2015
Developmental programming of hypothalamic neuroendocrine systems
Ralevski A, Horvath TL. Developmental programming of hypothalamic neuroendocrine systems. Frontiers In Neuroendocrinology 2015, 39: 52-58. PMID: 26391503, DOI: 10.1016/j.yfrne.2015.09.002.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsEnergy MetabolismFemaleFetal DevelopmentHumansHypothalamusNeurosecretory SystemsPregnancyConceptsHypothalamic neuroendocrine systemsDevelopmental programmingNeuroendocrine systemMetabolic fateMetabolic syndromeHypothalamic circuitsPerinatal environmentPossible cognitive impairmentMetabolic programmingCognitive impairmentMetabolic influencesEnergy homeostasisCritical periodNeural systemsSyndrome
2005
Obesity and the Neuroendocrine Control of Energy Homeostasis: The Role of Spontaneous Locomotor Activity 1
Castañeda TR, Jürgens H, Wiedmer P, Pfluger P, Diano S, Horvath TL, Tang-Christensen M, Tschöp MH. Obesity and the Neuroendocrine Control of Energy Homeostasis: The Role of Spontaneous Locomotor Activity 1. Journal Of Nutrition 2005, 135: 1314-1319. PMID: 15867332, DOI: 10.1093/jn/135.5.1314.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsEnergy MetabolismGhrelinHomeostasisHumansMotor ActivityNeurosecretory SystemsObesityPeptide HormonesConceptsSpontaneous physical activityWidespread sedentary lifestylesIntolerable side effectsPrevalence of obesityFat mass accumulationCause of deathUrgent global health threatGlobal health threatSafe therapyFat massPharmacological reductionPhysical activitySedentary lifestyleSide effectsEnergy intakeNeuroendocrine factorsNeuroendocrine controlEnergy homeostasisObesityHealth threatMajor predictorActivity 1Molecular mechanismsLow levelsMajor contributor
2004
Direct visual and circadian pathways target neuroendocrine cells in primates
Abizaid A, Horvath B, Keefe DL, Leranth C, Horvath TL. Direct visual and circadian pathways target neuroendocrine cells in primates. European Journal Of Neuroscience 2004, 20: 2767-2776. PMID: 15548220, DOI: 10.1111/j.1460-9568.2004.03737.x.Peer-Reviewed Original ResearchConceptsSuprachiasmatic nucleusRetinal inputNeuroendocrine cellsDirect retinal inputHormone-releasing hormoneNon-human primatesHypothalamic suprachiasmatic nucleusSCN efferentsHypothalamic areaHypothalamic neuronsHypothalamic sitesMonosynaptic pathwayVisual afferentsHypothalamic regulatorGonadal axisHormone releaseNeuroendocrine functionPituitary gonadotropsPhotic modulationNeuronsCircadian pacemakerVervet monkeysPresent studyTracing techniquesCircadian clock
1998
Neuroendocrine Interactions between Galanin, Opioids, and Neuropeptide Y in the Control of Reproduction and Appetite a
KALRA S, HORVATH T. Neuroendocrine Interactions between Galanin, Opioids, and Neuropeptide Y in the Control of Reproduction and Appetite a. Annals Of The New York Academy Of Sciences 1998, 863: 236-240. PMID: 9928174, DOI: 10.1111/j.1749-6632.1998.tb10698.x.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAppetiteGalaninHypothalamusNarcoticsNeuropeptide YNeurosecretory SystemsRatsReproductionConceptsNeuropeptide YSubpopulation of neuronsArcuate nucleusBeta-endorphinNeuroendocrine interactionsMorphologic evidenceNeuroendocrine signalsRelay of informationControl of reproductionAppetitive behaviorUntoward consequencesNeuronsGalaninHypothalamusAppetiteDiscrete subpopulationsRegulatory influenceSubpopulationsOpioidsObesityInfertilityNeuropeptidesAn Alternate Pathway for Visual Signal Integration into the Hypothalamo-Pituitary Axis: Retinorecipient Intergeniculate Neurons Project to Various Regions of the Hypothalamus and Innervate Neuroendocrine Cells Including Those Producing Dopamine
Horvath TL. An Alternate Pathway for Visual Signal Integration into the Hypothalamo-Pituitary Axis: Retinorecipient Intergeniculate Neurons Project to Various Regions of the Hypothalamus and Innervate Neuroendocrine Cells Including Those Producing Dopamine. Journal Of Neuroscience 1998, 18: 1546-1558. PMID: 9454860, PMCID: PMC6792709, DOI: 10.1523/jneurosci.18-04-01546.1998.Peer-Reviewed Original ResearchConceptsHypothalamo-pituitary axisIntergeniculate leafletNeuroendocrine cellsSuprachiasmatic nucleusHypothalamic dopamine neuronsMedial preoptic areaFenestrated capillariesPopulations of neuronsNeurons projectBilateral enucleationHypothalamic projectionsDistal dendritesRetrograde tracerVentromedial nucleusDopamine neuronsIntraperitoneal injectionProjection sitesPeriventricular nucleusPreoptic areaRetinal fibersTract tracingHypothalamic cellsRetinal axonsSynaptic targetsEfferents
1997
Suprachiasmatic efferents avoid phenestrated capillaries but innervate neuroendocrine cells, including those producing dopamine.
Horvath T. Suprachiasmatic efferents avoid phenestrated capillaries but innervate neuroendocrine cells, including those producing dopamine. Endocrinology 1997, 138: 1312-20. PMID: 9048641, DOI: 10.1210/endo.138.3.4976.Peer-Reviewed Original ResearchConceptsPituitary hormone secretionVasculosum laminae terminalisSuprachiasmatic nucleusHormone secretionNeuroendocrine cellsPreoptic areaLamina terminalisDopamine cellsMedian eminenceAnterior pituitary hormone secretionMedial preoptic areaDiffuse cytoplasmic labelingPhaseolus vulgaris leukoagglutininFluorogold labelingPeriventricular areaArcuate nucleusHypothalamic sitesIP administrationVentromedial nucleusAnterior hypothalamusAnterograde tracerAxon terminalsPeriventricular regionElectron microscopic examinationTyrosine hydroxylase