2021
Hunger-promoting AgRP neurons trigger an astrocyte-mediated feed-forward auto-activation loop in mice
Varela L, Stutz B, Song JE, Kim JG, Liu ZW, Gao XB, Horvath TL. Hunger-promoting AgRP neurons trigger an astrocyte-mediated feed-forward auto-activation loop in mice. Journal Of Clinical Investigation 2021, 131 PMID: 33848272, PMCID: PMC8121506, DOI: 10.1172/jci144239.Peer-Reviewed Original ResearchConceptsAgRP neuronsHypothalamic feeding circuitsInhibitory neurotransmitter GABAGhrelin administrationInhibitory toneAstrocytic responseMetabolic milieuProstaglandin E2Neurotransmitter GABANeuronal controlSynaptic plasticityGlial processesNeuronsNeural excitationMitochondrial adaptationsFood deprivationAstrocytesPerikaryaFeeding circuitRegion crucialFeedingObesityGABAExcitabilityChemogenetics
2012
Plasticity of Brain Feeding Circuits in Response to Food
Horvath T. Plasticity of Brain Feeding Circuits in Response to Food. 2012, 61-74. DOI: 10.1007/978-1-4614-3492-4_5.Peer-Reviewed Original ResearchBrain regionsBrain structuresBrain's feeding circuitsPrevalent medical problemEnergy expenditureHigher brain regionsSleep/wake cycleEnergy metabolismPeripheral hormonesAutonomic functionCerebral cortexNeuronal circuitsMedical problemsNeuronal interactionsWake cycleFeeding circuitMetabolismMost mammalsFeedingObesityDiabetesHippocampusCortexHormoneBrain
2011
Synaptic Plasticity of Feeding Circuits: Hormones and Hysteresis
Dietrich MO, Horvath TL. Synaptic Plasticity of Feeding Circuits: Hormones and Hysteresis. Cell 2011, 146: 863-865. PMID: 21925311, DOI: 10.1016/j.cell.2011.08.031.Peer-Reviewed Original Research
2004
The floating blueprint of hypothalamic feeding circuits
Horvath TL, Diano S. The floating blueprint of hypothalamic feeding circuits. Nature Reviews Neuroscience 2004, 5: 662-667. PMID: 15263896, DOI: 10.1038/nrn1479.Peer-Reviewed Original ResearchConceptsHypothalamic feeding circuitsNew therapeutic avenuesMetabolic parametersFood intakeMetabolic disordersSynaptic plasticityTherapeutic avenuesLesion studiesGenetic findingsEnergy expenditureEarlier lesion studiesCircuit changesHypothalamusImportant regulatorUnexpected findingMetabolism regulationFeeding circuitFindingsIntakeAppetiteRapid 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