Your search keyword '"Doumont, Gilles"' showing total 7 results

1. Nanofitin as a New Molecular-Imaging Agent for the Diagnosis of Epidermal Growth Factor Receptor Over-Expressing Tumors.

Author

Goux, Marine, Becker, Guillaume, Gorré, Harmony, Dammicco, Sylvestre, Desselle, Ariane, Egrise, Dominique, Leroi, Natacha, Lallemand, François, Bahri, Mohamed Ali, Doumont, Gilles, Plenevaux, Alain, Cinier, Mathieu, and Luxen, André

Published

2017

2. Murine stroma adopts a human-like metabolic phenotype in the PDX model of colorectal cancer and liver metastases

Author

Blomme, Arnaud, Van Simaeys, Gaetan, Doumont, Gilles, Costanza, Brunella, Bellier, Justine, Otaka, Yukihiro, Sherer, Félicie, Lovinfosse, Pierre, Boutry, Sébastien, Palacios, Ana, De Pauw, Edwin, Hirano, Touko, Yokobori, Takehiko, Hustinx, Roland, Bellahcène, Akeila, Delvenne, Philippe, Detry, Olivier, Goldman, Serge, Nishiyama, Masahiko, Castronovo, Vincent, and Turtoi, Andrei

Abstract

Cancer research is increasingly dependent of patient-derived xenograft model (PDX). However, a major point of concern regarding the PDX model remains the replacement of the human stroma with murine counterpart. In the present work we aimed at clarifying the significance of the human-to-murine stromal replacement for the fidelity of colorectal cancer (CRC) and liver metastasis (CRC-LM) PDX model. We have conducted a comparative metabolic analysis between 6 patient tumors and corresponding PDX across 4 generations. Metabolic signatures of cancer cells and stroma were measured separately by MALDI-imaging, while metabolite changes in entire tumors were quantified using mass spectrometry approach. Measurement of glucose metabolism was also conducted in vivo using [18F]-fluorodeoxyglucose (FDG) and positron emission tomography (PET). In CRC/CRC-LM PDX model, human stroma was entirely replaced at the second generation. Despite this change, MALDI-imaging demonstrated that the metabolic profiles of both stromal and cancer cells remained stable for at least four generations in comparison to the original patient material. On the tumor level, profiles of 86 water-soluble metabolites as well as 93 lipid mediators underlined the functional stability of the PDX model. In vivo PET measurement of glucose uptake (reflecting tumor glucose metabolism) supported the ex vivo observations. Our data show for the first time that CRC/CRC-LM PDX model maintains the functional stability at the metabolic level despite the early replacement of the human stroma by murine cells. The findings demonstrate that human cancer cells actively educate murine stromal cells during PDX development to adopt the human-like phenotype.

Published

2018

3. Models for angiogenesis: From fundamental mechanisms to anticancer treatment research.

Author

Doumont, Gilles, de Visser, Karin E., Derksen, Patrick W.B., and Jonkers, Jos

Subjects

NEOVASCULARIZATION, ANTINEOPLASTIC agents, CANCER treatment, MEDICAL research

Abstract

Angiogenesis, the process of blood vessel formation, constitutes a critical step during embryonic development, cancer progression and metastasis formation. It also constitutes a key target for anticancer therapies. Over the past 20 years different in vitro, ex vivo and in vivo models have been used to understand the fundamental mechanisms of angiogenesis and to test new anti-angiogenic therapies. Here, we review the most important models and discuss their utility in basic and translational research. [Copyright &y& Elsevier]

Published

2007

4. STING orchestrates the crosstalk between polyunsaturated fatty acid metabolism and inflammatory responses.

Author

Vila, Isabelle K., Chamma, Hanane, Steer, Alizée, Saccas, Mathilde, Taffoni, Clara, Turtoi, Evgenia, Reinert, Line S., Hussain, Saqib, Marines, Johanna, Jin, Lei, Bonnefont, Xavier, Hubert, Mathieu, Schwartz, Olivier, Paludan, Soren R., Van Simaeys, Gaetan, Doumont, Gilles, Sobhian, Bijan, Vlachakis, Dimitrios, Turtoi, Andrei, and Laguette, Nadine

Abstract

Concerted alteration of immune and metabolic homeostasis underlies several inflammation-related pathologies, ranging from metabolic syndrome to infectious diseases. Here, we explored the coordination of nucleic acid-dependent inflammatory responses and metabolic homeostasis. We reveal that the STING (stimulator of interferon genes) protein regulates metabolic homeostasis through inhibition of the fatty acid desaturase 2 (FADS2) rate-limiting enzyme in polyunsaturated fatty acid (PUFA) desaturation. STING ablation and agonist-mediated degradation increased FADS2-associated desaturase activity and led to accumulation of PUFA derivatives that drive thermogenesis. STING agonists directly activated FADS2-dependent desaturation, promoting metabolic alterations. PUFAs in turn inhibited STING, thereby regulating antiviral responses and contributing to resolving STING-associated inflammation. Thus, we have unveiled a negative regulatory feedback loop between STING and FADS2 that fine-tunes inflammatory responses. Our results highlight the role of metabolic alterations in human pathologies associated with aberrant STING activation and STING-targeting therapies. [Display omitted] • STING inhibits FADS2-dependent desaturation of PUFAs and LC-PUFAs • STING activation leads to upregulation of FADS2-associated desaturase activity • STING agonists activate FADS2-dependent PUFA and LC-PUFA desaturation • PUFAs inhibit STING-dependent inflammatory responses The stimulator of interferon genes (STING) is a central regulator of nucleic acid-associated inflammatory responses. Here, Vila et al. discover that STING regulates polyunsaturated fatty acid (PUFA) metabolism, and in turn, PUFAs inhibit STING-dependent inflammation. This cross-regulation is central to the maintenance of metabolic homeostasis. [ABSTRACT FROM AUTHOR]

Published

2022

5. Distinct roles of Mdm2 and Mdm4 in red cell production

Author

Maetens, Marion, Doumont, Gilles, Clercq, Sarah De, Francoz, Sarah, Froment, Pascal, Bellefroid, Eric, Klingmuller, Ursula, Lozano, Guillermina, and Marine, Jean-Christophe

Abstract

Mdm2 and Mdm4 are critical negative regulators of the p53 tumor suppressor. Mdm4-null mutants are severely anemic and exhibit impaired proliferation of the fetal liver erythroid lineage cells. This phenotype may indicate a cell-intrinsic function of Mdm4 in erythropoiesis. In contrast, red blood cell count was nearly normal in mice engineered to express low levels of Mdm2, suggesting that Mdm2 might be dispensable for red cell production. Here, we further explore the tissue-specific functions of Mdm2 and Mdm4 in the erythroid lineage by intercrossing conditional Mdm4 and Mdm2 alleles to an erythroid-specific Cre (Er-GFP-Cre) knock-in allele. Our data show that Mdm2 is required for rescuing erythroid progenitors from p53-mediated apoptosis during primitive erythropoiesis. In contrast, Mdm4 is only required for the high erythropoietic rate during embryonic definitive erythropoiesis. Thus, in this particular cellular context, Mdm4 only contributes to p53 regulation at a specific phase of the differentiation program.

Published

2007

6. Distinct roles of Mdm2 and Mdm4 in red cell production

Author

Maetens, Marion, Doumont, Gilles, Clercq, Sarah De, Francoz, Sarah, Froment, Pascal, Bellefroid, Eric, Klingmuller, Ursula, Lozano, Guillermina, and Marine, Jean-Christophe

Abstract

Mdm2 and Mdm4 are critical negative regulators of the p53 tumor suppressor. Mdm4-null mutants are severely anemic and exhibit impaired proliferation of the fetal liver erythroid lineage cells. This phenotype may indicate a cell-intrinsic function of Mdm4 in erythropoiesis. In contrast, red blood cell count was nearly normal in mice engineered to express low levels of Mdm2, suggesting that Mdm2 might be dispensable for red cell production. Here, we further explore the tissue-specific functions of Mdm2 and Mdm4 in the erythroid lineage by intercrossing conditional Mdm4and Mdm2alleles to an erythroid-specific Cre (Er-GFP-Cre)knock-in allele. Our data show that Mdm2 is required for rescuing erythroid progenitors from p53-mediated apoptosis during primitive erythropoiesis. In contrast, Mdm4 is only required for the high erythropoietic rate during embryonic definitive erythropoiesis. Thus, in this particular cellular context, Mdm4 only contributes to p53 regulation at a specific phase of the differentiation program.

Published

2007

7. PTPRV is a Key Mediator of p53-Induced Cell Cycle Exit

Author

Doumont, Gilles, Martoriati, Alain, and Marine, Jean-Christophe

Abstract

The p53 tumor suppressor functions as a sequence-specific DNA-binding transcription factor that promotes antiproliferative responses, including cell cycle checkpoints, cellular senescence and apoptosis. The precise nature of the p53 transcriptional programs and the complex mechanisms that govern whether or not a cell dies in response to p53 activation remain elusive. We have recently reported the identification of a new direct p53 target, Ptprv, encoding a transmembrane tyrosine phosphatase. Ptprv expression is dramatically and preferentially increased in cells undergoing p53-dependent cell cycle exit, but not in cells undergoing p53-mediated apoptosis. Importantly, while p53-induced apoptosis is intact in mice lacking Ptprv, Ptprv-null cells are defective in G1 checkpoint control. In addition, we report herein that Ptprv is induced at high cell density and mediates contact inhibition of cell growth. Together, the data suggest that Ptprv is a potent inhibitor of cell proliferation and a critical mediator of p53-induced cell cycle exit.

Published

2005