2018
Loss of Nucleobindin-2 Causes Insulin Resistance in Obesity without Impacting Satiety or Adiposity
Ravussin A, Youm YH, Sander J, Ryu S, Nguyen K, Varela L, Shulman GI, Sidorov S, Horvath TL, Schultze JL, Dixit VD. Loss of Nucleobindin-2 Causes Insulin Resistance in Obesity without Impacting Satiety or Adiposity. Cell Reports 2018, 24: 1085-1092.e6. PMID: 30067966, PMCID: PMC6223120, DOI: 10.1016/j.celrep.2018.06.112.Peer-Reviewed Original ResearchConceptsHigh-fat dietInsulin resistanceFood intakeMetabolic inflammationNucleobindin-2M2-like macrophage polarizationHigh-fat diet feedingWeight lossAdipose tissue macrophagesObesity-associated diseasesNesfatin-1Insulin sensitivityDiet feedingMacrophage polarizationNUCB2 proteinMyeloid cellsTissue macrophagesGlobal deletionClassical M1NUCB2NFκB-dependent mannerWeight gainSatietyIntakeAdiposity
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
2011
Obesity is associated with hypothalamic injury in rodents and humans
Thaler JP, Yi CX, Schur EA, Guyenet SJ, Hwang BH, Dietrich MO, Zhao X, Sarruf DA, Izgur V, Maravilla KR, Nguyen HT, Fischer JD, Matsen ME, Wisse BE, Morton GJ, Horvath TL, Baskin DG, Tschöp MH, Schwartz MW. Obesity is associated with hypothalamic injury in rodents and humans. Journal Of Clinical Investigation 2011, 122: 153-162. PMID: 22201683, PMCID: PMC3248304, DOI: 10.1172/jci59660.Peer-Reviewed Original ResearchConceptsHigh-fat dietHFD feedingMediobasal hypothalamusPeripheral tissuesRodent modelsBody weight controlHypothalamic arcuate nucleusSubstantial weight gainConsequences of obesityNeuron injuryHypothalamic injuryNeuronal injuryNeuroprotective mechanismsReactive gliosisObese humansHypothalamic areaArcuate nucleusInflammatory signalingBrain areasWeight controlObesityGliosisEnergy homeostasisWeight gainInflammation