Moro, Cédric 1978-...
Cédric Moro researcher
VIAF ID: 215014236 (Personal)
Permalink: http://viaf.org/viaf/215014236
Preferred Forms
- 100 0 _ ‡a Cédric Moro ‡c researcher
- 100 1 _ ‡a Moro, Cédric, ‡d 1978-....
- 100 1 _ ‡a Moro, Cédric ‡d 1978-...
4xx's: Alternate Name Forms (1)
Works
Title | Sources |
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Adipocyte Exosomes Promote Melanoma Aggressiveness through Fatty Acid Oxidation: A Novel Mechanism Linking Obesity and Cancer. | |
Altered skeletal muscle lipase expression and activity contribute to insulin resistance in humans | |
Approche immunométabolique du traitement de l'obésité par une activation de la voie PPARβ/δ ou un apport en acide α-lipoïque dans une étude translationnelle | |
The atrial natriuretic peptide- and catecholamine-induced lipolysis and expression of related genes in adipose tissue in hypothyroid and hyperthyroid patients | |
Atrial natriuretic peptide stimulates lipid mobilization during repeated bouts of endurance exercise. | |
Attenuated atrial natriuretic peptide-mediated lipolysis in subcutaneous adipocytes of obese type 2 diabetic men. | |
Caloric Restriction and Diet-Induced Weight Loss Do Not Induce Browning of Human Subcutaneous White Adipose Tissue in Women and Men with Obesity. | |
Central chronic apelin infusion decreases energy expenditure and thermogenesis in mice. | |
Chronic apelin treatment improves hepatic lipid metabolism in obese and insulin-resistant mice by an indirect mechanism. | |
Comment on: Lazo et al. NH2-terminal pro-brain natriuretic peptide and risk of diabetes. Diabetes 2013;62:3189-3193. | |
Comment on: Sitnick et al. Skeletal muscle triacylglycerol hydrolysis does not influence metabolic complications of obesity. Diabetes 2013;62:3350-3361. | |
Commentary on: Increase in visceral fat per se does not induce insulin resistance in the canine model | |
Defective Natriuretic Peptide Receptor Signaling in Skeletal Muscle Links Obesity to Type 2 Diabetes | |
Does Insulin Resistance Trigger Natriuretic Peptide Deficiency? | |
Effect of Human Myotubes-Derived Media on Glucose-Stimulated Insulin Secretion. | |
Endurance exercise training up-regulates lipolytic proteins and reduces triglyceride content in skeletal muscle of obese subjects | |
Epigenetic imprinting of human skeletal muscle cells beyond metabolic diseases | |
Étude du rôle des lipases musculaires dans la régulation du métabolisme des lipides et de la sensibilité à l'insuline | |
Exercise-like effects by Estrogen-related receptor-gamma in muscle do not prevent insulin resistance in db/db mice. | |
Extracellular Fluid Volume Expansion Uncovers a Natriuretic Action of GLP-1: A Functional GLP-1-Renal Axis in Man | |
Fatty acids from fat cell lipolysis do not activate an inflammatory response but are stored as triacylglycerols in adipose tissue macrophages | |
From lipid droplet to intramuscular adipocytes : towards a causal link with insulin resistance. | |
Galanin enhances systemic glucose metabolism through enteric Nitric Oxide Synthase-expressed neurons. | |
Hyperglycaemia and perivascular adipose tissue, two triggers in vascular dysfunction : Impact of oxidative stress-eNOS pathway and effect of exercise training. | |
Hyperglycémie et tissu adipeux, deux acteurs de la dysfonction vasculaire : implication du couple stress oxydant - eNOS et modulation par l'exercice physique | |
Immune Cell Toll-like Receptor 4 Mediates the Development of Obesity- and Endotoxemia-Associated Adipose Tissue Fibrosis | |
Immunometabolic approach to the obesity treatment by activating the PPARβ/δ pathway or alpha-lipoic acid intake in a translational study. | |
Increased oral sodium chloride intake in humans amplifies selectively postprandial GLP-1 but not GIP, CCK, and gastrin in plasma | |
Influence of gender, obesity, and muscle lipase activity on intramyocellular lipids in sedentary individuals | |
Influence of lipolysis and fatty acid availability on fuel selection during exercise. | |
Intramyocellular fat storage in metabolic diseases. | |
Lipid oxidation according to intensity and exercise duration in overweight men and women. | |
Long-term follow-up of muscle lipid accumulation, mitochondrial activity and oxidative stress and their relationship with impaired glucose homeostasis in high fat high fructose diet-fed rats | |
Metformin Promotes Anxiolytic and Antidepressant-Like Responses in Insulin-Resistant Mice by Decreasing Circulating Branched-Chain Amino Acids | |
Muscle insulin resistance : role of sphingolipid metabolism. | |
Myotubes from severely obese type 2 diabetic subjects accumulate less lipids and show higher lipolytic rate than myotubes from severely obese non-diabetic subjects | |
Natriuretic peptides: a new lipolytic pathway in human fat cells | |
Natriuretic peptides enhance the oxidative capacity of human skeletal muscle. | |
Natriuretic Peptides in Cardiovascular and Metabolic Crosstalk: Implications for Hypertension Management | |
Natriuretic peptides promote glucose uptake in a cGMP-dependent manner in human adipocytes. | |
Novel Insights and Mechanisms of Lipotoxicity-Driven Insulin Resistance | |
Nuclear HMGB1 protects from nonalcoholic fatty liver disease through negative regulation of liver X receptor | |
Palmitic acid follows a different metabolic pathway than oleic acid in human skeletal muscle cells; lower lipolysis rate despite an increased level of adipose triglyceride lipase | |
Perilipin 5 fine-tunes lipid oxidation to metabolic demand and protects against lipotoxicity in skeletal muscle. | |
Plasma Levels and Adipose Tissue Messenger Ribonucleic Acid Expression of Retinol-Binding Protein 4 Are Reduced during Calorie Restriction in Obese Subjects but Are Not Related to Diet-Induced Changes in Insulin Sensitivity | |
Potassium homeostasis : study of the physiological mechanisms involved during potassium restriction and during gestation. | |
Primary defects in lipid handling and resistance to exercise in myotubes from obese donors with and without type 2 diabetes | |
Primary defects in lipolysis and insulin action in skeletal muscle cells from type 2 diabetic individuals. | |
Profiling of adipokines secreted from human subcutaneous adipose tissue in response to PPAR agonists | |
Regulation of skeletal muscle lipolysis and oxidative metabolism by the co-lipase CGI-58 | |
The Release of Adipose Stromal Cells from Subcutaneous Adipose Tissue Regulates Ectopic Intramuscular Adipocyte Deposition | |
Renal extraction and acute effects of glucagon-like peptide-1 on central and renal hemodynamics in healthy men | |
Rôle de la synthèse de novo des céramides hépatiques dans l'homéostasie énergétique chez la souris : caractérisation d'un modèle de souris déficientes en sérine palmitoyltransférase 2 dans les hépatocytes | |
Rôle de l'IMAT dans les altérations métaboliques et anaboliques musculaires associées au vieillissement | |
Rôle de TREM-1 au cours de l'obésité et de ses complications | |
Rôle des mécanismes régulateurs de l'inflammation dans le développement de l'insulinorésistance chez des sujets obèses sans comorbidités associées | |
Rôle du système ANP/GC-A dans le maintien de l'homéostasie énergétique et le développement du diabète de type 2 | |
Rôle du système endocannabinoïde périphérique dans l'apparition des désordres métaboliques liés à l'obésité : Implication des endocannabinoïdes produits par le tissu adipeux. | |
Role of IMAT in muscle metabolic and anabolic alterations associated with aging. | |
Role of mPGES-1 in the development of chronic low grade inflammation and obesity. | |
Role of natriuretic peptides in the control of glucose homeostasis. | |
Role of RelB and its phosphorylation on serine 472 in metabolism deregulations in vitro and in vivo. | |
Role of the peripheral endocannabinoid system in the obesity-linked metabolic disorders genesis : Involvement of adipose tissue derived endocannabinoids.. | |
Role of TREM-1 during obesity and related complications. | |
Rôle physiologique des peptides natriurétiques dans le contrôle de la mobilisation des lipides chez l'homme | |
Sex differences in lipolysis-regulating mechanisms in overweight subjects: effect of exercise intensity. | |
Skeletal muscle mitochondrial capacity and insulin resistance in type 2 diabetes | |
Sphingolipids : new regulators of muscle mass and function ?. | |
Study of muscular lipase function on lipid metabolism and insulin sensitivity. | |
Study of the seipin functions in mature adipocyte : roles in calcium homeostasis, mitochondrial activity and lipid profil. | |
Targeting cardiac natriuretic peptides in the therapy of diabetes and obesity. | |
Training enhances ANP lipid-mobilizing action in adipose tissue of overweight men. | |
Transient Receptor Potential Canonical 3 (TRPC3) Channels Are Required for Hypothalamic Glucose Detection and Energy Homeostasis. | |
White-to-brite conversion in human adipocytes promotes metabolic reprogramming towards fatty acid anabolic and catabolic pathways. |