2013
Antibodies to cannabinoid type 1 receptor co‐react with stomatin‐like protein 2 in mouse brain mitochondria
Morozov YM, Dominguez MH, Varela L, Shanabrough M, Koch M, Horvath TL, Rakic P. Antibodies to cannabinoid type 1 receptor co‐react with stomatin‐like protein 2 in mouse brain mitochondria. European Journal Of Neuroscience 2013, 38: 2341-2348. PMID: 23617247, PMCID: PMC3902808, DOI: 10.1111/ejn.12237.Peer-Reviewed Original ResearchConceptsStomatin-like protein 2Type 1 receptorPresence of CB1Protein 2Anti-CB1 antibodySynthetic cannabinoid WINMouse brain mitochondriaCerebral cortexEndocannabinoid signalingBrain cellsCannabinoid WINNeuronal mitochondriaBrain mitochondriaAntibodiesMitochondrial functionCB1Polyclonal antibodiesCortexMitochondrial preparationsSerumReceptors
2004
Interaction between the Corticotropin-Releasing Factor System and Hypocretins (Orexins): A Novel Circuit Mediating Stress Response
Winsky-Sommerer R, Yamanaka A, Diano S, Borok E, Roberts AJ, Sakurai T, Kilduff TS, Horvath TL, de Lecea L. Interaction between the Corticotropin-Releasing Factor System and Hypocretins (Orexins): A Novel Circuit Mediating Stress Response. Journal Of Neuroscience 2004, 24: 11439-11448. PMID: 15601950, PMCID: PMC6730356, DOI: 10.1523/jneurosci.3459-04.2004.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsArousalBrainBrain ChemistryCorticotropin-Releasing HormoneFemaleHypothalamusImmunohistochemistryIn Vitro TechniquesIntracellular Signaling Peptides and ProteinsMaleMembrane PotentialsMiceMice, KnockoutNeural PathwaysNeuronsNeuropeptidesOrexin ReceptorsOrexinsReceptors, Corticotropin-Releasing HormoneReceptors, G-Protein-CoupledReceptors, NeuropeptideRecombinant Fusion ProteinsStress, PhysiologicalConceptsCorticotropin-releasing factorHypocretinergic neuronsHypocretin neuronsCorticotropin-Releasing Factor SystemCRF-immunoreactive terminalsHypocretin-expressing neuronsRelease of hypocretinsStability of arousalMaintenance of arousalHypocretinergic cellsHypothalamic slicesLateral hypothalamusAntagonist astressinHypocretinergic systemNeuropeptide hypocretinStressor stimuliPeptidergic systemsAcute stressHypocretinNeuronsStress responseFactor systemMembrane potentialPhysiological inputsActivationDynamics of volume transmission in the brain. Focus on catecholamine and opioid peptide communication and the role of uncoupling protein 2
Fuxe K, Rivera A, Jacobsen KX, Höistad M, Leo G, Horvath TL, Staines W, De la Calle A, Agnati LF. Dynamics of volume transmission in the brain. Focus on catecholamine and opioid peptide communication and the role of uncoupling protein 2. Journal Of Neural Transmission 2004, 112: 65-76. PMID: 15599605, DOI: 10.1007/s00702-004-0158-3.Peer-Reviewed Original Research
2000
Mitochondrial Uncoupling Protein 2 (UCP2) in the Nonhuman Primate Brain and Pituitary*This work was supported by NSF Grant IBN-9728581, NIH Grants NS-36111, MH-59847, RR-00163, HD-29186, and HD-37186.
Diano S, Urbanski H, Horvath B, Bechmann I, Kagiya A, Nemeth G, Naftolin F, Warden C, Horvath T. Mitochondrial Uncoupling Protein 2 (UCP2) in the Nonhuman Primate Brain and Pituitary*This work was supported by NSF Grant IBN-9728581, NIH Grants NS-36111, MH-59847, RR-00163, HD-29186, and HD-37186. Endocrinology 2000, 141: 4226-4238. PMID: 11089557, DOI: 10.1210/endo.141.11.7740.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrain ChemistryChlorocebus aethiopsCorticotropin-Releasing HormoneGene ExpressionHypothalamusImmunohistochemistryIn Situ HybridizationIon ChannelsLimbic SystemMacaca fascicularisMacaca mulattaMembrane Transport ProteinsMicroscopy, FluorescenceMitochondrial ProteinsNeuropeptide YOxytocinPituitary GlandPituitary Gland, AnteriorPituitary Gland, PosteriorProteinsRNA, MessengerUncoupling Protein 2VasopressinsConceptsUncoupling protein 2Pituitary glandAnterior lobePrimate brainAxonal processesBrain stem regionsNonhuman primate brainSitu hybridization histochemistryMessenger RNACentral autonomicRR-00163Mitochondrial uncoupling protein 2Neuropeptide YPrimate hypothalamusAnterior pituitaryMetabolic disordersRodent brainPosterior lobeHybridization histochemistryPOMC cellsCell bodiesUCP2 expressionRodent dataNovel targetBrain