2017
Endothelial HIF-1α Enables Hypothalamic Glucose Uptake to Drive POMC Neurons
Varela L, Suyama S, Huang Y, Shanabrough M, Tschöp M, Gao XB, Giordano FJ, Horvath TL. Endothelial HIF-1α Enables Hypothalamic Glucose Uptake to Drive POMC Neurons. Diabetes 2017, 66: db161106. PMID: 28292966, PMCID: PMC5440016, DOI: 10.2337/db16-1106.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBehavior, AnimalBlotting, WesternEndotheliumEnergy MetabolismFood DeprivationGene Knockdown TechniquesGlucoseHyperphagiaHypothalamusHypoxia-Inducible Factor 1, alpha SubunitImmunohistochemistryMiceMicroscopy, ElectronMitochondriaNeuronsPatch-Clamp TechniquesPro-OpiomelanocortinReal-Time Polymerase Chain ReactionConceptsPOMC neuronsGlucose uptakePOMC neuronal activityHypothalamic proopiomelanocortin (POMC) neuronsHypoxia-inducible factor-1αProopiomelanocortin neuronsVascular impairmentGlucose administrationMetabolic disordersNeuronal activityMetabolic environmentFactor-1αImpaired functioningEndothelial cellsNeuronsFood deprivationVivoCentral controlHypothalamusMiceAdministrationUptakeImpairment
2016
CD301b+ Mononuclear Phagocytes Maintain Positive Energy Balance through Secretion of Resistin-like Molecule Alpha
Kumamoto Y, Camporez JP, Jurczak MJ, Shanabrough M, Horvath T, Shulman GI, Iwasaki A. CD301b+ Mononuclear Phagocytes Maintain Positive Energy Balance through Secretion of Resistin-like Molecule Alpha. Immunity 2016, 45: 583-596. PMID: 27566941, PMCID: PMC5033704, DOI: 10.1016/j.immuni.2016.08.002.Peer-Reviewed Original ResearchConceptsMononuclear phagocytesResistin-like molecule αResistin-like molecule alphaSignificant weight lossPositive energy balanceInsulin sensitivityGlucose metabolismAdipose tissueBody weightMultiple organsMultifunctional cytokineBody homeostasisMarked reductionHeterogeneous groupWeight lossPhagocytesMolecule αHomeostasisEnergy balanceRELMαCD301bNormoglycemiaCytokinesMacrophages
2011
Peroxisome proliferation–associated control of reactive oxygen species sets melanocortin tone and feeding in diet-induced obesity
Diano S, Liu ZW, Jeong JK, Dietrich MO, Ruan HB, Kim E, Suyama S, Kelly K, Gyengesi E, Arbiser JL, Belsham DD, Sarruf DA, Schwartz MW, Bennett AM, Shanabrough M, Mobbs CV, Yang X, Gao XB, Horvath TL. Peroxisome proliferation–associated control of reactive oxygen species sets melanocortin tone and feeding in diet-induced obesity. Nature Medicine 2011, 17: 1121-1127. PMID: 21873987, PMCID: PMC3388795, DOI: 10.1038/nm.2421.Peer-Reviewed Original ResearchEffects 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 ResearchConceptsDiet-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