cells and tumor-mimicking 3D spheroids. Human and mouse cancer cell monolayers exhibiting high level of respiration in basal conditions were up to 3-fold more sensitive than less oxidative cancer cells. 3D tumor spheroids further revealed potency differences between selected compounds in terms of cytotoxicity but also radiosensitizing activity resulting from local reoxygenation. In conclusion, this study documents the feasibility to efficiently screen in 96-well plate format for mitochondrial complex I inhibitors based on the capacity of drug candidates to induce L-lactate release.
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- 2022
20. Photodynamic therapy using OR141-loaded nanovesicles for eradication of leukemic cells from ovarian tissue
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Saeid Moghassemi, Arezoo Dadashzadeh, Alessandra Camboni, Olivier Feron, Ricardo Bentes Azevedo, Christiani A. Amorim, and UCL - SSS/IREC/REPR - Pôle de Recherche en Physiopathologie de la Reproduction
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Leukemia ,Nanoparticle ,Oncology ,Ovary ,Biophysics ,Pharmacology (medical) ,Dermatology ,Fertility preservation ,Photodynamic therapy - Abstract
In 2020, the estimated number of new leukemia cases was higher than 30,000 in girls between 0 and 19 years old. Due to cancer treatment, some of these patients may lose both endocrine and reproductive functions. Transplantation of cryopreserved ovarian tissue is not advised after cancer remission because it has a high risk of reintroducing malignant cells in the patient, potentially leading to leukemia recurrence. To safely transplant the ovarian tissue from these patients and restore their fertility, our goal was to develop a photodynamic therapy (PDT) strategy to eliminate leukemia ex vivo. To this end, we designed, optimized, and characterized OR141-loaded niosomes (ORN) to develop the most effective formulation for ex vivo purging ovarian fragments from chronic myelogenous leukemia cells. After establishing the best ORN formulation, the PDT efficiency of optimized ORN was determined for human ovarian stromal cells and acute myeloid leukemia cell line (HL60). Blank niosomes treatment on ovarian stromal cells causes no significant toxicity, showing that the composition of the nanoparticle is not toxic. On the other hand, the in vitro studies showed that while ovarian stromal cells were still viable (82.04 ± 2.79%) after the treatment by 0.5 µM ORN, the same treatment yielded 95.43 ± 3.89% toxicity and cell death in the cancer cells. In conclusion, our results showed that our novel PDT procedure could be a promising strategy to destroy leukemia cells in ovarian tissue fragments allowing safe transplantation in cancer survivors.
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- 2022
21. Obesity and triple‐negative‐breast‐cancer: Is apelin a new key target?
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Estelle Bastien, Olivier Feron, Natacha Dehaen, Caroline Bouzin, Nathalie M. Delzenne, Florian Gourgue, Valéry Payen, Matthias Van Hul, Bernard Gallez, Baptiste Leroy, Bénédicte F. Jordan, Nicolas Joudiou, Didier Vertommen, Patrice D. Cani, Lionel Mignion, UCL - SSS/DDUV/PHOS - Protein phosphorylation, UCL - SSS/IREC - Institut de recherche expérimentale et clinique, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, UCL - SSS/IREC/PEDI - Pôle de Pédiatrie, and UCL - SSS/LDRI - Louvain Drug Research Institute
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0301 basic medicine ,Oncology ,medicine.medical_specialty ,Subcutaneous Fat ,Adipokine ,Triple Negative Breast Neoplasms ,Context (language use) ,Diet, High-Fat ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Breast cancer ,Adipokines ,Internal medicine ,medicine ,Animals ,Obesity ,RNA, Messenger ,high-fat ,Neoplasm Metastasis ,Triple-negative breast cancer ,Cell Proliferation ,high‐fat ,Mice, Inbred BALB C ,Brain Neoplasms ,business.industry ,Antagonist ,fat mass ,Original Articles ,Cell Biology ,medicine.disease ,obesity-cancer link ,Apelin ,Mice, Inbred C57BL ,triple‐negative breast cancer ,030104 developmental biology ,Adipose Tissue ,apelin ,obesity–cancer link ,030220 oncology & carcinogenesis ,triple-negative breast cancer ,Molecular Medicine ,Female ,Original Article ,Subcutaneous adipose tissue ,business - Abstract
Epidemiological studies have shown that obese subjects have an increased risk of developing triple‐negative breast cancer (TNBC) and an overall reduced survival. However, the relation between obesity and TNBC remains difficult to understand. We hypothesize that apelin, an adipokine whose levels are increased in obesity, could be a major factor contributing to both tumour growth and metastatization in TNBC obese patients. We observed that development of obesity under high‐fat diet in TNBC tumour‐bearing mice significantly increased tumour growth. By showing no effect of high‐fat diet in obesity‐resistant mice, we demonstrated the necessity to develop obesity‐related disorders to increase tumour growth. Apelin mRNA expression was also increased in the subcutaneous adipose tissue and tumours of obese mice. We further highlighted that the reproduction of obesity‐related levels of apelin in lean mice led to an increased TNBC growth and brain metastases formation. Finally, injections of the apelinergic antagonist F13A to obese mice significantly reduced TNBC growth, suggesting that apelinergic system interference could be an interesting therapeutic strategy in the context of obesity and TNBC.
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- 2020
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22. Editorial: Bone Metastases
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Maria Teresa, Valenti, Monica, Mottes, Luca, Dalle Carbonare, and Olivier, Feron
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Editorial ,osteoclasts ,Oncology ,endosteal niche ,osteoblasts ,metastatic niche ,bone - Published
- 2021
23. Two isoprenylated flavonoids from Dorstenia psilurus activate AMPK, stimulate glucose uptake, inhibit glucose production and lower glycemia
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Didier Vertommen, Manuel Johanns, Gregory R. Steinberg, Cyril Corbet, Mark H. Rider, Marie-France Herent, Olivier Feron, Claire Beaufay, Vincent Stroobant, Aphrodite T. Choumessi, Roxane Jacobs, Joëlle Quetin-Leclercq, Gaëtan Herinckx, UCL - SSS/DDUV/PHOS - Protein phosphorylation, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, and UCL - SSS/LDRI - Louvain Drug Research Institute
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Blood Glucose ,Male ,AMPK ,Cancer cell viability ,Glucose uptake ,Mitochondrion ,Muscle glucose uptake ,Moraceae ,Biochemistry ,Flavones ,Mice ,03 medical and health sciences ,0302 clinical medicine ,AMP-Activated Protein Kinase Kinases ,Animals ,Rats, Wistar ,Protein kinase A ,Molecular Biology ,Incubation ,030304 developmental biology ,Flavonoids ,chemistry.chemical_classification ,0303 health sciences ,Cell-Free System ,biology ,Chemistry ,Hepatic glucose production ,Succinate dehydrogenase ,Gluconeogenesis ,Cell Biology ,Fibroblasts ,Hypoglycemia ,Rats ,Enzyme Activation ,Glucose ,030220 oncology & carcinogenesis ,biology.protein ,Protein Kinases ,Intracellular - Abstract
Root extracts of a Cameroon medicinal plant, Dorstenia psilurus, were purified by screening for AMP-activated protein kinase (AMPK) activation in incubated mouse embryo fibroblasts (MEFs). Two isoprenylated flavones that activated AMPK were isolated. Compound 1 was identified as artelasticin by high-resolution electrospray ionization mass spectrometry and 2D-NMR while its structural isomer, compound 2, was isolated for the first time and differed only by the position of one double bond on one isoprenyl substituent. Treatment of MEFs with purified compound 1 or compound 2 led to rapid and robust AMPK activation at low micromolar concentrations and increased the intracellular AMP:ATP ratio. In oxygen consumption experiments on isolated rat liver mitochondria, compound 1 and compound 2 inhibited complex II of the electron transport chain and in freeze–thawed mitochondria succinate dehydrogenase was inhibited. In incubated rat skeletal muscles, both compounds activated AMPK and stimulated glucose uptake. Moreover, these effects were lost in muscles pre-incubated with AMPK inhibitor SBI-0206965, suggesting AMPK dependency. Incubation of mouse hepatocytes with compound 1 or compound 2 led to AMPK activation, but glucose production was decreased in hepatocytes from both wild-type and AMPKβ1−/− mice, suggesting that this effect was not AMPK-dependent. However, when administered intraperitoneally to high-fat diet-induced insulin-resistant mice, compound 1 and compound 2 had blood glucose-lowering effects. In addition, compound 1 and compound 2 reduced the viability of several human cancer cells in culture. The flavonoids we have identified could be a starting point for the development of new drugs to treat type 2 diabetes.
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- 2019
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24. Cleaved Caspase-3 Transcriptionally Regulates Angiogenesis-Promoting Chemotherapy Resistance
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Sandy Chevrier, Etienne Viltard, Olivier Feron, Lionel Apetoh, Suzie Chen, Anaïs Lagrange, Antoine Bernard, Alexandra Oudot, Laurent Arnould, Frédérique Végran, Françoise Beltjens, Romain Boidot, Bertrand Collin, François Ghiringhelli, Valentin Derangère, Magalie Dosset, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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Vascular Endothelial Growth Factor A ,0301 basic medicine ,Cancer Research ,Angiogenesis ,Apoptosis ,Mice, Transgenic ,Caspase 3 ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Cell Line, Tumor ,Neoplasms ,Antineoplastic Combined Chemotherapy Protocols ,Animals ,Humans ,Transcription factor ,Caspase ,Regulation of gene expression ,Neovascularization, Pathologic ,biology ,Chemistry ,Cell biology ,Gene Expression Regulation, Neoplastic ,Endothelial stem cell ,Disease Models, Animal ,Receptors, Vascular Endothelial Growth Factor ,030104 developmental biology ,Oncology ,Drug Resistance, Neoplasm ,030220 oncology & carcinogenesis ,Cancer cell ,biology.protein ,Signal Transduction ,Transcription Factors - Abstract
Caspases are well known for their role in apoptosis. Recently, nonapoptotic roles of caspases have been identified, however, these noncanonical roles are not well documented and the mechanisms involved are not fully understood. Here, we studied the role of cleaved caspase-3 using human- and mouse-proficient caspase-3 cancer cell lines and human-deficient caspase-3 cancer cells. Cleaved caspase-3 functioned as a transcription factor and directly bound to DNA. A DNA-binding domain was identified in the small subunit of caspase-3 and an active conformation was essential for caspase-3 transcriptional activity. Caspase-3 DNA binding enhanced angiogenesis by upregulating the expression of proangiogenic genes and by activating pathways that promoted endothelial cell activation. Some proapoptotic genes were downregulated in caspase-3–proficient cells. Inhibiting caspase-3 increased the efficacy of chemotherapy and decreased spontaneous tumor development. These data highlight a novel nonapoptotic role of caspase-3 and suggest that cleaved caspase-3 could be a new therapeutic target in cancer. Significance: These findings report a noncanonical function of caspase-3 by demonstrating its ability to transcriptionally regulate the VEGFR pathway.
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- 2019
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25. Dealing with saturated and unsaturated fatty acid metabolism for anticancer therapy
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Emeline Dierge, Olivier Feron, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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0301 basic medicine ,Medicine (miscellaneous) ,Antineoplastic Agents ,Apoptosis ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Neoplasms ,Animals ,Humans ,chemistry.chemical_classification ,030109 nutrition & dietetics ,Nutrition and Dietetics ,Chemistry ,Fatty Acids ,food and beverages ,Neoplasms therapy ,030208 emergency & critical care medicine ,Metabolism ,Dietary Fats ,Biochemistry ,Cancer cell ,Saturated fatty acid ,Eicosanoids ,lipids (amino acids, peptides, and proteins) ,Unsaturated fatty acid metabolism ,Polyunsaturated fatty acid - Abstract
Although saturated fatty acid (FA) (SFA) and monounsaturated FA (MUFA) are synthesized in cancer cells from acetyl-CoA, polyunsaturated FAs (PUFAs) are necessarily obtained from diet. Depending on concentrations and metabolism, these different FAs may support tumor proliferation but also exert growth inhibitory effects. The mutual interplay between them also requires to integrate the FA oxidation component that may be concomitant with FA synthesis is cancer cells. New molecular mechanisms driving FA synthesis, lipotoxicity and anti-inflammatory activity of eicosanoids in mouse and human cancers were recently elicited. To block or take advantage of the above represent attractive perspectives of treatments to fight cancer progression. The various enzymatic reactions leading to SFA synthesis represent as many targets to prevent tumor growth. Ironically excess SFAs are per-se toxic for cancer cells and the introduction of a double bound to form MUFA is actually limiting lipotoxicity in cancer cells. Blocking stearoyl-CoA desaturase therefore represents another attractive modality. By contrast, dietary PUFAs may exert direct cytotoxic effects by promoting apoptosis or by generating anti-inflammatory eicosanoids. Altogether, these data point out the intricate relationship between SFA, MUFA and PUFA at the heart of the metabolism of proliferating cancer cells.
- Published
- 2019
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26. Reprogramming of Energy Metabolism: Increased Expression and Roles of Pyruvate Carboxylase in Papillary Thyroid Cancer
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Guy Andry, Denis Larsimont, Carine Maenhaut, Olivier Feron, Selim-Alex Spinette, Ruddy Wattiez, Aurélie Strickaert, Cyril Corbet, Ligia Craciun, Geneviève Dom, Jacques Emile Dumont, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, and UCL - SSS/IREC - Institut de recherche expérimentale et clinique
- Subjects
Proteomics ,Stromal cell ,endocrine system diseases ,Endocrinology, Diabetes and Metabolism ,030209 endocrinology & metabolism ,pyruvate carboxylase ,Papillary thyroid cancer ,03 medical and health sciences ,Oxygen Consumption ,0302 clinical medicine ,Endocrinology ,Tandem Mass Spectrometry ,Cell Line, Tumor ,energy metabolism ,medicine ,Humans ,tumor microenvironment ,papillary thyroid cancer ,Reverse Warburg effect ,Thyroid Neoplasms ,TCA cycle ,Thyroid cancer ,Cell Proliferation ,Pyruvate Carboxylase ,reverse Warburg effect ,Chemistry ,CAFs ,Cancer ,Sciences bio-médicales et agricoles ,medicine.disease ,Warburg effect ,Pyruvate carboxylase ,Citric acid cycle ,anaplerosis ,Thyroid Cancer, Papillary ,030220 oncology & carcinogenesis ,Cancer research ,Stromal Cells ,heterogeneity ,Energy Metabolism - Abstract
Background: Energy metabolism is described to be deregulated in cancer, and the Warburg effect is considered to be a major hallmark. Recently, cellular heterogeneity in tumors and the tumor microenvironment has been recognized to play an important role in several metabolic pathways in cancer. However, its contribution to papillary thyroid cancer (PTC) development and metabolism is still poorly understood. Methods: A proteomic analysis of five PTC was performed, and the cellular distribution of several upregulated metabolic proteins was investigated in the cancerous and stromal cells of these tumors. Results: Tandem mass spectrometry analysis revealed the upregulation of many metabolism-related proteins, among them pyruvate carboxylase (PC). PC knockdown in thyroid cell lines alters their proliferative and motility capacities, and measurements of oxygen consumption rates show that this enzyme is involved in the replenishment of the tricarboxylic acid cycle. Immunostainings of several upregulated metabolic proteins show that thyroid cancer cells have an increased mitochondrial oxidative metabolism compared to stromal cells. Conclusions: PTC has a very active tricarboxylic acid cycle, continuously replenished by a PC-mediated anaplerosis. This is specifically observed in the tumor cells., SCOPUS: ar.j, info:eu-repo/semantics/published
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- 2019
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27. Antibody-functionalized gold nanoparticles as tumor-targeting radiosensitizers for proton therapy
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Sha Li, Sandra Bouchy, Carine Michiels, Bernard Gallez, Olivier Feron, Stéphane Lucas, Philippe Martinive, Anne-Catherine Heuskin, Riccardo Marega, Ornella Fichera, Sébastien Penninckx, UCL - SSS/IREC - Institut de recherche expérimentale et clinique, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, and UCL - SSS/LDRI-Louvain Drug Research Institute
- Subjects
Radiation-Sensitizing Agents ,Cetuximab ,Metal Nanoparticles ,Medicine (miscellaneous) ,02 engineering and technology ,Proton Therapy ,General Materials Science ,Microscopy ,0303 health sciences ,Tumor ,biology ,Chemistry ,Radiation-Sensitizing Agents/chemistry ,Metal Nanoparticles/chemistry ,021001 nanoscience & nanotechnology ,Gold/chemistry ,Cell killing ,Colloidal gold ,Antibody ,0210 nano-technology ,A431 cells ,radiosentizing effects ,medicine.drug ,EGFR ,Biomedical Engineering ,Bioengineering ,Development ,Conjugated system ,Electron ,Antibodies ,Cell Line ,Proton Therapy/methods ,03 medical and health sciences ,Microscopy, Electron, Transmission ,Cell Line, Tumor ,medicine ,Transmission ,Humans ,Clonogenic assay ,030304 developmental biology ,protontherapy ,Cetuximab/chemistry ,nanoparticle uptake ,gold nanoparticles ,Cancer cell ,biology.protein ,Biophysics ,Gold ,Antibodies/chemistry - Abstract
AIM: This study aimed at developing antibody-functionalized gold nanoparticles (AuNPs) to selectively target cancer cells and probing their potential radiosensitizing effects under proton irradiation.MATERIALS & METHODS: AuNPs were conjugated with cetuximab (Ctxb-AuNPs). Ctxb-AuNP uptake was evaluated by transmission electron microscopy and atomic absorption spectroscopy. Radioenhancing effect was assessed using conventional clonogenic assay.RESULTS & CONCLUSION: Ctxb-AuNPs specifically bound to and accumulated in EGFR-overexpressing A431 cells, compared with EGFR-negative MDA-MB-453 cells. Ctxb-AuNPs enhanced the effect of proton irradiation in A431 cells but not in MDA-MB-453 cells. These data indicate, for the first time, that combining enhanced uptake by specific targeting and radioenhancing effect, using conjugated AuNPs, is a promising strategy to increase cell killing by protontherapy.
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- 2019
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28. PO-1927 Disulfiram radiosensitizes hypoxic human colorectal cancer through inhibition of PHGDH
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Thierry Gevaert, Hui Wang, Heng Jiang, M. De Ridder, S. de Mey, Kalun Law, Inès Dufait, Olivier Feron, Cyril Corbet, Hugo Vandenplas, and M. Van De Gucht
- Subjects
Oncology ,business.industry ,Colorectal cancer ,Disulfiram ,Cancer research ,medicine ,Radiology, Nuclear Medicine and imaging ,Hematology ,Phosphoglycerate dehydrogenase ,business ,medicine.disease ,medicine.drug - Published
- 2021
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29. Cancer diets for cancer patients: Lessons from mouse studies and new insights from the study of fatty acid metabolism in tumors
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Olivier Feron, Emeline Dierge, and Yvan Larondelle
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0301 basic medicine ,medicine.medical_treatment ,Biochemistry ,03 medical and health sciences ,chemistry.chemical_compound ,Diet, Carbohydrate-Restricted ,Lipid droplet ,Neoplasms ,medicine ,Diet, Protein-Restricted ,Tumor Microenvironment ,Animals ,Humans ,chemistry.chemical_classification ,Tumor microenvironment ,030102 biochemistry & molecular biology ,Fatty acid metabolism ,business.industry ,Fatty Acids ,Cancer ,Lipid metabolism ,General Medicine ,medicine.disease ,Lipid Metabolism ,030104 developmental biology ,chemistry ,Cancer cell ,Cancer research ,business ,Ketogenic diet ,Polyunsaturated fatty acid - Abstract
Specific diets for cancer patients have the potential to offer an adjuvant modality to conventional anticancer therapy. If the concept of starving cancer cells from nutrients to inhibit tumor growth is quite simple, the translation into the clinics is not straightforward. Several diets have been described including the Calorie-restricted diet based on a reduction in carbohydrate intake and the Ketogenic diet wherein the low carbohydrate content is compensated by a high fat intake. As for other diets that deviate from normal composition only by one or two amino acids, these diets most often revealed a reduction in tumor growth in mice, in particular when associated with chemo- or radiotherapy. By contrast, in cancer patients, the interest of these diets is almost exclusively supported by case reports precluding any conclusions on their real capacity to influence disease outcome. In parallel, the field of tumor lipid metabolism has emerged in the last decade offering a better understanding of how fatty acids are captured, synthesized or stored as lipid droplets in cancers. Fatty acids participate to cancer cell survival in the hypoxic and acidic tumor microenvironment and also support proliferation and invasiveness. Interestingly, while such addiction for fatty acids may account for cancer progression associated with high fat diet, it could also represent an Achilles heel for tumors. In particular n-3 polyunsaturated fatty acids represent a class of lipids that can exert potent cytotoxic effects in tumors and therefore represent an attractive diet supplementation to improve cancer patient outcomes.
- Published
- 2020
30. The many metabolic sources of acetyl-CoA to support histone acetylation and influence cancer progression
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Olivier Feron and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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0301 basic medicine ,Lung Neoplasms ,Ubiquitin-Protein Ligases ,Glycogenolysis ,Mice, Nude ,Transfection ,Histones ,03 medical and health sciences ,chemistry.chemical_compound ,Mice ,0302 clinical medicine ,Carcinoma, Non-Small-Cell Lung ,Nucleosome ,Animals ,Humans ,Histone octamer ,Transcription factor ,Letter to the Editor ,Histone Acetyltransferases ,Cell Nucleus ,Mice, Knockout ,biology ,Chemistry ,Glycogen Phosphorylase ,Acetylation ,General Medicine ,Carbon ,Chromatin ,Cell biology ,Editorial Commentary ,030104 developmental biology ,Histone ,HEK293 Cells ,A549 Cells ,030220 oncology & carcinogenesis ,biology.protein ,DNA ,Glycogen - Abstract
The fundamental unit of chromatin is the nucleosome which is composed of a histone octamer and the DNA that wraps around it. Histones are globular proteins subject to various reversible covalent modifications that primarily occur on their flexible N-terminal ends (the so-called tail). Histone acetylation is one of these major alterations that may influence the chromatin conformation and consecutively influence gene expression (1). Histone acetylation is usually associated with an increase in transcriptional activity. Indeed, since acetylation occurs on positively charged lysines residues, the addition of an acetyl group on these residues changes the overall charge of the histone tail thereby leading to weaker binding of the nucleosomal components (2). As a direct consequence of histone acetylation, DNA becomes more accessible to transcription factors. Enzymes named histone acetyltransferases (HATs) catalyzed this mode of post-translational modifications (3). Other enzymes termed histone deacetylases (HDACs) are involved in the reverse process of histone deacetylation that restores the ionic interactions between positively charged histones and negatively charged DNA, thereby yielding a more compact chromatin structure (making it harder for transcription factors to bind to the DNA) (2,3).
- Published
- 2020
31. Ring the Alarm! Electricity Markets, Renewables, and the Pandemic
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David Benatia, Olivier FERON, and Clemence Alasseur
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Marginal cost ,History ,2019-20 coronavirus outbreak ,Polymers and Plastics ,business.industry ,Economic policy ,Energy transition ,Industrial and Manufacturing Engineering ,Renewable energy ,Pandemic ,Production (economics) ,Revenue ,Electricity ,Business and International Management ,business - Abstract
The pandemic's impacts on European electricity markets have been enormous, especially in countries with abundant near-zero marginal cost of production like France. This article provides an in-depth quantitative study of the impacts of the crisis on the French electricity sector. During the lockdown episode, France has experienced unparalleled demand reductions (-11.5%) and energy price falls (-40%) resulting in revenue losses of 1.2 billion € (-45%) for market participants. This paper argues that the observed market outcomes during the crisis are somehow indicative of outcomes in a future with abundant renewable power, where prices will fall in a more sustainable way.
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- 2020
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32. Potential of memory T cells in bridging preoperative chemoradiation and immunotherapy in rectal cancer
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Mark De Ridder, Joeri L. Aerts, Olivier Feron, Sven de Mey, Inès Dufait, Heng Jiang, Hui Wang, Valeri N. Verovski, Thierry Gevaert, Benedikt Engels, UCL - SSS/IREC - Institut de recherche expérimentale et clinique, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
- Subjects
0301 basic medicine ,Oncology ,medicine.medical_specialty ,Colorectal cancer ,medicine.medical_treatment ,Antineoplastic Agents ,Disease ,CD8-Positive T-Lymphocytes ,Memory T cells ,law.invention ,03 medical and health sciences ,0302 clinical medicine ,Randomized controlled trial ,law ,Internal medicine ,Preoperative Care ,medicine ,Humans ,Radiology, Nuclear Medicine and imaging ,Rectal cancer ,Neoplasm Staging ,Rectal Neoplasms ,business.industry ,TOR Serine-Threonine Kinases ,IL-2 ,Chemoradiotherapy ,Off-Label Use ,Hematology ,Immunotherapy ,medicine.disease ,Warburg effect ,Total mesorectal excision ,Neoadjuvant Therapy ,Metformin ,Treatment Outcome ,030104 developmental biology ,Clinical research ,030220 oncology & carcinogenesis ,Colonic Neoplasms ,mTOR ,Tumor Escape ,Radiotherapy, Intensity-Modulated ,business ,Adjuvant - Abstract
The management of locally advanced rectal cancer has passed a long way of developments, where total mesorectal excision and preoperative radiotherapy are crucial to secure clinical outcome. These and other aspects of multidisciplinary strategies are in-depth summarized in the literature, while our mini-review pursues a different goal. From an ethical and medical standpoint, we witness a delayed implementation of novel therapies given the cost/time consuming process of organizing randomized trials that would bridge an already excellent local control in cT3-4 node-positive disease with long-term survival. This unfortunate separation of clinical research and medical care provides a strong motivation to repurpose known pharmaceuticals that suit for treatment intensification with a focus on distant control. In the framework of on-going phase II-III IG/IMRT-SIB trials, we came across an intriguing translational observation that the ratio of circulating (protumor) myeloid-derived suppressor cells to (antitumor) central memory CD8+ T cells is drastically increased, a possible mechanism of tumor immuno-escape and spread. This finding prompts that restoring the CD45RO memory T-cell pool could be a part of integrated adjuvant interventions. Therefore, the immunocorrective potentials of modified IL-2 and the anti-diabetic drug metformin are thoroughly discussed in the context of tumor immunobiology, mTOR pathways and revised Warburg effect.
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- 2018
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33. Punicic Acid Triggers Ferroptotic Cell Death in Carcinoma Cells
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Eric Mignolet, Géraldine Cuvelier, Melissa M. Page, Emeline Dierge, Bernard Knoops, Perrine Vermonden, Yvan Larondelle, Cathy Debier, Matthias Vancoppenolle, Olivier Feron, UCL - SST/LIBST - Louvain Institute of Biomolecular Science and Technology, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
- Subjects
Programmed cell death ,Docosahexaenoic Acids ,Linolenic Acids ,Linolenic acid ,spheroids ,Antineoplastic Agents ,Article ,Lipid peroxidation ,chemistry.chemical_compound ,Cell Line, Tumor ,carcinoma cells ,Humans ,Cytotoxic T cell ,TX341-641 ,conjugated linolenic ,punicic acid ,Cytotoxicity ,acids ,chemistry.chemical_classification ,Punicic acid ,Hypopharyngeal Neoplasms ,Nutrition and Dietetics ,Nutrition. Foods and food supply ,Carcinoma ,lipid peroxidation ,docosahexaenoic acid ,HCT116 Cells ,ferroptosis ,chemistry ,Docosahexaenoic acid ,Cancer research ,Colorectal Neoplasms ,Food Science ,Polyunsaturated fatty acid - Abstract
Plant-derived conjugated linolenic acids (CLnA) have been widely studied for their preventive and therapeutic properties against diverse diseases such as cancer. In particular, punicic acid (PunA), a conjugated linolenic acid isomer (C18:3 c9t11c13) present at up to 83% in pomegranate seed oil, has been shown to exert anti-cancer effects, although the mechanism behind its cytotoxicity remains unclear. Ferroptosis, a cell death triggered by an overwhelming accumulation of lipid peroxides, has recently arisen as a potential mechanism underlying CLnA cytotoxicity. In the present study, we show that PunA is highly cytotoxic to HCT-116 colorectal and FaDu hypopharyngeal carcinoma cells grown either in monolayers or as three-dimensional spheroids. Moreover, our data indicate that PunA triggers ferroptosis in carcinoma cells. It induces significant lipid peroxidation and its effects are prevented by the addition of ferroptosis inhibitors. A combination with docosahexaenoic acid (DHA), a known polyunsaturated fatty acid with anticancer properties, synergistically increases PunA cytotoxicity. Our findings highlight the potential of using PunA as a ferroptosis-sensitizing phytochemical for the prevention and treatment of cancer.
- Published
- 2021
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34. PO-1928 Radiation cooperates with modulation of serine in human hypoxic colorectal cancer cells
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E. Demesmaeker, Inès Dufait, M. De Ridder, S. de Mey, Olivier Feron, Cyril Corbet, Heng Jiang, M. Van De Gucht, Kalun Law, Thierry Gevaert, and Hugo Vandenplas
- Subjects
Serine ,Oncology ,Colorectal cancer ,Modulation ,Chemistry ,Cancer research ,medicine ,Radiology, Nuclear Medicine and imaging ,Hematology ,Radiation ,medicine.disease - Published
- 2021
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35. Peroxidation of n-3 and n-6 polyunsaturated fatty acids in the acidic tumor environment leads to ferroptosis-mediated anticancer effects
- Author
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Céline Guilbaud, Eric Mignolet, Emeline Dierge, Elena Debock, Yvan Larondelle, Cyril Corbet, Estelle Bastien, Olivier Feron, Chantal Dessy, Louise Mignard, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
- Subjects
0301 basic medicine ,Physiology ,Pharmacology ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Fatty Acids, Omega-6 ,Neoplasms ,Lipid droplet ,Fatty Acids, Omega-3 ,medicine ,Animals ,Ferroptosis ,Cytotoxic T cell ,Molecular Biology ,Acidosis ,chemistry.chemical_classification ,Fatty Acids ,Fatty acid ,Cell Biology ,Metabolism ,030104 developmental biology ,chemistry ,Docosahexaenoic acid ,Cancer cell ,Fatty Acids, Unsaturated ,medicine.symptom ,030217 neurology & neurosurgery ,Polyunsaturated fatty acid - Abstract
Tumor acidosis promotes disease progression through a stimulation of fatty acid (FA) metabolism in cancer cells. Instead of blocking the use of FAs by acidic cancer cells, we examined whether excess uptake of specific FAs could lead to antitumor effects. We found that n-3 but also remarkably n-6 polyunsaturated FA (PUFA) selectively induced ferroptosis in cancer cells under ambient acidosis. Upon exceeding buffering capacity of triglyceride storage into lipid droplets, n-3 and n-6 PUFA peroxidation led to cytotoxic effects in proportion to the number of double bonds and even more so in the presence of diacylglycerol acyltransferase inhibitors (DGATi). Finally, an n-3 long-chain PUFA-rich diet significantly delayed mouse tumor growth when compared with a monounsaturated FA-rich diet, an effect further accentuated by administration of DGATi or ferroptosis inducers. These data point out dietary PUFA as a selective adjuvant antitumor modality that may efficiently complement pharmacological approaches.
- Published
- 2021
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36. Tumour acidosis: from the passenger to the driver's seat
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Olivier Feron and Cyril Corbet
- Subjects
Monocarboxylic Acid Transporters ,0301 basic medicine ,Bioenergetics ,T-Lymphocytes ,General Mathematics ,Cell Respiration ,Oxidative phosphorylation ,Biology ,03 medical and health sciences ,Neoplasms ,Autophagy ,Immune Tolerance ,Tumor Microenvironment ,medicine ,Animals ,Homeostasis ,Humans ,Glycolysis ,Carbonic Anhydrases ,Acidosis ,Applied Mathematics ,Cancer ,Proton Pump Inhibitors ,Hydrogen-Ion Concentration ,Hypoxia (medical) ,medicine.disease ,030104 developmental biology ,Biochemistry ,Cancer cell ,Disease Progression ,Cancer research ,medicine.symptom - Abstract
This Review by Corbet and Feron summarizes recent data showing that tumour acidosis influences cancer metabolism and contributes to cancer progression; it also highlights advances in therapeutic modalities aimed at either inhibiting or exploiting tumour acidification. The high metabolic demand of cancer cells leads to an accumulation of H+ ions in the tumour microenvironment. The disorganized tumour vasculature prevents an efficient wash-out of H+ ions released into the extracellular medium but also favours the development of tumour hypoxic regions associated with a shift towards glycolytic metabolism. Under hypoxia, the final balance of glycolysis, including breakdown of generated ATP, is the production of lactate and a stoichiometric amount of H+ ions. Another major source of H+ ions results from hydration of CO2 produced in the more oxidative tumour areas. All of these events occur at high rates in tumours to fulfil bioenergetic and biosynthetic needs. This Review summarizes the current understanding of how H+-generating metabolic processes segregate within tumours according to the distance from blood vessels and inversely how ambient acidosis influences tumour metabolism, reducing glycolysis while promoting mitochondrial activity. The Review also presents novel insights supporting the participation of acidosis in cancer progression via stimulation of autophagy and immunosuppression. Finally, recent advances in the different therapeutic modalities aiming to either block pH-regulatory systems or exploit acidosis will be discussed.
- Published
- 2017
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37. Ffar2 expression regulates leukaemic cell growth in vivo
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Laure B. Bindels, Audrey M. Neyrinck, Sarah Ducastel, Evelyne M. Dewulf, Patrice D. Cani, Martina Sboarina, Paolo E. Porporato, Olivier Feron, Pierre Sonveaux, Sophie Lestavel, Nathalie M. Delzenne, Bart Staels, UCL - SSS/LDRI - Louvain Drug Research Institute, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
- Subjects
Male ,0301 basic medicine ,Cancer Research ,Apoptosis ,Free fatty acid receptor ,Inbred C57BL ,Receptors, G-Protein-Coupled ,Small hairpin RNA ,Mice ,0302 clinical medicine ,Receptors ,Propionate ,Tumor Cells, Cultured ,Receptor ,Inbred BALB C ,Cell proliferation ,Mice, Inbred BALB C ,Tumor ,Leukemia ,Cultured ,GPR43 ,FFA2 ,Tumor Cells ,3. Good health ,Oncology ,Biochemistry ,030220 oncology & carcinogenesis ,leukaemic cells ,free fatty acid receptor ,Female ,Leukaemic cells ,short-chain fatty acids ,cell proliferation ,CMTB ,propionate ,Animals ,Biomarkers, Tumor ,Leukemia, Experimental ,Mice, Inbred C57BL ,Cell Proliferation ,Biology ,Experimental ,G-Protein-Coupled ,Short-chain fatty acids ,03 medical and health sciences ,In vivo ,Free fatty acid receptor 2 ,Cell growth ,In vitro ,030104 developmental biology ,Cancer cell ,Cancer research ,Translational Therapeutics ,Biomarkers - Abstract
BACKGROUND: Activation of free fatty acid receptor 2 (FFAR2) by microbiota-derived metabolites (e.g., propionate) reduces leukaemic cell proliferation in vitro. This study aims to test whether Ffar2 expression per se also influences leukaemia cell growth in vivo. METHODS: Bcr-Abl-expressing BaF cells were used as a leukaemia model and the role of Ffar2 was evaluated in Balb/c mice after lentiviral shRNA transduction. RESULTS: Our data formally establish that reduced leukaemic cell proliferation is associated with increased Ffar2 expression in vivo and in vitro. Going beyond association, we point out that decreasing Ffar2 expression fosters cancer cell growth in vitro and in vivo. CONCLUSIONS: Our data demonstrate the role of Ffar2 in the control of leukaemic cell proliferation in vivo and indicate that a modulation of Ffar2 expression through nutritional tools or pharmacological agents may constitute an attractive therapeutic approach to tackle leukaemia progression in humans.
- Published
- 2017
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38. Cancer cell metabolism and mitochondria: Nutrient plasticity for TCA cycle fueling
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Olivier Feron and Cyril Corbet
- Subjects
0301 basic medicine ,Cancer Research ,Citric Acid Cycle ,Mitochondrion ,Biology ,03 medical and health sciences ,Metabolomics ,Neoplasms ,Genetics ,medicine ,Animals ,Humans ,Glycolysis ,Amino Acids ,Hypoxia ,chemistry.chemical_classification ,Fatty acid ,Cancer ,Metabolism ,medicine.disease ,Mitochondria ,Citric acid cycle ,030104 developmental biology ,Oncology ,chemistry ,Biochemistry ,Cancer cell ,Acidosis - Abstract
Warburg's hypothesis that cancer cells take up a lot of glucose in the presence of ambient oxygen but convert pyruvate into lactate due to impaired mitochondrial function led to the misconception that cancer cells rely on glycolysis as their major source of energy. Most recent 13C-based metabolomic studies, including in cancer patients, indicate that cancer cells may also fully oxidize glucose. In addition to glucose-derived pyruvate, lactate, fatty acids and amino acids supply substrates to the TCA cycle to sustain mitochondrial metabolism. Here, we discuss how the metabolic flexibility afforded by these multiple mitochondrial inputs allows cancer cells to adapt according to the availability of the different fuels and the microenvironmental conditions such as hypoxia and acidosis. In particular, we focused on the role of the TCA cycle in interconnecting numerous metabolic routes in order to highlight metabolic vulnerabilities that represent attractive targets for a new generation of anticancer drugs.
- Published
- 2017
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39. Validation of a SPE HPLC–UV method for the quantification of a new ER-specific photosensitizer OR-141 in blood serum using total error concept
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Olivier Feron, Joëlle Quetin-Leclercq, Emilie Bony, Robert Kiss, David Delvaux, Yohan Mace, Olivier Riant, and Adan Pinto
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Serum ,Clinical Biochemistry ,Pharmaceutical Science ,Endoplasmic Reticulum ,01 natural sciences ,Analytical Chemistry ,Matrix (chemical analysis) ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Blood serum ,Pharmacokinetics ,Drug Discovery ,Calibration ,Animals ,Photosensitizer ,Solid phase extraction ,Chromatography, High Pressure Liquid ,Spectroscopy ,Photosensitizing Agents ,Chromatography ,Chemistry ,Solid Phase Extraction ,010401 analytical chemistry ,Reproducibility of Results ,Repeatability ,0104 chemical sciences ,Dilution ,030220 oncology & carcinogenesis - Abstract
The aim of this work is to develop the first validated HPLC-UV method quantification in blood serum for a new endoplasmic reticulum (ER)-specific benzophenazine photosensitizer (OR-141). A fast solid phase extraction (SPE) cleaning sample procedure was achieved on C18 encapped (ec) SPE cartridges and the separation was performed on a RP-18e column (5μM) using an isocratic elution with methanol. The method has been fully validated according to accuracy profiles based on total error and tolerance intervals. Calibration was performed in the matrix and trueness (
- Published
- 2017
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40. Re-Evaluating the Mechanism of Action of α,β-Unsaturated Carbonyl DUB Inhibitors B-AP15 and VLX1570: A Paradigmatic Example of Unspecific Protein Crosslinking with Michael Acceptor Motif-Containing Drugs
- Author
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L. Diaz-Saez, Adan Pinto-Fernandez, Loïc Cornelissen, Olivier Feron, Olivier Riant, Benedikt M. Kessler, Jennifer A. Ward, Edward W. Tate, Sarah Bonham, and Kilian Huber
- Subjects
Proteomics ,Proteome ,Protein aggregation ,01 natural sciences ,Benzylidene Compounds ,Article ,Deubiquitinating enzyme ,03 medical and health sciences ,Cell Line, Tumor ,Drug Discovery ,medicine ,Humans ,Enzyme Inhibitors ,Gene ,Piperidones ,030304 developmental biology ,0303 health sciences ,biology ,Deubiquitinating Enzymes ,Chemistry ,Intracellular Signaling Peptides and Proteins ,Azepines ,0104 chemical sciences ,010404 medicinal & biomolecular chemistry ,Cross-Linking Reagents ,Biochemistry ,Mechanism of action ,Covalent bond ,Cell culture ,biology.protein ,Michael reaction ,Molecular Medicine ,medicine.symptom ,Protein Multimerization - Abstract
Deubiquitinating enzymes are a growing target class across multiple disease states, with several inhibitors now reported. b-AP15 and VLX1570 are two structurally related USP14/UCH-37 inhibitors with a shared α,β-unsaturated carbonyl substructure motif. Initially taken forward into a phase I/II clinical trial for refractory multiple myeloma, VLX1570 has since been put on full clinical hold due to dose limiting toxicity. Through a proteomic approach, here we demonstrate that these compounds target a diverse range of proteins, resulting in the formation of higher molecular weight complexes. Activity-based proteome profiling identified CIAPIN1 as a sub-micromolar covalent target of VLX1570, and further analysis demonstrated that high molecular weight complex formation leads to aggregation of CIAPIN1 in intact cells. Our results suggest that in addition to DUB inhibition, these compounds induce non-specific protein aggregation through cross-linking, providing a molecular explanation for general cellular toxicity.
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- 2019
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41. Exploring the Phototoxicity of Hypoxic Active Iridium(III)-Based Sensitizers in 3D Tumor Spheroids
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Bastien Doix, Benjamin Elias, Robin Bevernaegie, Aurélie Diman, Anabelle Decottignies, Olivier Feron, Estelle Bastien, and UCL - SST/IMCN/MOST - Molecules, Solids and Reactivity
- Subjects
Drug ,Cellular pathology ,Cell Survival ,media_common.quotation_subject ,chemistry.chemical_element ,Antineoplastic Agents ,010402 general chemistry ,Iridium ,01 natural sciences ,Biochemistry ,Oxygen ,Catalysis ,Colloid and Surface Chemistry ,Coordination Complexes ,Cell Line, Tumor ,Spheroids, Cellular ,Tumor Cells, Cultured ,Humans ,Viability assay ,media_common ,chemistry.chemical_classification ,Reactive oxygen species ,Photosensitizing Agents ,General Chemistry ,Sciences bio-médicales et agricoles ,0104 chemical sciences ,chemistry ,Photochemotherapy ,Cell culture ,Toxicity ,Biophysics ,Tumor Hypoxia ,Drug Screening Assays, Antitumor ,Phototoxicity ,Sciences exactes et naturelles - Abstract
Among all molecules developed for anticancer therapies, photodynamic therapeutic agents have a unique profile. Their maximal activity is specifically triggered in tumors by light, and toxicity of even systemically delivered drug is prevented in nonilluminated parts of the body. Photosensitizers exert their therapeutic effect by producing reactive oxygen species via a light-activated reaction with molecular oxygen. Consequently, the lowering of pO2 deep in solid tumors limits their treatment and makes essential the design of oxygen-independent sensitizers. In this perspective, we have recently developed Ir(III)-based molecules able to oxidize biomolecules by type I processes under oxygen-free conditions. We examine here their phototoxicity in relevant biological models. We show that drugs, which are mitochondria-accumulated, induce upon light irradiation a dramatic decrease of the cell viability, even under low oxygen conditions. Finally, assays on 3D tumor spheroids highlight the importance of the light-activation step and the oxygen consumption rate on the drug activity.
- Published
- 2019
42. Acidosis-induced metabolic reprogramming in tumor cells enhances the anti-proliferative activity of the PDK inhibitor dichloroacetate
- Author
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Cyril Corbet, Céline A Schoonjans, Bernard Gallez, Olivier Feron, Nicolas Joudiou, Davide Brusa, UCL - SSS/LDRI - Louvain Drug Research Institute, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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0301 basic medicine ,pHe ,Cancer Research ,Cell Survival ,Glutamine ,Apoptosis ,Bioenergetics ,Pentose phosphate pathway ,Sulfides ,Metabolic plasticity ,Pentose Phosphate Pathway ,03 medical and health sciences ,Mice ,0302 clinical medicine ,Glutaminase ,Glycolysis inhibition ,Cell Line, Tumor ,Neoplasms ,Antineoplastic Combined Chemotherapy Protocols ,Thiadiazoles ,medicine ,Cytotoxic T cell ,Animals ,Humans ,Glycolysis ,Acidosis ,Cell Proliferation ,Dichloroacetic Acid ,Chemistry ,Pyruvate Dehydrogenase Acetyl-Transferring Kinase ,Drug Synergism ,Hydrogen-Ion Concentration ,Xenograft Model Antitumor Assays ,13C-NMR ,Metabolic pathway ,030104 developmental biology ,Oncology ,030220 oncology & carcinogenesis ,Cancer cell ,Cancer research ,Female ,medicine.symptom - Abstract
Altered metabolic pathways in cancer such as exacerbated glycolytic flux and increased glutamine metabolism are promising targets for anti-cancer therapies. While commonly observed in glycolytic tumors, extracellular acidosis has never been considered as a potential modulator of anti-metabolic drug activity such as dichloroacetate (DCA). Using cancer cells from various origins selected for their ability to proliferate under acidic conditions, we found that DCA exerts greater inhibitory effects on the growth of these acid-adapted cells than in parental cells. Moreover, daily DCA administration to mice led to a significant decrease in tumor growth from acid-adapted cells but not from parental cells. 13C-tracer studies revealed that DCA induced a double metabolic shift, diminishing glycolysis and increasing intracellular glutamine in acid-adapted cells. As a consequence, DCA reduced the pentose phosphate pathway activity more extensively and increased apoptosis in acid-adapted cells. Finally, the combination of DCA with a glutaminase inhibitor significantly enhanced the cytotoxic effects of DCA. Overall, the interplay between acidosis and DCA exposure leads to metabolic reprogramming that considerably alters cellular fitness.
- Published
- 2019
43. Unravelling the Allosteric Targeting of PHGDH at the ACT-Binding Domain with a Photoactivatable Diazirine Probe and Mass Spectrometry Experiments
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Raphaël Frédérick, Quentin Spillier, Simon Dochain, Séverine Ravez, Léopold Thabault, Olivier Feron, and Didier Vertommen
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diazirine ,Allosteric regulation ,Pharmaceutical Science ,Mass Spectrometry ,Article ,Analytical Chemistry ,lcsh:QD241-441 ,Structure-Activity Relationship ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,lcsh:Organic chemistry ,Protein Domains ,Drug Discovery ,Humans ,Aspartate Kinase ,Phosphoglycerate dehydrogenase ,Enzyme Inhibitors ,Physical and Theoretical Chemistry ,Binding site ,PHGDH ,Phosphoglycerate Dehydrogenase ,030304 developmental biology ,0303 health sciences ,Binding Sites ,Molecular Structure ,Photoaffinity labeling ,Chemistry ,Organic Chemistry ,Rational design ,Diazomethane ,Drug development ,Biochemistry ,Chemistry (miscellaneous) ,030220 oncology & carcinogenesis ,Diazirine ,Molecular Medicine ,Allosteric Site ,photoaffinity labeling ,Chorismate Mutase ,Binding domain - Abstract
The serine biosynthetic pathway is a key element contributing to tumor proliferation. In recent years, targeting of phosphoglycerate dehydrogenase (PHGDH), the first enzyme of this pathway, intensified and revealed to be a promising strategy to develop new anticancer drugs. Among attractive PHGDH inhibitors are the &alpha, ketothioamides. In previous work, we have demonstrated their efficacy in the inhibition of PHGDH in vitro and in cellulo. However, the precise site of action of this series, which would help the rational design of new inhibitors, remained undefined. In the present study, the detailed mechanism-of-action of a representative &alpha, ketothioamide inhibitor is reported using several complementary experimental techniques. Strikingly, our work led to the identification of an allosteric site on PHGDH that can be targeted for drug development. Using mass spectrometry experiments and an original &alpha, ketothioamide diazirine-based photoaffinity probe, we identified the 523Q-533F sequence on the ACT regulatory domain of PHGDH as the binding site of &alpha, ketothioamides. Mutagenesis experiments further documented the specificity of our compound at this allosteric site. Our results thus pave the way for the development of new anticancer drugs using a completely novel mechanism-of-action.
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- 2021
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44. Challenges and Opportunities in the Development of Serine Synthetic Pathway Inhibitors for Cancer Therapy
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Raphaël Frédérick, Olivier Feron, Romain Marteau, Séverine Ravez, and Quentin Spillier
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0301 basic medicine ,chemistry.chemical_classification ,Drug discovery ,Cancer ,Biology ,medicine.disease ,Serine ,03 medical and health sciences ,030104 developmental biology ,Enzyme ,chemistry ,Biochemistry ,RNA interference ,Drug Discovery ,Cancer cell ,medicine ,Molecular Medicine ,Phosphoserine Aminotransferase ,Phosphoglycerate dehydrogenase - Abstract
Recent advances in the understanding of the relationship between cancer and metabolism have highlighted the relevance of the serine synthetic pathway (SSP), which consists of three successive enzymatic reactions. Enzymes of the SSP, such as phosphoglycerate dehydrogenase (PHGDH) and phosphoserine aminotransferase 1 (PSAT-1), were recently highlighted because they are amplified in a significant subset of human tumors, and their suppression by RNAi caused a decrease in cancer cell survival and growth. Currently, the discovery of drugs that inhibit these enzymes is still in its infancy, and the identification of suitable inhibitors could serve to understand the emerging biology of these metabolic enzymes. In this review, we present the SSP as a significant and novel emerging area for medicinal chemistry and we provide an overview of one of the key enzymes of the pathway, PHGDH.
- Published
- 2016
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- View/download PDF
45. Acidosis Drives the Reprogramming of Fatty Acid Metabolism in Cancer Cells through Changes in Mitochondrial and Histone Acetylation
- Author
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Olivier Feron, Joao Pedro Santiago de Jesus, Adan Pinto, Cyril Corbet, Ruben Martherus, and Florence Polet
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0301 basic medicine ,Physiology ,Cellular respiration ,Glutamine ,Cell Respiration ,Mice, Nude ,Mitochondrion ,Biology ,Models, Biological ,Histones ,03 medical and health sciences ,chemistry.chemical_compound ,Acetyl Coenzyme A ,Cell Line, Tumor ,Neoplasms ,medicine ,Animals ,Humans ,Glycolysis ,Molecular Biology ,Cell Proliferation ,Acidosis ,chemistry.chemical_classification ,Electron Transport Complex I ,Fatty acid metabolism ,Fatty Acids ,Fatty acid ,Acetylation ,Cell Biology ,Hydrogen-Ion Concentration ,Cellular Reprogramming ,Mitochondria ,Citric acid cycle ,030104 developmental biology ,Biochemistry ,chemistry ,Lipogenesis ,Female ,medicine.symptom ,Reactive Oxygen Species ,Oxidation-Reduction ,Metabolic Networks and Pathways - Abstract
Bioenergetic preferences of cancer cells foster tumor acidosis that in turn leads to dramatic reduction in glycolysis and glucose-derived acetyl-coenzyme A (acetyl-CoA). Here, we show that the main source of this critical two-carbon intermediate becomes fatty acid (FA) oxidation in acidic pH-adapted cancer cells. FA-derived acetyl-CoA not only fuels the tricarboxylic acid (TCA) cycle and supports tumor cell respiration under acidosis, but also contributes to non-enzymatic mitochondrial protein hyperacetylation, thereby restraining complex I activity and ROS production. Also, while oxidative metabolism of glutamine supports the canonical TCA cycle in acidic conditions, reductive carboxylation of glutamine-derived α-ketoglutarate sustains FA synthesis. Concomitance of FA oxidation and synthesis is enabled upon sirtuin-mediated histone deacetylation and consecutive downregulation of acetyl-CoA carboxylase ACC2 making mitochondrial fatty acyl-CoA degradation compatible with cytosolic lipogenesis. Perturbations of these regulatory processes lead to tumor growth inhibitory effects further identifying FA metabolism as a critical determinant of tumor cell proliferation under acidosis.
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- 2016
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46. Inhibition of glucose metabolism prevents glycosylation of the glutamine transporter ASCT2 and promotes compensatory LAT1 upregulation in leukemia cells
- Author
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Florence Polet, Ruben Martherus, Cyril Corbet, Adan Pinto, and Olivier Feron
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Amino Acid Transport System ASC ,0301 basic medicine ,Glycosylation ,Glutamine ,Biology ,Large Neutral Amino Acid-Transporter 1 ,Glutamine transport ,Minor Histocompatibility Antigens ,03 medical and health sciences ,Glycolysis Inhibition ,chemistry.chemical_compound ,Downregulation and upregulation ,Cell Line, Tumor ,Humans ,PI3K/AKT/mTOR pathway ,Cell Proliferation ,Leukemia ,Metabolism ,Tunicamycin ,ASCT2 ,LAT1 ,Up-Regulation ,carbohydrates (lipids) ,Glucose ,030104 developmental biology ,Oncology ,Biochemistry ,chemistry ,metabolism ,Research Paper - Abstract
// Florence Polet 1 , Ruben Martherus 1 , Cyril Corbet 1 , Adan Pinto 1 , Olivier Feron 1 1 Pole of Pharmacology and Therapeutics, Institut de Recherche Experimentale et Clinique (IREC), Universite Catholique de Louvain, B-1200 Brussels, Belgium Correspondence to: Olivier Feron, email: olivier.feron@uclouvain.be Keywords: leukemia, ASCT2, LAT1, glycosylation, metabolism Received: April 07, 2016 Accepted: May 29, 2016 Published: June 17, 2016 ABSTRACT Leukemia cells are highly dependent on glucose and glutamine as bioenergetic and biosynthetic fuels. Inhibition of the metabolism of glucose but also of glutamine is thus proposed as a therapeutic modality to block leukemia cell growth. Since glucose also supports protein glycosylation, we wondered whether part of the growth inhibitory effects resulting from glycolysis inhibition could indirectly result from a defect in glycosylation of glutamine transporters. We found that ASCT2/SLC1A5, a major glutamine transporter, was indeed deglycosylated upon glucose deprivation and 2-deoxyglucose exposure in HL-60 and K-562 leukemia cells. Inhibition of glycosylation by these modalities as well as by the bona fide glycosylation inhibitor tunicamycin however marginally influenced glutamine transport and did not impact on ASCT2 subcellular location. This work eventually unraveled the dispensability of ASCT2 to support HL-60 and K-562 leukemia cell growth and identified the upregulation of the neutral amino acid antiporter LAT1/SLC7A5 as a mechanism counteracting the inhibition of glycosylation. Pharmacological inhibition of LAT1 increased the growth inhibitory effects and the inactivation of the mTOR pathway resulting from glycosylation defects, an effect further emphasized during the regrowth period post-treatment with tunicamycin. In conclusion, this study points towards the underestimated impact of glycosylation inhibition in the interpretation of metabolic alterations resulting from glycolysis inhibition, and identifies LAT1 as a therapeutic target to prevent compensatory mechanisms induced by alterations in the glycosylating process.
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- 2016
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47. Inhibition of colorectal cancer-associated fibroblasts by lipid nanocapsules loaded with acriflavine or paclitaxel
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Estelle Bastien, Olivier Feron, Alizée Canevat, Thibaut Fourniols, Véronique Préat, UCL - SSS/LDRI - Louvain Drug Research Institute, and UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique
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Paclitaxel ,Cancer-associated fibroblast ,Cell Survival ,Colorectal cancer ,Chemistry, Pharmaceutical ,Pharmaceutical Science ,Antineoplastic Agents ,02 engineering and technology ,Tumor spheroid ,030226 pharmacology & pharmacy ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Cancer-Associated Fibroblasts ,Nanocapsules ,In vivo ,Cell Line, Tumor ,Tumor Microenvironment ,medicine ,Humans ,Cytotoxic T cell ,Acriflavine ,Drug Carriers ,Lipid nanocapsule ,Spheroid ,HCT116 Cells ,021001 nanoscience & nanotechnology ,medicine.disease ,Lipids ,Crosstalk (biology) ,chemistry ,Cell culture ,Cancer research ,Colorectal Neoplasms ,0210 nano-technology - Abstract
Crosstalk between cancer-associated fibroblasts (CAFs) and colorectal cancer cells promotes tumor growth and contributes to chemoresistance. In this study, we assessed the sensitivity of a primary CAF cell line, CT5.3hTERT, to standard-of-care and alternative cytotoxic treatments. Paclitaxel (PTX) and acriflavine (ACF) were identified as the most promising molecules to inhibit CAF development. To allow the translational use of both drugs, we developed lipid nanocapsule (LNC) formulations for PTX and ACF. Finally, we mixed CAFs and tumor cell lines in a cocultured spheroid, and the effect of both drugs was investigated by histological analyses. We demonstrated CAF inhibition by LNC-ACF and whole tumor inhibition by LNC-PTX. Altogether, we proposed a new strategy to reduce CAF populations in the colorectal microenvironment that should be tested in vivo.
- Published
- 2020
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48. Structure–Activity Relationships (SARs) of α-Ketothioamides as Inhibitors of Phosphoglycerate Dehydrogenase (PHGDH)
- Author
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Judith E. Unterlass, Cyril Corbet, Raphaël Frédérick, Charline Degavre, Olivier Feron, Séverine Ravez, Quentin Spillier, Université Catholique de Louvain = Catholic University of Louvain (UCL), Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer - U837 (JPArc), Université Lille Nord de France (COMUE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille, Department of Oncology-Pathology [Karolinska Institutet], Karolinska Institutet [Stockholm], CHU Lille, Inserm, Université de Lille, Université Catholique de Louvain = Catholic University of Louvain [UCL], and Lille Neurosciences & Cognition (LilNCog) - U 1172
- Subjects
0301 basic medicine ,serine synthesis pathway inhibitors ,alpha-ketothioamides ,PHGDH ,lcsh:Medicine ,lcsh:RS1-441 ,Pharmaceutical Science ,[CHIM.THER]Chemical Sciences/Medicinal Chemistry ,Biology ,Article ,lcsh:Pharmacy and materia medica ,Serine ,03 medical and health sciences ,0302 clinical medicine ,Drug Discovery ,medicine ,Phosphoglycerate dehydrogenase ,chemistry.chemical_classification ,lcsh:R ,Cancer ,α-ketothioamides ,medicine.disease ,030104 developmental biology ,Enzyme ,chemistry ,030220 oncology & carcinogenesis ,Cancer cell ,Cancer research ,Molecular Medicine - Abstract
For many years now, targeting deregulation within cancer cells&rsquo, metabolism has appeared as a promising strategy for the development of more specific and efficient cancer treatments. Recently, numerous reports highlighted the crucial role of the serine synthetic pathway, and particularly of the phosphoglycerate dehydrogenase (PHGDH), the first enzyme of the pathway, to sustain cancer progression. Yet, because of very weak potencies usually in cell-based settings, the inhibitors reported so far failed to lay ground on the potential of this approach. In this paper, we report a structure&ndash, activity relationship study of a series of &alpha, ketothioamides that we have recently identified. Interestingly, this study led to a deeper understanding of the structure&ndash, activity relationship (SAR) in this series and to the identification of new PHGDH inhibitors. The activity of the more potent compounds was confirmed by cellular thermal shift assays and in cell-based experiments. We hope that this research will eventually provide a new entry point, based on this promising chemical scaffold, for the development of therapeutic agents targeting PHGDH.
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- 2020
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49. Antidiabetic Biguanides Radiosensitize Hypoxic Colorectal Cancer Cells Through a Decrease in Oxygen Consumption
- Author
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Sven de Mey, Heng Jiang, Cyril Corbet, Hui Wang, Inès Dufait, Kalun Law, Estelle Bastien, Valeri Verovski, Thierry Gevaert, Olivier Feron, Mark De Ridder, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, and UCL - SSS/IREC - Institut de recherche expérimentale et clinique
- Subjects
0301 basic medicine ,medicine.drug_class ,colorectal cancer ,Pharmacology ,Phenformin ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Radioresistance ,medicine ,hypoxic radiosensitivity ,Pharmacology (medical) ,Viability assay ,Radiosensitivity ,phenformin ,Original Research ,metformin ,mitochondrial complex I ,oxygen consumption rate ,chemistry.chemical_classification ,Reactive oxygen species ,Biguanide ,lcsh:RM1-950 ,AMPK ,Metformin ,lcsh:Therapeutics. Pharmacology ,030104 developmental biology ,chemistry ,030220 oncology & carcinogenesis ,medicine.drug - Abstract
Background and Purpose: The anti-diabetic biguanide drugs metformin and phenformin exhibit antitumor activity in various models. However, their radiomodulatory effect under hypoxic conditions, particularly for phenformin, is largely unknown. This study therefore examines whether metformin and phenformin as mitochondrial complex I blockades could overcome hypoxic radioresistance through inhibition of oxygen consumption. Materials and Methods: A panel of colorectal cancer cells (HCT116, DLD-1, HT29, SW480, and CT26) was exposed to metformin or phenformin for 16 h at indicated concentrations. Afterward, cell viability was measured by MTT and colony formation assays. Apoptosis and reactive oxygen species (ROS) were detected by flow cytometry. Phosphorylation of AMP-activated protein kinase (AMPK) was examined by western blot. Mitochondria complexes activity and oxygen consumption rate (OCR) were measured by seahorse analyzer. The radiosensitivity of tumor cells was assessed by colony formation assay under aerobic and hypoxic conditions. The in vitro findings were further validated in colorectal CT26 tumor model. Results: Metformin and phenformin inhibited mitochondrial complex I activity and subsequently reduced OCR in a dose-dependent manner starting at 3 mM and 30 μM, respectively. As a result, the hypoxic radioresistance of tumor cells was counteracted by metformin and phenformin with an enhancement ratio about 2 at 9 mM and 100 μM, respectively. Regarding intrinsic radioresistance, both of them did not exhibit any effect although there was an increase of phosphorylation of AMPK and ROS production. In tumor-bearing mice, metformin or phenformin alone did not show any anti-tumor effect. While in combination with radiation, both of them substantially delayed tumor growth and enhanced radioresponse, respectively, by 1.3 and 1.5-fold. Conclusion: Our results demonstrate that metformin and phenformin overcome hypoxic radioresistance through inhibition of mitochondrial respiration, and provide a rationale to explore metformin and phenformin as hypoxic radiosensitizers.
- Published
- 2018
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50. Optimized acriflavine-loaded lipid nanocapsules as a safe and effective delivery system to treat breast cancer
- Author
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Olivier Feron, Véronique Préat, Yoann Montigaud, Bernard Gallez, Pierre Danhier, Zaver M. Bhujwalla, Fabienne Danhier, Bernard Ucakar, Balaji Krishnamachary, UCL - SSS/IREC - Institut de recherche expérimentale et clinique, UCL - SSS/IREC/FATH - Pôle de Pharmacologie et thérapeutique, and UCL - SSS/LDRI - Louvain Drug Research Institute
- Subjects
0301 basic medicine ,Drug ,Hydrochloride ,media_common.quotation_subject ,Drug delivery system ,Pharmaceutical Science ,Pharmacology ,Design of experiments (DoE) ,digestive system ,Micelle ,Lipid nanocapsules ,03 medical and health sciences ,chemistry.chemical_compound ,Mice ,4T1 cells ,Breast cancer ,0302 clinical medicine ,Nanocapsules ,In vivo ,Cell Line, Tumor ,Cytotoxic T cell ,Animals ,Acriflavine ,media_common ,Drug Carriers ,Mice, Inbred BALB C ,Mammary Neoplasms, Experimental ,Lipids ,digestive system diseases ,In vitro ,030104 developmental biology ,chemistry ,030220 oncology & carcinogenesis ,Toxicity ,Female ,Hypoxia-Inducible Factor 1 - Abstract
Acriflavine (ACF) hydrochloride is currently repurposed as multimodal drug, inhibiting hypoxia-inducible factors (HIF) pathways and exerting cytotoxic properties. The aim of this study was to encapsulate ACF in reverse micelles and to incorporate this suspension in lipid nanocapsules (LNC). Designs of experiments were used to work under quality by design conditions. LNC were formulated using a phase-inversion temperature method, leading to an encapsulation efficiency around 80%. In vitro, the encapsulated drug presented similar cytotoxic activity and decrease in HIF activity in 4T1 cells compared to the free drug. In vivo, ACF-loaded nanoparticles (ACF dose of 5 mg/kg) demonstrated a higher antitumor efficacy compared to free ACF on an orthotopic model of murine breast cancer (4T1 cells). Moreover, the use of LNC allowed to drastically decrease the number of administrations compared to the free drug (2 versus 12 injections), suppressing the ACF-induced toxicity.
- Published
- 2018
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