2024
Hypothalamic hormone deficiency enables physiological anorexia in ground squirrels during hibernation
Mohr S, Dai Pra R, Platt M, Feketa V, Shanabrough M, Varela L, Kristant A, Cao H, Merriman D, Horvath T, Bagriantsev S, Gracheva E. Hypothalamic hormone deficiency enables physiological anorexia in ground squirrels during hibernation. Nature Communications 2024, 15: 5803. PMID: 38987241, PMCID: PMC11236985, DOI: 10.1038/s41467-024-49996-2.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnorexiaArcuate Nucleus of HypothalamusArousalFeeding BehaviorFemaleGhrelinHibernationHypothalamusLeptinMaleNeuronsSciuridaeSeasonsThyroid HormonesConceptsHypothalamic feeding centersHormone deficiencyHypothalamic arcuate nucleus neuronsArcuate nucleus neuronsThyroid hormone deficiencyFeeding centerEffects of ghrelinAnorexigenic effectNucleus neuronsPhysiological anorexiaThyroid hormonesNormal physiological functionsGround squirrelsInterbout arousalAnorexiaThirteen-lined ground squirrelsProlonged periodReduced sensitivityPhysiological functionsDeficiency
2018
Effects of myeloid sirtuin 1 deficiency on hypothalamic neurogranin in mice fed a high-fat diet
Kim KE, Jeong EA, Shin HJ, Lee JY, Choi EB, An HS, Park KA, Jin Z, Lee DK, Horvath TL, Roh GS. Effects of myeloid sirtuin 1 deficiency on hypothalamic neurogranin in mice fed a high-fat diet. Biochemical And Biophysical Research Communications 2018, 508: 123-129. PMID: 30471862, DOI: 10.1016/j.bbrc.2018.11.126.Peer-Reviewed Original ResearchConceptsHigh-fat dietHypothalamic inflammationSIRT1 deletionWT miceInsulin resistanceKO miceFood intakeNeurogranin expressionParvalbumin protein levelsSIRT1 knockout miceAnorexigenic proopiomelanocortinArcuate nucleusVentromedial hypothalamusHigher food intakeHFDKnockout miceLow expressionMiceWeight gainInflammationProtein levelsNeurograninHypothalamusIntakeDiet
2017
Regulation of body weight and energy homeostasis by neuronal cell adhesion molecule 1
Rathjen T, Yan X, Kononenko NL, Ku MC, Song K, Ferrarese L, Tarallo V, Puchkov D, Kochlamazashvili G, Brachs S, Varela L, Szigeti-Buck K, Yi CX, Schriever SC, Tattikota SG, Carlo AS, Moroni M, Siemens J, Heuser A, van der Weyden L, Birkenfeld AL, Niendorf T, Poulet JFA, Horvath TL, Tschöp MH, Heinig M, Trajkovski M, Haucke V, Poy MN. Regulation of body weight and energy homeostasis by neuronal cell adhesion molecule 1. Nature Neuroscience 2017, 20: 1096-1103. PMID: 28628102, PMCID: PMC5533218, DOI: 10.1038/nn.4590.Peer-Reviewed Original ResearchCannabinoid type 1 receptor-containing axons innervate NPY/AgRP neurons in the mouse arcuate nucleus
Morozov YM, Koch M, Rakic P, Horvath TL. Cannabinoid type 1 receptor-containing axons innervate NPY/AgRP neurons in the mouse arcuate nucleus. Molecular Metabolism 2017, 6: 374-381. PMID: 28377876, PMCID: PMC5369208, DOI: 10.1016/j.molmet.2017.01.004.Peer-Reviewed Original ResearchMeSH KeywordsAgouti-Related ProteinAnimalsArcuate Nucleus of HypothalamusAxonsMiceMice, Inbred C57BLNeuropeptide YReceptor, Cannabinoid, CB1
2016
Hypothalamic TLR2 triggers sickness behavior via a microglia-neuronal axis
Jin S, Kim JG, Park JW, Koch M, Horvath TL, Lee BJ. Hypothalamic TLR2 triggers sickness behavior via a microglia-neuronal axis. Scientific Reports 2016, 6: 29424. PMID: 27405276, PMCID: PMC4942617, DOI: 10.1038/srep29424.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnorexiaArcuate Nucleus of HypothalamusCyclooxygenase InhibitorsEnergy MetabolismFeverInflammationLipopeptidesMaleMiceMice, KnockoutMicrogliaMyeloid Differentiation Factor 88NF-kappa BPro-OpiomelanocortinRatsReceptor, Melanocortin, Type 3Receptor, Melanocortin, Type 4Toll-Like Receptor 2Weight LossConceptsSickness behaviorHypothalamic inflammationToll-like receptor 2 (TLR2) activationSickness behavior symptomsNuclear factor kappa BBody weight lossReceptor 2 activationFactor kappa BNeuronal circuit functionHypothalamic microgliaProopiomelanocortin neuronsInflammatory mechanismsIntracerebroventricular injectionPathophysiologic mechanismsTLR2 activationInflammatory processCyclooxygenase pathwayNeuronal activationKappa BBehavior symptomsWeight lossInput organizationMicrogliaTLR2Inflammation
2015
AgRP Neurons Regulate Bone Mass
Kim JG, Sun BH, Dietrich MO, Koch M, Yao GQ, Diano S, Insogna K, Horvath TL. AgRP Neurons Regulate Bone Mass. Cell Reports 2015, 13: 8-14. PMID: 26411686, PMCID: PMC5868421, DOI: 10.1016/j.celrep.2015.08.070.Peer-Reviewed Original ResearchMeSH KeywordsAgouti-Related ProteinAnimalsArcuate Nucleus of HypothalamusBone DensityBone Diseases, MetabolicFemurGene Expression RegulationHomeostasisHypothalamusIon ChannelsLeptinMaleMiceMice, KnockoutMitochondrial ProteinsNeuronsNorepinephrinePhenotypePropranololReceptors, Adrenergic, betaReceptors, LeptinSignal TransductionSirtuin 1TibiaUncoupling Protein 2ConceptsAgRP neuronsCell-autonomous deletionSignificant regulatory roleAgRP neuronal functionBone massLeptin receptor deletionSkeletal bone metabolismTransgenic animalsRegulatory roleGene deletionBone homeostasisDeletionNeuronal functionPostnatal deletionSympathetic toneReceptor deletionArcuate nucleusLeptin actionBone metabolismSkeletal metabolismMultiple linesNeuronsMiceMetabolismCircuit integrity
2014
Mitochondrial dynamics in the central regulation of metabolism
Nasrallah CM, Horvath TL. Mitochondrial dynamics in the central regulation of metabolism. Nature Reviews Endocrinology 2014, 10: 650-658. PMID: 25200564, DOI: 10.1038/nrendo.2014.160.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusDiabetes Mellitus, Type 2Energy IntakeEnergy MetabolismHumansMitochondriaMitochondrial DynamicsMitochondrial ProteinsNeuronsObesityConceptsPOMC neuronsMetabolic disordersPeripheral tissue functionsCentral melanocortin systemMitochondrial dynamicsProopiomelanocortin neuronsAnorexigenic responseOrexigenic responseHypothalamic neuronsCentral regulationMelanocortin systemNeuronsDistinct signaling pathwaysSignaling pathwaysMitochondrial fusionMolecular regulatorsTissue functionDistinct functionsDisordersFatty acidsMetabolismActivationObesityAppetiteResponse
2012
Loss of Autophagy in Pro-opiomelanocortin Neurons Perturbs Axon Growth and Causes Metabolic Dysregulation
Coupé B, Ishii Y, Dietrich MO, Komatsu M, Horvath TL, Bouret SG. Loss of Autophagy in Pro-opiomelanocortin Neurons Perturbs Axon Growth and Causes Metabolic Dysregulation. Cell Metabolism 2012, 15: 247-255. PMID: 22285542, PMCID: PMC3278575, DOI: 10.1016/j.cmet.2011.12.016.Peer-Reviewed Original ResearchMeSH KeywordsAdiposityAnimalsArcuate Nucleus of HypothalamusAutophagyAutophagy-Related Protein 7AxonsBody WeightGlucose IntoleranceImmunoblottingMetabolic Networks and PathwaysMiceMicroscopy, ElectronMicrotubule-Associated ProteinsNeuronsPro-OpiomelanocortinTranscription Factor TFIIHTranscription FactorsUbiquitinConceptsPOMC neuronsHypothalamic melanocortin systemPathogenesis of obesityImportant intracellular mechanismNormal metabolic regulationP62-positive aggregatesFunctional neural systemsGlucose intoleranceAge-dependent accumulationNeonatal lifeAxonal projectionsMetabolic dysregulationMetabolic impairmentMelanocortin systemEssential autophagy geneBody weightLoss of autophagyMajor negative regulatorAxon growthIntracellular mechanismsNeuronsAutophagy deficiencyNeural developmentDirect genetic evidenceAtg7
2011
Effects of chronic weight perturbation on energy homeostasis and brain structure in mice
Ravussin Y, Gutman R, Diano S, Shanabrough M, Borok E, Sarman B, Lehmann A, LeDuc CA, Rosenbaum M, Horvath TL, Leibel RL. Effects of chronic weight perturbation on energy homeostasis and brain structure in mice. AJP Regulatory Integrative And Comparative Physiology 2011, 300: r1352-r1362. PMID: 21411766, PMCID: PMC3119157, DOI: 10.1152/ajpregu.00429.2010.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusBody CompositionBody WeightBrainCaloric RestrictionDietary FatsEnergy MetabolismHomeostasisMaleMiceMice, Inbred C57BLModels, AnimalNeuronsSynapsesWeight GainWeight LossConceptsDiet-induced obeseEnergy expenditureArcuate nucleus proopiomelanocortin neuronsWeight lossWeight-reduced individualsSustained weight lossReduced body weightObese human subjectsCentral nervous systemHuman subjectsSustained weight gainProopiomelanocortin neuronsBody massUpward resettingMale miceExcitatory synapsesBody fatMouse modelBody weightNervous systemSynaptic changesPersistent decreaseEnergy homeostasisWeight gainBrain structures
2010
Estrogen Promotes Parvalbumin Expression in Arcuate Nucleus POMC Neurons
Sotonyi P, Gao Q, Bechmann I, Horvath TL. Estrogen Promotes Parvalbumin Expression in Arcuate Nucleus POMC Neurons. Reproductive Sciences 2010, 17: 1077-1080. PMID: 20713969, DOI: 10.1177/1933719110379651.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusEstradiolFemaleFluorescent Antibody TechniqueMicroscopy, FluorescenceNeuronsParvalbuminsPro-OpiomelanocortinRatsRats, Sprague-DawleyConceptsPOMC neuronsArcuate nucleus neuronsLean body massSuppression of feedingSuppress appetiteParvalbumin expressionEstrogen treatmentHypothalamic neuronsArcuate nucleusNeuronal degenerationNucleus neuronsFemale miceCalcium overloadExcitatory activityCalcium-binding proteinsCalcium influxReceptor presenceCalcium entrySustained satietyNeuronsEnergy expenditureEstradiolParvalbuminAppetiteBody massCorticosterone Regulates Synaptic Input Organization of POMC and NPY/AgRP Neurons in Adult Mice
Gyengesi E, Liu ZW, D'Agostino G, Gan G, Horvath TL, Gao XB, Diano S. Corticosterone Regulates Synaptic Input Organization of POMC and NPY/AgRP Neurons in Adult Mice. Endocrinology 2010, 151: 5395-5402. PMID: 20843996, PMCID: PMC2954711, DOI: 10.1210/en.2010-0681.Peer-Reviewed Original ResearchMeSH KeywordsAdrenalectomyAgouti-Related ProteinAnalysis of VarianceAnimalsArcuate Nucleus of HypothalamusCorticosteroneElectrophysiologyMembrane PotentialsMiceNeuronsNeuropeptide YPro-OpiomelanocortinSynapsesConceptsNPY/AgRP neuronsSynaptic input organizationSham-operated controlsAgRP neuronsADX miceCorticosterone replacementNeuropeptide YArcuate nucleusSynaptic arrangementsInput organizationPair-fed control animalsPutative excitatory synapsesPutative inhibitory synapsesHypothalamic arcuate nucleusEffects of adrenalectomySham-operated animalsNumber of synapsesPOMC neuronsProtein (AgRP) neuronsOrexigenic actionMembrane potentialSynaptic analysisInhibitory synapsesExcitatory synapsesFood intakeGonadotropin-Releasing Hormone Fibers Contact POMC Neurons in the Hypothalamic Arcuate Nucleus
Sotonyi P, Mezei G, Racz B, Dallman MF, Abizaid A, Horvath TL. Gonadotropin-Releasing Hormone Fibers Contact POMC Neurons in the Hypothalamic Arcuate Nucleus. Reproductive Sciences 2010, 17: 1024-1028. PMID: 20713970, DOI: 10.1177/1933719110378346.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusFemaleGonadotropin-Releasing HormoneMiceNerve FibersNeuronsPresynaptic TerminalsPro-OpiomelanocortinConceptsArcuate nucleusGonadotropin-releasing hormone (GnRH) neuronsPOMC cell bodiesEnergy expenditureHypothalamic arcuate nucleusHypothalamic neuronal populationsMelanocyte stimulating hormoneHormone neuronsPOMC neuronsAnorexigenic proopiomelanocortinStimulating hormoneAnatomical proximityAxon terminalsGonadal axisGlucose homeostasisPeripheral signalsNeuronal populationsCell bodiesDirect appositionGnRHEnergy metabolismNeuronsMetabolic stateHormoneProopiomelanocortinSynaptic input organization of the melanocortin system predicts diet-induced hypothalamic reactive gliosis and obesity
Horvath TL, Sarman B, García-Cáceres C, Enriori PJ, Sotonyi P, Shanabrough M, Borok E, Argente J, Chowen JA, Perez-Tilve D, Pfluger PT, Brönneke HS, Levin BE, Diano S, Cowley MA, Tschöp MH. Synaptic input organization of the melanocortin system predicts diet-induced hypothalamic reactive gliosis and obesity. Proceedings Of The National Academy Of Sciences Of The United States Of America 2010, 107: 14875-14880. PMID: 20679202, PMCID: PMC2930476, DOI: 10.1073/pnas.1004282107.Peer-Reviewed Original ResearchConceptsHigh-fat dietSynaptic input organizationReactive gliosisPOMC neuronsDIO ratsDR ratsArcuate nucleusMelanocortin systemPOMC cellsNeuropeptide Y cellsInput organizationLoss of synapsesDiet-induced obesityBlood-brain barrierHFD-fed animalsDIO animalsAnorexigenic proopiomelanocortinGlial ensheathmentSynaptic organizationInhibitory inputsLean ratsDR animalsNeuronal circuitsCell bodiesGliosis
2007
A Central Thermogenic-like Mechanism in Feeding Regulation: An Interplay between Arcuate Nucleus T3 and UCP2
Coppola A, Liu ZW, Andrews ZB, Paradis E, Roy MC, Friedman JM, Ricquier D, Richard D, Horvath TL, Gao XB, Diano S. A Central Thermogenic-like Mechanism in Feeding Regulation: An Interplay between Arcuate Nucleus T3 and UCP2. Cell Metabolism 2007, 5: 21-33. PMID: 17189204, PMCID: PMC1783766, DOI: 10.1016/j.cmet.2006.12.002.Peer-Reviewed Original ResearchMeSH KeywordsAgouti-Related ProteinAnimalsArcuate Nucleus of HypothalamusEatingFastingFeeding BehaviorGreen Fluorescent ProteinsGuanosine DiphosphateHypothalamusIntercellular Signaling Peptides and ProteinsIodide PeroxidaseIon ChannelsMiceMice, Inbred C57BLMice, KnockoutMitochondriaMitochondrial ProteinsNeurogliaNeuronsNeuropeptide YProto-Oncogene Proteins c-fosThermogenesisTriiodothyronineUncoupling Protein 2ConceptsUncoupling protein 2Mitochondrial uncoupling protein 2Thyroid hormone productionProtein activityType 2 deiodinaseMitochondrial proliferationNeuropeptide YArcuate nucleusPhysiological roleMitochondrial uncouplingUCP2 activationProtein 2Hormone productionNPY/AgRP neuronsPhysiological significanceActive thyroid hormoneHypothalamic arcuate nucleusHypothalamic neuronal networksGlial cellsRebound feedingAgRP neuronsOrexigenic neuronsDeiodinaseDII activityPeripheral tissues
2006
Anorectic estrogen mimics leptin's effect on the rewiring of melanocortin cells and Stat3 signaling in obese animals
Gao Q, Mezei G, Nie Y, Rao Y, Choi CS, Bechmann I, Leranth C, Toran-Allerand D, Priest CA, Roberts JL, Gao XB, Mobbs C, Shulman GI, Diano S, Horvath TL. Anorectic estrogen mimics leptin's effect on the rewiring of melanocortin cells and Stat3 signaling in obese animals. Nature Medicine 2006, 13: 89-94. PMID: 17195839, DOI: 10.1038/nm1525.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnorexiaArcuate Nucleus of HypothalamusBody WeightEstradiolEstrogen Receptor alphaExcitatory Postsynaptic PotentialsFemaleInjections, IntraventricularLeptinMaleMelanocortinsMiceMice, Inbred C57BLMice, KnockoutMice, ObeseMicroscopy, ElectronNeuronsObesityOvariectomyPro-OpiomelanocortinRatsRats, Sprague-DawleySignal TransductionSTAT3 Transcription FactorConceptsArcuate nucleusFood intakeLeptin receptor-deficient miceGonadal steroid estradiolRearrangement of synapsesReceptor-deficient miceBody weight regulationBody weight gainWild-type ratsPOMC neuronsLeptin effectsExcitatory inputsMetabolic hormonesLeptin receptorObese animalsSteroids estradiolWeight regulationBody weightSynaptic plasticityWeight gainRobust increaseInput organizationSTAT3 activationEnergy expenditureAdipositySynaptic Plasticity in Energy Balance Regulation
Horvath TL. Synaptic Plasticity in Energy Balance Regulation. Obesity 2006, 14: 228s-233s. PMID: 17021372, DOI: 10.1038/oby.2006.314.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusEnergy MetabolismEstradiolGhrelinMiceMice, ObeseNeuronal PlasticityNeuropeptide YPeptide HormonesPro-OpiomelanocortinConceptsOb/ob miceNumber of excitatoryNeuropeptide YSynaptic plasticityPOMC neuronsOb miceFood intakeBehavioral effectsLeptin receptor-deficient miceRearrangement of synapsesLeptin-deficient miceReceptor-deficient miceHypothalamic arcuate nucleusOb/obEnergy balance regulationWild-type miceInfluences brain functionObserved synaptic plasticityWild-type animalsProopiomelanocortin neuronsAnorexigenic hormonesOrexigenic hormonePost-synaptic densityGlutamate inputsExtrahypothalamic sites
2005
Agouti-related peptide–expressing neurons are mandatory for feeding
Gropp E, Shanabrough M, Borok E, Xu AW, Janoschek R, Buch T, Plum L, Balthasar N, Hampel B, Waisman A, Barsh GS, Horvath TL, Brüning JC. Agouti-related peptide–expressing neurons are mandatory for feeding. Nature Neuroscience 2005, 8: 1289-1291. PMID: 16158063, DOI: 10.1038/nn1548.Peer-Reviewed Original ResearchMeSH KeywordsAgouti-Related ProteinAnimalsAnorexiaArcuate Nucleus of HypothalamusBeta-GalactosidaseBody WeightCell CountDiphtheria ToxinEatingFeeding BehaviorGene Expression RegulationIntercellular Signaling Peptides and ProteinsMiceMice, KnockoutNeuronsNeuropeptide YPro-OpiomelanocortinProteinsTime Factors
2004
Rapid Rewiring of Arcuate Nucleus Feeding Circuits by Leptin
Pinto S, Roseberry AG, Liu H, Diano S, Shanabrough M, Cai X, Friedman JM, Horvath TL. Rapid Rewiring of Arcuate Nucleus Feeding Circuits by Leptin. Science 2004, 304: 110-115. PMID: 15064421, DOI: 10.1126/science.1089459.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArcuate Nucleus of HypothalamusBody WeightEatingEvoked PotentialsExcitatory Postsynaptic PotentialsFeeding BehaviorGamma-Aminobutyric AcidGhrelinGlutamic AcidGreen Fluorescent ProteinsIn Vitro TechniquesLeptinLuminescent ProteinsMiceMice, ObeseMice, TransgenicNeuronal PlasticityNeuronsNeuropeptide YPatch-Clamp TechniquesPeptide HormonesPro-OpiomelanocortinRecombinant Fusion ProteinsSynapsesTetrodotoxinTransgenesConceptsProopiomelanocortin neuronsNeuropeptide YFat-derived hormone leptinBehavioral effectsOb/ob miceLeptin-deficient miceOb/obHypothalamic arcuate nucleusWild-type miceNumber of excitatoryArcuate nucleusLeptin effectsPostsynaptic currentsOb miceHormone leptinSynaptic densityInhibitory synapsesFood intakeNeuronal typesLeptinMiceNeuronsFeeding circuitRapid rewiringHours
2003
Estradiol affects axo-somatic contacts of neuroendocrine cells in the arcuate nucleus of adult rats
Parducz A, Zsarnovszky A, Naftolin F, Horvath TL. Estradiol affects axo-somatic contacts of neuroendocrine cells in the arcuate nucleus of adult rats. Neuroscience 2003, 117: 791-794. PMID: 12654332, DOI: 10.1016/s0306-4522(02)00967-3.Peer-Reviewed Original ResearchConceptsAxo-somatic contactsArcuate nucleusSynaptic plasticityGABAergic axo-somatic synapsesMorphological synaptic plasticityAxo-somatic synapsesEffects of estradiolSynapse quantificationArcuate neuronsTracer FluorogoldGonadal steroidsAnterior pituitaryAdult ratsHypophysiotropic neuronsMedian eminenceNervous systemTransient decreaseSystemic applicationNeuroendocrine cellsDisector methodNeuronsNumerical densityEstradiolFluorogoldCellsEstrogen, synaptic plasticity and hypothalamic reproductive aging
Hung AJ, Stanbury MG, Shanabrough M, Horvath TL, Garcia-Segura LM, Naftolin F. Estrogen, synaptic plasticity and hypothalamic reproductive aging. Experimental Gerontology 2003, 38: 53-59. PMID: 12543261, DOI: 10.1016/s0531-5565(02)00183-3.Peer-Reviewed Original ResearchConceptsConstant estrusReproductive agingEstrogen exposureMale ratsAnti-oxidant vitamin EEarly estrogen exposureArcuate nucleus neuronsHypothalamic arcuate nucleus neuronsConstant vaginal estrusHypothalamic failureEstradiol exposureGonadotrophin surgeOvarian estrogenArcuate nucleusConstant diestrusNucleus neuronsOvarian failureElevated estradiolPerikaryal membraneFemale ratsPerinatal periodTesticular androgensRat brainSex steroidsHormonal factors