2022
Ventromedial hypothalamic OGT drives adipose tissue lipolysis and curbs obesity
Wang Q, Zhang B, Stutz B, Liu ZW, Horvath TL, Yang X. Ventromedial hypothalamic OGT drives adipose tissue lipolysis and curbs obesity. Science Advances 2022, 8: eabn8092. PMID: 36044565, PMCID: PMC9432828, DOI: 10.1126/sciadv.abn8092.Peer-Reviewed Original ResearchConceptsVentromedial hypothalamusWhite adipose tissueVMH neuronsAdipose tissueBody weightLipid metabolismRapid weight gainCounterregulatory responsesSympathetic activitySympathetic innervationAdipocyte hypertrophyTissue lipolysisNeuronal excitabilityFood intakePhysical activityObesity phenotypesGenetic ablationWeight gainHomeostatic set pointEnergy expenditureNeuronsInnervationLipolysisSignificant changesCellular sensors
2021
Astrocytic lipid metabolism determines susceptibility to diet-induced obesity
Varela L, Kim JG, Fernández-Tussy P, Aryal B, Liu ZW, Fernández-Hernando C, Horvath TL. Astrocytic lipid metabolism determines susceptibility to diet-induced obesity. Science Advances 2021, 7: eabj2814. PMID: 34890239, PMCID: PMC11323787, DOI: 10.1126/sciadv.abj2814.Peer-Reviewed Original ResearchDiet-induced obesityHypothalamic astrocytesPeroxisome proliferator-activated receptor gammaHypothalamic neuronal circuitsProliferator-activated receptor gammaControl of feedingFatty acid homeostasisSystemic glucoseMetabolic milieuGlucose homeostasisBody weightReceptor gammaSynaptic plasticityNeuronal circuitsNutrient sensingLipid metabolismCellular adaptationObesityAstrocytesAcid homeostasisUnidentified roleFA metabolismEnergy metabolismElevated susceptibilityAvailability of FA
2018
Brown adipose tissue derived ANGPTL4 controls glucose and lipid metabolism and regulates thermogenesis
Singh AK, Aryal B, Chaube B, Rotllan N, Varela L, Horvath TL, Suárez Y, Fernández-Hernando C. Brown adipose tissue derived ANGPTL4 controls glucose and lipid metabolism and regulates thermogenesis. Molecular Metabolism 2018, 11: 59-69. PMID: 29627378, PMCID: PMC6001401, DOI: 10.1016/j.molmet.2018.03.011.Peer-Reviewed Original ResearchConceptsBrown adipose tissueAdipose tissueAbsence of ANGPTL4Lipoprotein metabolismLPL activityShort-term HFD feedingTriglyceride-rich lipoprotein catabolismLipoprotein lipaseRole of ANGPTL4Novel mouse modelAcute cold exposureGlucose toleranceHFD feedingFatty acidsLipoprotein catabolismWhole body lipidGlucose homeostasisMouse modelGlucose metabolismTAG clearanceBAT resultsLipid metabolismANGPTL4Cold exposureFA oxidation
2015
Mitochondria in Control of Hypothalamic Metabolic Circuits
Nasrallah C, Horvath T. Mitochondria in Control of Hypothalamic Metabolic Circuits. 2015, 186-202. DOI: 10.1002/9781119017127.ch8.Peer-Reviewed Original ResearchPOMC neuronsNutritional statusBody nutritional statusAgRP neuronsGhrelin increasesLeptin levelsFood intakeCentral regulationGlucose levelsMetabolic disordersNeuronal functionPrimary siteLipid metabolismMetabolic principlesMitochondrial dysfunctionNeuronsCessation of feedingBioenergetic adaptationImportant contributorMitochondrial dynamicsMetabolic circuitsHypothalamusDysfunctionSatietyIntake
2014
Clozapine promotes glycolysis and myelin lipid synthesis in cultured oligodendrocytes
Steiner J, Martins-de-Souza D, Schiltz K, Sarnyai Z, Westphal S, Isermann B, Dobrowolny H, Turck CW, Bogerts B, Bernstein HG, Horvath TL, Schild L, Keilhoff G. Clozapine promotes glycolysis and myelin lipid synthesis in cultured oligodendrocytes. Frontiers In Cellular Neuroscience 2014, 8: 384. PMID: 25477781, PMCID: PMC4235405, DOI: 10.3389/fncel.2014.00384.Peer-Reviewed Original ResearchMyelin lipid synthesisMetabolic side effectsAdverse metabolic effectsEffects of clozapineHigh extracellular levelsOLN-93 oligodendrocytesRelease of lactateExpression of galactocerebrosideWhite matter integrityExpression of glucoseLipid synthesisOligodendrocyte dysfunctionFree fatty acidsLactate levelsMetabolic effectsGlucose metabolismSide effectsSchizophrenia therapyExtracellular levelsMyelin lipid metabolismClozapineLipid metabolismHaloperidolGlucose uptakeOligodendrocytes
2011
Mitochondrial uncoupling protein 2 (UCP2) in glucose and lipid metabolism
Diano S, Horvath TL. Mitochondrial uncoupling protein 2 (UCP2) in glucose and lipid metabolism. Trends In Molecular Medicine 2011, 18: 52-58. PMID: 21917523, DOI: 10.1016/j.molmed.2011.08.003.Peer-Reviewed Original ResearchConceptsProtein 2Lipid metabolismExcess of nutrientsHypothalamic neuronal circuitsNutrient availabilityPeripheral tissue functionsPhysiological functionsMetabolism regulationChronic diseasesMetabolism-related chronic diseasesTissue functionFuture therapeutic strategiesPathological processesPeripheral mechanismsLipid levelsNeuronal circuitsTherapeutic strategiesMetabolismImpairs healthMitochondriaDiseaseUCP2GlucoseRegulationNutrients