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21 results on '"Hebrard S"'

1. Pr\'ediction de l'\'evolution granulom\'etrique et morphologique d'une poudre dans un four tournant

Author

Patisson, F., Ablitzer-Thouroude, C., Hebrard, S., and Ablitzer, D.

Subjects
Condensed Matter - Materials Science
Abstract

The dry conversion process for making UO2 nuclear fuel pellets consists of two steps: hydrolysis of UF6 to UO2F2, followed by reducing pyrohydrolysis to UO2 in a rotary kiln. The physical characteristics (morphology, particle size distribution) of the powder obtained at the kiln end determine the final properties (sinterability, flow-ability, green strength). We developed a mathematical model describing the morphological evolution of the powder in the rotary kiln, which enables us to predict morphological characteristics of UO2 powder as functions of the processing conditions. Firstly, the powder flow in the kiln was modelled, including the exchanges between a dense phase (powder bed) and an airborne phase (particles showering down). An original feature of this model is to consider the effect of lifters for calculating the dynamic variables. Secondly, the phenomena responsible for the changes in morphology and grain size were identified and modelled. A population of fractal agglomerates was considered, whose number and size change due to Brownian and sedimentation agglomeration, sintering, breaking up, and chemical reactions. The model is based on population balances and the particle size distribution is divided into sections. Results of both dynamic and morphological calculations are compared to available measurements. Lastly, the influence of the different mechanisms of morphological evolution on the final size distribution is analysed.

Published
2007

5. The HSP90 inhibitor, 17AAG, protects the intestinal stem cell niche and inhibits graft versus host disease development

Author

Joly, A-L, primary, Deepti, A, additional, Seignez, A, additional, Goloudina, A, additional, Hebrard, S, additional, Schmitt, E, additional, Richaud, S, additional, Fourmaux, E, additional, Hammann, A, additional, Collura, A, additional, Svrcek, M, additional, Jego, G, additional, Robinet, E, additional, Solary, E, additional, Demidov, O, additional, Kohli, E, additional, and Garrido, C, additional

Published
2015
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6. Modélisation d'écoulements granulaires réactionnels par la méthode des éléments discrets : application aux fours tournants

Author

Morandini, J., Peyrard, M., Nicolas, F., Hebrard, S., Touboul, Eric, Pijolat, M., Favergeon, L., Soustelle, M., Département Méthodes et Modèles Mathématiques pour l'Industrie (3MI-ENSMSE), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Centre G2I, and Six, Grégory

Subjects
ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2007

7. AMP-activated protein kinase in the regulation of hepatic energy metabolism: from physiology to therapeutic perspectives

Author

UCL - MD/BICL - Département de biochimie et de biologie cellulaire, LUMC - Department of Molecular Cell Biology, Viollet, B., Guigas, Bruno, Leclerc, J., Hebrard, S., Lantier, L., Mounier, R., Andreelli, F., Foretz, M., UCL - MD/BICL - Département de biochimie et de biologie cellulaire, LUMC - Department of Molecular Cell Biology, Viollet, B., Guigas, Bruno, Leclerc, J., Hebrard, S., Lantier, L., Mounier, R., Andreelli, F., and Foretz, M.

Abstract

As the liver is central in the maintenance of glucose homeostasis and energy storage, knowledge of the physiology as well as physiopathology of hepatic energy metabolism is a prerequisite to our understanding of whole-body metabolism. Hepatic fuel metabolism changes considerably depending on physiological circumstances (fed vs. fasted state). In consequence, hepatic carbohydrate, lipid and protein synthesis/utilization are tightly regulated according to needs. Fatty liver and hepatic insulin resistance (both frequently associated with the metabolic syndrome) or increased hepatic glucose production (as observed in type 2 diabetes) resulted from alterations in substrates oxidation/storage balance in the liver. Because AMP-activated protein kinase (AMPK) is considered as a cellular energy sensor, it is important to gain understanding of the mechanism by which hepatic AMPK coordinates hepatic energy metabolism. AMPK has been implicated as a key regulator of physiological energy dynamics by limiting anabolic pathways (to prevent further ATP consumption) and by facilitating catabolic pathways (to increase ATP generation). Activation of hepatic AMPK leads to increased fatty acid oxidation and simultaneously inhibition of hepatic lipogenesis, cholesterol synthesis and glucose production. In addition to a short-term effect on specific enzymes, AMPK also modulates the transcription of genes involved in lipogenesis and mitochondrial biogenesis. The identification of AMPK targets in hepatic metabolism should be useful in developing treatments to reverse metabolic abnormalities of type 2 diabetes and the metabolic syndrome.

Published
2009

16. Stem cell-like reprogramming is required for leukemia-initiating activity in B-ALL.

Author

Fregona V, Bayet M, Bouttier M, Largeaud L, Hamelle C, Jamrog LA, Prade N, Lagarde S, Hebrard S, Luquet I, Mansat-De Mas V, Nolla M, Pasquet M, Didier C, Khamlichi AA, Broccardo C, Delabesse É, Mancini SJC, and Gerby B

Subjects
Humans, Janus Kinases, STAT Transcription Factors, Signal Transduction, Stem Cells, Burkitt Lymphoma, Leukemia
Abstract

B cell acute lymphoblastic leukemia (B-ALL) is a multistep disease characterized by the hierarchical acquisition of genetic alterations. However, the question of how a primary oncogene reprograms stem cell-like properties in committed B cells and leads to a preneoplastic population remains unclear. Here, we used the PAX5::ELN oncogenic model to demonstrate a causal link between the differentiation blockade, the self-renewal, and the emergence of preleukemic stem cells (pre-LSCs). We show that PAX5::ELN disrupts the differentiation of preleukemic cells by enforcing the IL7r/JAK-STAT pathway. This disruption is associated with the induction of rare and quiescent pre-LSCs that sustain the leukemia-initiating activity, as assessed using the H2B-GFP model. Integration of transcriptomic and chromatin accessibility data reveals that those quiescent pre-LSCs lose B cell identity and reactivate an immature molecular program, reminiscent of human B-ALL chemo-resistant cells. Finally, our transcriptional regulatory network reveals the transcription factor EGR1 as a strong candidate to control quiescence/resistance of PAX5::ELN pre-LSCs as well as of blasts from human B-ALL., (© 2023 Fregona et al.)

Published
2024
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17. Increased FAT/CD36 cycling and lipid accumulation in myotubes derived from obese type 2 diabetic patients.

Author

Aguer C, Foretz M, Lantier L, Hebrard S, Viollet B, Mercier J, and Kitzmann M

Subjects
AMP-Activated Protein Kinases metabolism, Aminoimidazole Carboxamide analogs & derivatives, Aminoimidazole Carboxamide pharmacology, Cell Differentiation drug effects, Enzyme Activation drug effects, Humans, Insulin pharmacology, Membrane Microdomains drug effects, Membrane Microdomains metabolism, Middle Aged, Muscle Fibers, Skeletal drug effects, Muscle Fibers, Skeletal enzymology, Muscle Fibers, Skeletal pathology, Oxidation-Reduction drug effects, Protein Transport drug effects, Ribonucleotides pharmacology, Cadherins metabolism, Diabetes Mellitus, Type 2 metabolism, Diabetes Mellitus, Type 2 pathology, Endocytosis drug effects, Lipid Metabolism drug effects, Muscle Fibers, Skeletal metabolism
Abstract

Background: Permanent fatty acid translocase (FAT/)CD36 relocation has previously been shown to be related to abnormal lipid accumulation in the skeletal muscle of type 2 diabetic patients, however mechanisms responsible for the regulation of FAT/CD36 expression and localization are not well characterized in human skeletal muscle., Methodology/principal Findings: Primary muscle cells derived from obese type 2 diabetic patients (OBT2D) and from healthy subjects (Control) were used to examine the regulation of FAT/CD36. We showed that compared to Control myotubes, FAT/CD36 was continuously cycling between intracellular compartments and the cell surface in OBT2D myotubes, independently of lipid raft association, leading to increased cell surface FAT/CD36 localization and lipid accumulation. Moreover, we showed that FAT/CD36 cycling and lipid accumulation were specific to myotubes and were not observed in reserve cells. However, in Control myotubes, the induction of FAT/CD36 membrane translocation by the activation of (AMP)-activated protein kinase (AMPK) pathway did not increase lipid accumulation. This result can be explained by the fact that pharmacological activation of AMPK leads to increased mitochondrial beta-oxidation in Control cells., Conclusion/significance: Lipid accumulation in myotubes derived from obese type 2 diabetic patients arises from abnormal FAT/CD36 cycling while lipid accumulation in Control cells results from an equilibrium between lipid uptake and oxidation. As such, inhibiting FAT/CD36 cycling in the skeletal muscle of obese type 2 diabetic patients should be sufficient to diminish lipid accumulation.

Published
2011
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18. AMPK: Lessons from transgenic and knockout animals.

Author

Viollet B, Athea Y, Mounier R, Guigas B, Zarrinpashneh E, Horman S, Lantier L, Hebrard S, Devin-Leclerc J, Beauloye C, Foretz M, Andreelli F, Ventura-Clapier R, and Bertrand L

Subjects
AMP-Activated Protein Kinases chemistry, Adipose Tissue enzymology, Animals, Animals, Genetically Modified, Blood Vessels enzymology, Blood Vessels physiology, Energy Metabolism, Gene Knockout Techniques, Humans, Hypoglycemic Agents pharmacology, Hypothalamus enzymology, Insulin Resistance, Liver enzymology, Models, Animal, Muscle, Skeletal enzymology, Myocardium enzymology, Protein Conformation, AMP-Activated Protein Kinases metabolism
Abstract

AMP-activated protein kinase (AMPK), a phylogenetically conserved serine/threonine protein kinase, has been proposed to function as a fuel gauge to monitor cellular energy status in response to nutritional environmental variations. AMPK system is a regulator of energy balance that, once activated by low energy status, switches on ATP-producing catabolic pathways (such as fatty acid oxidation and glycolysis), and switches off ATP-consuming anabolic pathways (such as lipogenesis), both by short-term effect on phosphorylation of regulatory proteins and by long-term effect on gene expression. Numerous observations obtained with pharmacological activators and agents that deplete intracellular ATP have been supportive of AMPK playing a role in the control of energy metabolism but none of these studies have provided conclusive evidence. Relatively recent developments in our understanding of precisely how AMPK complexes might operate to control energy metabolism is due in part to the development of transgenic and knockout mouse models. Although there are inevitable caveats with genetic models, some important findings have emerged. In the present review, we discuss recent findings obtained from animal models with inhibition or activation of AMPK signaling pathway.

Published
2009
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19. Targeting the AMPK pathway for the treatment of Type 2 diabetes.

Author

Viollet B, Lantier L, Devin-Leclerc J, Hebrard S, Amouyal C, Mounier R, Foretz M, and Andreelli F

Subjects
AMP-Activated Protein Kinases chemistry, Caloric Restriction, Cardiovascular Diseases enzymology, Cardiovascular Diseases therapy, Diabetes Mellitus, Type 2 enzymology, Enzyme Activation, Exercise, Glucose metabolism, Homeostasis, Humans, Islets of Langerhans physiopathology, Lipid Metabolism, Protein Conformation, AMP-Activated Protein Kinases metabolism, Diabetes Mellitus, Type 2 therapy
Abstract

Type 2 diabetes is one of the fastest growing public health problems worldwide, resulting from both genetic factors and inadequate adaptation to environmental changes. It is characterized by abnormal glucose and lipid metabolism due in part to resistance to the actions of insulin in skeletal muscle, liver and fat. AMP-activated protein kinase (AMPK), a phylogenetically conserved serine/threonine protein kinase, acts as an integrator of regulatory signals monitoring systemic and cellular energy status. The growing realization that AMPK regulates the coordination of anabolic and catabolic metabolic processes represents an attractive concept for type 2 diabetes therapy. Recent findings showing that pharmacological activation of AMPK improves blood glucose homeostasis, lipid profile and blood pressure in insulin-resistant rodents suggest that this kinase could be a novel therapeutic target in the treatment of type 2 diabetes. Consistent with these results, physical exercise and major classes of antidiabetic drugs have recently been reported to activate AMPK. In the present review, we update these topics and discuss the concept of targeting the AMPK pathway for the treatment of type 2 diabetes.

Published
2009
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20. Conditional inactivation of the murine serum response factor in the pancreas leads to severe pancreatitis.

Author

Miralles F, Hebrard S, Lamotte L, Durel B, Gilgenkrantz H, Li Z, Daegelen D, Tuil D, and Joshi RL

Subjects
Animals, Disease Models, Animal, Islets of Langerhans physiology, Mice, Mice, Transgenic, NF-kappa B metabolism, Pancreas, Exocrine pathology, Pancreatitis immunology, Pancreatitis pathology, Pancreas, Exocrine physiopathology, Pancreatitis physiopathology, Serum Response Factor genetics, Serum Response Factor physiology
Abstract

The Serum Response Factor (SRF) is widely expressed transcription factor acting at the confluence of multiple signaling pathways and has been implicated in the control of differentiation, growth, and cell death. In the present study, we found that SRF is expressed in the developing and adult pancreas. To explore the possible role of SRF in this organ, we have generated mutant mice with conditional disruption of the Srf gene. Such mutants presented normal development of both the exocrine and endocrine pancreas indicating that SRF is dispensable for pancreas ontogenesis. However, after weaning, these mice developed profound morphological alterations of the exocrine pancreas, which were reminiscent of severe pancreatitis. In these mice, massive acinar injury, Nuclear Factor Kappa B activation and proinflammatory cytokines release led to complete destruction of the exocrine pancreas and its replacement by adipose tissue. Despite these changes, the organization and function of the endocrine islets of Langerhans remained well-preserved. This new animal model of spontaneous pancreatitis could prove a valuable tool to gain further insight into the physiopathology of this disease.

Published
2006
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21. The complete sequence of a 10.8kb fragment to the right of the chromosome III centromere of Saccharomyces cerevisiae.

Author

Biteau N, Fremaux C, Hebrard S, Menara A, Aigle M, and Crouzet M

Subjects
Base Sequence, Centromere, Citrate (si)-Synthase genetics, Cloning, Molecular, Molecular Sequence Data, RNA, Transfer, Asn genetics, RNA, Transfer, Pro genetics, Reading Frames, Regulatory Sequences, Nucleic Acid genetics, Sequence Homology, Nucleic Acid, Chromosome Mapping, Chromosomes, Fungal, DNA, Fungal genetics, Saccharomyces cerevisiae genetics
Abstract

The complete nucleotide sequence of the D10H fragment (10850 bp) was determined. The D10H fragment is located on the right arm of chromosome III near the centromere and contains the SUF2 gene. Six open reading frames (ORFs) larger than 300 bp were found. One of them is the CIT2 gene encoding the cytoplasmic citrate synthase. The others are new putative genes and show no significant similarity with any known gene. In addition two tRNA genes (Asn and Pro) and a solo delta element were identified. Two ORFs were disrupted; no peculiar phenotype was observed.

Published
1992
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