0000000000117889

AUTHOR

Nicolas Wiernsperger

showing 5 related works from this author

Metformin induces an agonist-specific increase in albumin production by primary cultured rat hepatocytes

1995

Abstract Metformin (MET) is known to increase several biological effects of insulin (INS), but there is no information concerning its direct effects on protein synthesis. We studied the action of MET on albumin production by primary cultures of freshly isolated rat hepatocytes, alone or in combination with various agonists: INS, IGF-1, EGF, thyroxin, and dexamethasone. While having no effect alone, MET in vitro potentiates the effects of INS, IGF-1, and EGF. When this increasing effect toward INS was studied over a broad concentration range, MET appeared to improve low-acting INS levels and to intensify the maximal INS effects. In contrast, MET did not change the production of albumin stimu…

MaleAgonistmedicine.medical_specialtyTime FactorsCell Survivalmedicine.drug_classBiologyBiochemistryIn vivoCell surface receptorAlbuminsInternal medicinemedicineAnimalsInsulinInsulin-Like Growth Factor IRats WistarCells CulturedPharmacologyEpidermal Growth FactorBody WeightAlbuminMetforminIn vitroRatsMetforminmedicine.anatomical_structureEndocrinologyLiverCell cultureHepatocytemedicine.drugBiochemical Pharmacology
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Fructose and cardiometabolic disorders: the controversy will, and must, continue

2010

The present review updates the current knowledge on the question of whether high fructose consumption is harmful or not and details new findings which further pushes this old debate. Due to large differences in its metabolic handling when compared to glucose, fructose was indeed suggested to be beneficial for the diet of diabetic patients. However its growing industrial use as a sweetener, especially in soft drinks, has focused attention on its potential harmfulness, possibly leading to dyslipidemia, obesity, insulin resistance/metabolic syndrome and even diabetes. Many new data have been generated over the last years, confirming the lipogenic effect of fructose as well as risks of vascular…

medicine.medical_specialtyReviewFructoseBiologyBioinformaticschemistry.chemical_compoundInsulin resistanceRisk FactorsInternal medicineDiabetes mellitusmedicineHumansVascular DiseasesTriglyceridesHypertriglyceridemialcsh:R5-920HypertriglyceridemiaFructoseGeneral Medicinemedicine.diseaseObesityMetabolic syndromeDietEndocrinologychemistryLiverSweetening AgentsHypertensionUric acidMetabolic syndromelcsh:Medicine (General)Uric acidDyslipidemiaClinics
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Possible links between intestinal permeablity and food processing: a potential therapeutic niche for glutamine

2010

Increased intestinal permeability is a likely cause of various pathologies, such as allergies and metabolic or even cardiovascular disturbances. Intestinal permeability is found in many severe clinical situations and in common disorders such as irritable bowel syndrome. In these conditions, substances that are normally unable to cross the epithelial barrier gain access to the systemic circulation. To illustrate the potential harmfulness of leaky gut, we present an argument based on examples linked to protein or lipid glycation induced by modern food processing. Increased intestinal permeability should be largely improved by dietary addition of compounds, such as glutamine or curcumin, which…

Glycation End Products AdvancedCurcuminAllergyFood HandlingGlutamineInflammationBiologyIntestinal permeabilityIntestinal absorptionPermeabilitychemistry.chemical_compoundGlycationmedicineHumansIrritable bowel syndromeInflammationMetabolic Syndromelcsh:R5-920GlycationIntestinal permeabilityTight junctionGeneral Medicinemedicine.diseaseMetabolic syndromeDietGlutaminechemistryIntestinal AbsorptionBringing Ideas TogetherImmunologyDietary SupplementsCurcuminmedicine.symptomlcsh:Medicine (General)Gastrointestinal MotilityFood Hypersensitivity
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Trace elements in glucometabolic disorders: an update.

2010

International audience; Many trace elements, among which metals, are indispensable for proper functioning of a myriad of biochemical reactions, more particularly as enzyme cofactors. This is particularly true for the vast set of processes involved in regulation of glucose homeostasis, being it in glucose metabolism itself or in hormonal control, especially insulin. The role and importance of trace elements such as chromium, zinc, selenium, lithium and vanadium are much less evident and subjected to chronic debate. This review updates our actual knowledge concerning these five trace elements. A careful survey of the literature shows that while theoretical postulates from some key roles of th…

Endocrinology Diabetes and Metabolism030209 endocrinology & metabolismReviewBioinformatics03 medical and health sciences0302 clinical medicineInsulin resistancemedicineInternal Medicine[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologySDV:BBMBiochemical reactionsGlucose homeostasisIn patient[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyBeneficial effects[ SDV.BBM ] Life Sciences [q-bio]/Biochemistry Molecular Biologylcsh:RC620-627030304 developmental biology0303 health sciencesbusiness.industrymedicine.disease3. Good healthTrace (semiology)lcsh:Nutritional diseases. Deficiency diseasesbusiness
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The desert gerbil Psammomys obesus as a model for metformin-sensitive nutritional type 2 diabetes to protect hepatocellular metabolic damage: Impact …

2017

Introduction While metformin (MET) is the most widely prescribed antidiabetic drug worldwide, its beneficial effects in Psammomys obesus (P. obesus), a rodent model that mimics most of the metabolic features of human diabetes, have not been explored thoroughly. Here, we sought to investigate whether MET might improve insulin sensitivity, glucose homeostasis, lipid profile as well as cellular redox and energy balance in P. obesus maintained on a high energy diet (HED). Materials and methods P. obesus gerbils were randomly assigned to receive either a natural diet (ND) consisting of halophytic plants (control group) or a HED (diabetic group) for a period of 24 weeks. MET (50 mg/kg per os) was…

Male0301 basic medicinePhysiologymedicine.medical_treatment[SDV]Life Sciences [q-bio]Body-WeightRespiratory chainlcsh:MedicineMitochondria LiverBiochemistrychemistry.chemical_compoundLiver Parenchymal-CellsEndocrinologyGlucose MetabolismAnimal CellsKetogenesisMedicine and Health SciencesElectrochemistryGlucose homeostasisGut Microbiotalcsh:ScienceEnergy-Producing OrganellesComputingMilieux_MISCELLANEOUS2. Zero hungerMultidisciplinaryOrganic CompoundsMonosaccharidesFatty AcidsChemical ReactionsLipidsMetforminMitochondria3. Good healthChemistryPhysiological ParametersLiverPhysical SciencesCarbohydrate MetabolismCellular Structures and OrganellesCellular TypesAnatomyOxidation-ReductionResearch Articlemedicine.medical_specialtyIsolated Rat HepatocytesEndocrine DisordersCarbohydratesBioenergeticsBiologyCarbohydrate metabolism03 medical and health sciencesInsulin resistanceInternal medicineFood-IntakeDiabetes MellitusmedicineAnimalsHypoglycemic AgentsObesityRespiratory-Chain[ SDV ] Life Sciences [q-bio]Fatty acid metabolismInsulinBody WeightOrganic Chemistrylcsh:RChemical CompoundsGluconeogenesisBiology and Life SciencesCell Biologymedicine.diseaseGlucose-6-Phosphate HydrolysisDisease Models AnimalGlucoseMetabolism030104 developmental biologyEndocrinologyDiabetes Mellitus Type 2GluconeogenesischemistryMetabolic DisordersHepatocyteslcsh:QInsulin ResistanceGerbillinaeGlucose-ProductionFatty-Acid-MetabolismOxidation-Reduction Reactions
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