2014
Fgfr1 Inactivation in the Mouse Telencephalon Results in Impaired Maturation of Interneurons Expressing Parvalbumin
Smith KM, Maragnoli ME, Phull PM, Tran KM, Choubey L, Vaccarino FM. Fgfr1 Inactivation in the Mouse Telencephalon Results in Impaired Maturation of Interneurons Expressing Parvalbumin. PLOS ONE 2014, 9: e103696. PMID: 25116473, PMCID: PMC4130531, DOI: 10.1371/journal.pone.0103696.Peer-Reviewed Original ResearchConceptsGanglionic eminenceSoma sizeCortical interneuronsAstrocytes of miceCortex of adultCortical GABAergic neuronsParvalbumin-positive cortical interneuronsRadial glial cellsSmaller soma sizeMedial ganglionic eminenceFibroblast growth factorDeficient astrocytesLocomotor hyperactivityGABAergic cellsGABAergic neuronsInterneuron maturationGlial cellsCortical astrocytesPostnatal periodAdult CNSPostnatal brainInterneuron markersInterneuronsImmunopositive interneuronsAstrocytes
2011
Nitric oxide counteracts the hyperoxia-induced proliferation and proinflammatory responses of mouse astrocytes
Bruno CJ, Greco TM, Ischiropoulos H. Nitric oxide counteracts the hyperoxia-induced proliferation and proinflammatory responses of mouse astrocytes. Free Radical Biology And Medicine 2011, 51: 474-479. PMID: 21605665, PMCID: PMC3118916, DOI: 10.1016/j.freeradbiomed.2011.04.041.Peer-Reviewed Original ResearchConceptsProinflammatory phenotypeNitric oxideNeonatal cortical astrocytesNeonatal intensive careUnrecognized beneficial effectSignificant increaseAstrocytic inflammationPremature baboonsIntensive careProinflammatory responseCyclooxygenase-2Cortical astrocytesApolipoprotein EPreclinical studiesSecreted levelsHyperoxia resultsTherapeutic gasesAstrocyte morphologyMouse astrocytesFunctional changesBeneficial effectsAstrocytesIntermediate filament proteinsSimultaneous exposureIntracellular levels
1994
Neurons and astroglia express distinct subsets of Na,K-ATPase α and β subunits
Cameron R, Klein L, Shyjan A, Rakic P, Levenson R. Neurons and astroglia express distinct subsets of Na,K-ATPase α and β subunits. Brain Research 1994, 21: 333-343. PMID: 8170354, DOI: 10.1016/0169-328x(94)90264-x.Peer-Reviewed Original ResearchConceptsCentral nervous systemHippocampal neuronsNervous systemK-ATPase isoenzymesPanel of alphaMammalian central nervous systemType-1 astrocytesCerebellar granule neuronsAlpha 3 subunitCell typesRat cerebellar granuleAlpha 1 isoformCortical astrocytesBeta 1 subunitGranule neuronsMonkey brainK-ATPase alphaAlpha-subunit isoformsImmunofluorescent staining patternsCerebellar granuleNeuronsStaining patternAlpha 2Distinct subsetsAlpha 3
1987
Subcellular Location and Neuronal Release of Diazepam Binding Inhibitor
Ferrarese C, Vaccarino F, Alho H, Mellstrom B, Costa E, Guidotti A. Subcellular Location and Neuronal Release of Diazepam Binding Inhibitor. Journal Of Neurochemistry 1987, 48: 1093-1102. PMID: 3819722, DOI: 10.1111/j.1471-4159.1987.tb05632.x.Peer-Reviewed Original ResearchConceptsDBI-like immunoreactivitySlices of hypothalamusCerebral cortical neuronsGamma-aminobutyric acid receptorsRat brain neuronsDiazepam binding inhibitorAllosteric modulatory sitesVeratridine depolarizationNeuronal releaseCerebral cortexMicroM tetrodotoxinSlices of liverPeripheral organsCNS neuronsCortical neuronsBinding of benzodiazepinesCortical astrocytesBrain neuronsNeuromodulatory substancesRat brainSynaptosomal lysatesModulatory siteMet5-enkephalinAcid receptorsNeurons
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