2023
Impaired Ghrelin Signaling Does Not Lead to Alterations of Anxiety-like Behaviors in Adult Mice Chronically Exposed to THC during Adolescence
Sestan-Pesa M, Shanabrough M, Horvath T, Miletta M. Impaired Ghrelin Signaling Does Not Lead to Alterations of Anxiety-like Behaviors in Adult Mice Chronically Exposed to THC during Adolescence. Biomedicines 2023, 11: 144. PMID: 36672651, PMCID: PMC9855766, DOI: 10.3390/biomedicines11010144.Peer-Reviewed Original ResearchAnxiety-like behaviorGrowth hormone secretagogue receptorTHC exposureAdult miceGHSR knockout miceDepression-like behaviorLate adolescenceWild-type littermatesLong-term useGHSR signalingGhrelin signalingSecretagogue receptorKnockout miceAnimal modelsTetrahydrocannabinol (THC) administrationMental illnessMiceSignificant alterationsGhrelinMarijuana useAdolescenceReceptorsProlonged periodExposureLong-term impact
2017
Ghrelin is Supressed by Intravenous Alcohol and is Related to Stimulant and Sedative Effects of Alcohol
Ralevski E, Horvath TL, Shanabrough M, Hayden R, Newcomb J, Petrakis I. Ghrelin is Supressed by Intravenous Alcohol and is Related to Stimulant and Sedative Effects of Alcohol. Alcohol And Alcoholism 2017, 52: 431-438. PMID: 28481974, DOI: 10.1093/alcalc/agx022.Peer-Reviewed Original ResearchConceptsGhrelin levelsDoses of alcoholHealthy social drinkersSubjective effectsTG levelsAlcohol infusionSedative effectsLow doseHigh doseOral alcohol administrationIntravenous alcohol infusionFeeding-related peptidesSocial drinkersAlcohol administrationIntravenous alcoholOral alcoholGhrelinPercent changeInfusionRewarding propertiesBehavioral effectsAlcohol effectsDoseTime pointsSignificant predictors
2015
Ghrelin
Müller T, Nogueiras R, Andermann M, Andrews Z, Anker S, Argente J, Batterham R, Benoit S, Bowers C, Broglio F, Casanueva F, D'Alessio D, Depoortere I, Geliebter A, Ghigo E, Cole P, Cowley M, Cummings D, Dagher A, Diano S, Dickson S, Diéguez C, Granata R, Grill H, Grove K, Habegger K, Heppner K, Heiman M, Holsen L, Holst B, Inui A, Jansson J, Kirchner H, Korbonits M, Laferrère B, LeRoux C, Lopez M, Morin S, Nakazato M, Nass R, Perez-Tilve D, Pfluger P, Schwartz T, Seeley R, Sleeman M, Sun Y, Sussel L, Tong J, Thorner M, van der Lely A, van der Ploeg L, Zigman J, Kojima M, Kangawa K, Smith R, Horvath T, Tschöp M. Ghrelin. Molecular Metabolism 2015, 4: 437-460. PMID: 26042199, PMCID: PMC4443295, DOI: 10.1016/j.molmet.2015.03.005.Peer-Reviewed Original ResearchGastrointestinal peptide hormone ghrelinGrowth hormone secretagogue receptorSleep/wake rhythmGastric acid secretionSystemic energy metabolismPeptide hormone ghrelinPeripheral actionsGut motilitySecretagogue receptorHormone ghrelinAcid secretionGlucose metabolismGhrelinEndogenous ligandTaste sensationEnergy metabolismSecretionMetabolismDiverse biological functionsYearsHormone
2014
Leptin signaling in astrocytes regulates hypothalamic neuronal circuits and feeding
Kim JG, Suyama S, Koch M, Jin S, Argente-Arizon P, Argente J, Liu ZW, Zimmer MR, Jeong JK, Szigeti-Buck K, Gao Y, Garcia-Caceres C, Yi CX, Salmaso N, Vaccarino FM, Chowen J, Diano S, Dietrich MO, Tschöp MH, Horvath TL. Leptin signaling in astrocytes regulates hypothalamic neuronal circuits and feeding. Nature Neuroscience 2014, 17: 908-910. PMID: 24880214, PMCID: PMC4113214, DOI: 10.1038/nn.3725.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAstrocytesCell CountEatingExcitatory Postsynaptic PotentialsGlial Fibrillary Acidic ProteinHypothalamusImmunohistochemistryIn Situ HybridizationLeptinMaleMelanocortinsMiceMice, KnockoutMicroscopy, ElectronNerve NetNeuronsPrimary Cell CulturePro-OpiomelanocortinPulmonary Gas ExchangeReal-Time Polymerase Chain ReactionRNA, MessengerSignal Transduction
2012
Ghrelin Regulation of Learning, Memory, and Neurodegeneration
Horvath T. Ghrelin Regulation of Learning, Memory, and Neurodegeneration. Contemporary Endocrinology 2012, 171-180. DOI: 10.1007/978-1-61779-903-7_9.Peer-Reviewed Original ResearchLate-onset chronic diseasesChronic diseasesGut-derived hormonesCause of morbidityChronic disease developmentGhrelin regulationGhrelin actionPeripheral mechanismsBrain healthTissue malignancyCardiovascular disordersParkinson's diseaseCalorie restrictionBrain functionDiseaseProlongs longevityEpigenetic vulnerabilityFinancial burdenGhrelinCellular energy metabolismDisease developmentEnergy metabolismIntegrative physiologyTissueHealthGhrelin-immunopositive hypothalamic neurons tie the circadian clock and visual system to the lateral hypothalamic arousal center
Horvath TL, Abizaid A, Dietrich MO, Li Y, Takahashi JS, Bass J. Ghrelin-immunopositive hypothalamic neurons tie the circadian clock and visual system to the lateral hypothalamic arousal center. Molecular Metabolism 2012, 1: 79-85. PMID: 24024121, PMCID: PMC3757645, DOI: 10.1016/j.molmet.2012.08.003.Peer-Reviewed Original ResearchHypothalamic neuronsOrexin/hypocretin neuronsOrexin/hypocretin systemUnique anatomical distributionDirect synaptic inputGrowth hormone releaseLateral geniculate nucleusHypothalamic arousal systemsHypocretin neuronsHypothalamic slicesGeniculate nucleusHormone releaseHypocretin systemAnatomical distributionArousal centersSynaptic inputsVisual centersGhrelin mRNAGhrelinArousal systemNeuronsKey mediatorCircadian patternSuprachiasmatic nucleusElectrophysiological activityGhrelin and the central regulation of feeding and energy balance
Abizaid A, Horvath TL. Ghrelin and the central regulation of feeding and energy balance. Indian Journal Of Endocrinology And Metabolism 2012, 16: 617-626. PMID: 23565498, PMCID: PMC3602992, DOI: 10.4103/2230-8210.105580.Peer-Reviewed Original Research
2011
Ghrelin-induced hypothermia: A physiological basis but no clinical risk
Wiedmer P, Strasser F, Horvath TL, Blum D, DiMarchi R, Lutz T, Schürmann A, Joost HG, Tschöp MH, Tong J. Ghrelin-induced hypothermia: A physiological basis but no clinical risk. Physiology & Behavior 2011, 105: 43-51. PMID: 21513721, PMCID: PMC3146973, DOI: 10.1016/j.physbeh.2011.03.027.Peer-Reviewed Original ResearchConceptsGhrelin treatmentBody temperatureApplication of ghrelinMedial preoptic areaPotential anatomical basisCold-sensitive neuronsGhrelin infusionBody core temperatureChronic i.Positive energy balanceGhrelin receptorPreoptic areaAxon terminalsClinical riskFood intakeGhrelinHealthy humansSerious hypothermiaMale subjectsPhysiologic circumstancesAnatomical basisHypothermiaCold exposureRelevant decreaseEnergy expenditureGhrelin Enhances Olfactory Sensitivity and Exploratory Sniffing in Rodents and Humans
Tong J, Mannea E, Aimé P, Pfluger PT, Yi CX, Castaneda TR, Davis HW, Ren X, Pixley S, Benoit S, Julliard K, Woods SC, Horvath TL, Sleeman MM, D'Alessio D, Obici S, Frank R, Tschöp MH. Ghrelin Enhances Olfactory Sensitivity and Exploratory Sniffing in Rodents and Humans. Journal Of Neuroscience 2011, 31: 5841-5846. PMID: 21490225, PMCID: PMC3089941, DOI: 10.1523/jneurosci.5680-10.2011.Peer-Reviewed Original ResearchConceptsExploratory sniffingAppetite-stimulating hormone ghrelinOlfactory sensitivityOverall functionGhrelin infusionIntracerebroventricular ghrelinGhrelin receptorHormone ghrelinSaline infusionOlfactory functionNeuroendocrine circuitsGhrelinUnderlying neural mechanismsEnergy homeostasisOdor detectionOlfactory processingOlfactory circuitFood seekingNeural mechanismsSniff magnitudeInfusionNovel roleOlfactory detectionSniffingSpecific effectsMaternal Ghrelin Deficiency Compromises Reproduction in Female Progeny through Altered Uterine Developmental Programming
Martin JR, Lieber SB, McGrath J, Shanabrough M, Horvath TL, Taylor HS. Maternal Ghrelin Deficiency Compromises Reproduction in Female Progeny through Altered Uterine Developmental Programming. Endocrinology 2011, 152: 2060-2066. PMID: 21325042, PMCID: PMC3075930, DOI: 10.1210/en.2010-1485.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsEmbryo ImplantationFemaleFertilityGene Expression Regulation, DevelopmentalGhrelinHeterozygoteHomeobox A10 ProteinsHomeodomain ProteinsImmunohistochemistryLitter SizeMaleMiceMice, KnockoutProliferating Cell Nuclear AntigenReproductionReverse Transcriptase Polymerase Chain ReactionTranscription FactorsUterusWnt ProteinsConceptsGhrelin deficiencyDevelopmental programmingAbnormal endometrial functionFemale wild-type miceUterus of miceLevels of ghrelinRegulation of appetiteWild-type miceReproductive tract developmentWild-type offspringSubsequent subfertilityEndometrial proliferationUnexposed miceEndometrial functionUtero exposureUterine expressionEmbryo implantationOvarian folliclesCorpora luteaGhrelinReproductive tractTract developmentMiceSignificant alterationsSubfertility
2010
Uncoupling Protein-2 Decreases the Lipogenic Actions of Ghrelin
Andrews ZB, Erion DM, Beiler R, Choi CS, Shulman GI, Horvath TL. Uncoupling Protein-2 Decreases the Lipogenic Actions of Ghrelin. Endocrinology 2010, 151: 2078-2086. PMID: 20189996, PMCID: PMC2869261, DOI: 10.1210/en.2009-0850.Peer-Reviewed Original ResearchConceptsBody weight gainGhrelin treatmentWeight gainLipogenic actionsBody weightFat oxidationFat metabolismChronic ghrelin treatmentDaily ip injectionsWhite adipose tissueNegative energy balanceCalorie restriction modelOsmotic minipumpsIP injectionBody fatGhrelinAdipose tissueMiceReactive oxygen speciesExact mechanismUCP2 mRNALipogenesisProtein 2Oxygen speciesTreatment
2009
Feeding signals and brain circuitry
Dietrich MO, Horvath TL. Feeding signals and brain circuitry. European Journal Of Neuroscience 2009, 30: 1688-1696. PMID: 19878280, DOI: 10.1111/j.1460-9568.2009.06963.x.Peer-Reviewed Original ResearchReduced anticipatory locomotor responses to scheduled meals in ghrelin receptor deficient mice
Blum ID, Patterson Z, Khazall R, Lamont EW, Sleeman MW, Horvath TL, Abizaid A. Reduced anticipatory locomotor responses to scheduled meals in ghrelin receptor deficient mice. Neuroscience 2009, 164: 351-359. PMID: 19666088, PMCID: PMC2996828, DOI: 10.1016/j.neuroscience.2009.08.009.Peer-Reviewed Original ResearchConceptsAnticipatory locomotor activityGHSR KO miceLocomotor activityKO miceGhrelin receptor deficient miceReceptor-deficient miceFeeding scheduleFos expression patternsWild-type littermatesRestricted feeding scheduleGhrelin receptor geneGhrelin injectionOrexigenic hormoneFos immunoreactivityHypothalamic nucleiDeficient miceLocomotor responseGhrelinH dailyMiceReceptor geneMealH patternTargeted mutationsBehavioral measures
2008
UCP2 mediates ghrelin’s action on NPY/AgRP neurons by lowering free radicals
Andrews ZB, Liu ZW, Walllingford N, Erion DM, Borok E, Friedman JM, Tschöp MH, Shanabrough M, Cline G, Shulman GI, Coppola A, Gao XB, Horvath TL, Diano S. UCP2 mediates ghrelin’s action on NPY/AgRP neurons by lowering free radicals. Nature 2008, 454: 846-851. PMID: 18668043, PMCID: PMC4101536, DOI: 10.1038/nature07181.Peer-Reviewed Original ResearchMeSH KeywordsAgouti-Related ProteinAnimalsCarnitine O-PalmitoyltransferaseFatty AcidsFeeding BehaviorGene Expression RegulationGhrelinHypothalamusIon ChannelsMembrane Potential, MitochondrialMiceMitochondriaMitochondrial ProteinsNeuronsNeuropeptide YPhosphorylationReactive Oxygen SpeciesSynapsesUncoupling Protein 2ConceptsNPY/AgRP neuronsAgRP neuronsNeuronal activityCo-express neuropeptide YGut-derived hormone ghrelinAgRP neuronal activityArcuate nucleus neuronsFatty acid oxidation pathwayHypothalamic mitochondrial respirationG protein-coupled receptorsGhrelin actionNeuropeptide YNucleus neuronsHormone ghrelinFood intakeGhrelinFree radicalsSynaptic plasticityNeuronal functionIntracellular mechanismsNeuronsMitochondrial mechanismsProtein 2Mitochondrial proliferationRobust changesGhrelin: an orexigenic signal from the stomach
Horvath T. Ghrelin: an orexigenic signal from the stomach. 2008, 266-284. DOI: 10.1017/cbo9780511541643.010.Peer-Reviewed Original ResearchEffects of ghrelinGrowth hormone secretagoguesFood intakeGrowth hormoneGrowth hormone secretagogue receptorDiscovery of ghrelinAmino acid peptide hormoneAnorectic hormonesOrexigenic signalsGhrelin actionPeripheral mechanismsSecretagogue receptorMetabolic effectsHormone secretagoguesBody fatGhrelinPeripheral signalsEndogenous ligandStimulatory effectEnergy expenditurePeptide hormonesCell proliferationIntakeHormoneHormonal regulationBrain circuits regulating energy homeostasis
Abizaid A, Horvath TL. Brain circuits regulating energy homeostasis. Peptides 2008, 149: 3-10. PMID: 18514925, PMCID: PMC2605273, DOI: 10.1016/j.regpep.2007.10.006.Peer-Reviewed Original Research
2006
Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite
Abizaid A, Liu ZW, Andrews ZB, Shanabrough M, Borok E, Elsworth JD, Roth RH, Sleeman MW, Picciotto MR, Tschöp MH, Gao XB, Horvath TL. Ghrelin modulates the activity and synaptic input organization of midbrain dopamine neurons while promoting appetite. Journal Of Clinical Investigation 2006, 116: 3229-3239. PMID: 17060947, PMCID: PMC1618869, DOI: 10.1172/jci29867.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsAppetiteDopamineFluorescent Antibody TechniqueGhrelinMaleMesencephalonMiceMice, Inbred C57BLMice, KnockoutNeuronsNucleus AccumbensPatch-Clamp TechniquesPeptide HormonesRatsRats, Sprague-DawleyReceptors, GhrelinReceptors, G-Protein-CoupledTime FactorsVentral Tegmental AreaConceptsVentral tegmental areaGHSR-deficient miceGHSR-dependent mannerGut hormone ghrelinDopamine neuronal activityMidbrain dopamine neuronsMesolimbic reward circuitrySynaptic input organizationPeripheral ghrelinRebound feedingVTA administrationOrexigenic effectDopamine turnoverGHSR antagonistDopamine neuronsHypothalamic centersTegmental areaHormone ghrelinNucleus accumbensGhrelinNeuronal activitySynapse formationReward circuitryInput organizationFeeding scheduleGhrelin controls hippocampal spine synapse density and memory performance
Diano S, Farr SA, Benoit SC, McNay EC, da Silva I, Horvath B, Gaskin FS, Nonaka N, Jaeger LB, Banks WA, Morley JE, Pinto S, Sherwin RS, Xu L, Yamada KA, Sleeman MW, Tschöp MH, Horvath TL. Ghrelin controls hippocampal spine synapse density and memory performance. Nature Neuroscience 2006, 9: 381-388. PMID: 16491079, DOI: 10.1038/nn1656.Peer-Reviewed Original ResearchConceptsHippocampal spine synapse densitySpine synapse densitySpine synapse formationGrowth hormone releaseNovel therapeutic strategiesLong-term potentiationHigher brain functionsEnhanced spatial learningGut hormonesGhrelin administrationHypothalamic actionSynapse densitySpine synapsesCA1 regionHormone releaseNeuropeptide ghrelinGhrelin bindingHippocampal formationTherapeutic strategiesMelanocortin systemGhrelinBrain areasMetabolic controlSynaptic changesSynaptic plasticity
2005
Unraveling neuronal circuitry regulating energy homeostasis: Plasticity in feeding circuits
Abizaid A, Horvath T. Unraveling neuronal circuitry regulating energy homeostasis: Plasticity in feeding circuits. Drug Discovery Today Disease Models 2005, 2: 191-196. DOI: 10.1016/j.ddmod.2005.08.009.Peer-Reviewed Original Research
2004
Central Administration of Ghrelin and Agouti-Related Protein (83–132) Increases Food Intake and Decreases Spontaneous Locomotor Activity in Rats
Tang-Christensen M, Vrang N, Ortmann S, Bidlingmaier M, Horvath TL, Tschöp M. Central Administration of Ghrelin and Agouti-Related Protein (83–132) Increases Food Intake and Decreases Spontaneous Locomotor Activity in Rats. Endocrinology 2004, 145: 4645-4652. PMID: 15231700, DOI: 10.1210/en.2004-0529.Peer-Reviewed Original ResearchConceptsNeuropeptides neuropeptide YFood intakePhysical activityLocomotor activityOrexigenic neuropeptides neuropeptide YCentral administrationSpontaneous physical activitySingle intracerebroventricular injectionMajor etiological factorGH secretagogue receptorSpontaneous locomotor activityOverall locomotor activityDose-dependent mannerNovel peptide hormoneGhrelin injectionIntracerebroventricular injectionHypothalamic neuronsNeuropeptide YSecretagogue receptorEtiological factorsGhrelinHigh doseEndogenous ligandHunger factorAgRP