2018
Fast, in vivo voltage imaging using a red fluorescent indicator
Kannan M, Vasan G, Huang C, Haziza S, Li JZ, Inan H, Schnitzer MJ, Pieribone VA. Fast, in vivo voltage imaging using a red fluorescent indicator. Nature Methods 2018, 15: 1108-1116. PMID: 30420685, PMCID: PMC6516062, DOI: 10.1038/s41592-018-0188-7.Peer-Reviewed Original ResearchConceptsOptical toolsOptical toolboxUnparalleled temporal resolutionRed fluorescent indicatorVoltage imagingOptical electrophysiologyModest illumination intensitiesHigh-throughput strategyVoltage indicatorsIllumination intensityNew hueAcute brain slicesMultispectral imagingGreen probesSubthreshold voltageTemporal resolutionEnhanced sensitivityPostsynaptic potentialsMRuby3Brain slicesHippocampal rhythmsActivity monitorFunctional imagingImagingGEVIsGenetically encoded fluorescent voltage indicators: are we there yet?
Platisa J, Pieribone VA. Genetically encoded fluorescent voltage indicators: are we there yet? Current Opinion In Neurobiology 2018, 50: 146-153. PMID: 29501950, PMCID: PMC5984684, DOI: 10.1016/j.conb.2018.02.006.Peer-Reviewed Original Research
2013
Genetically Targeted Optical Electrophysiology in Intact Neural Circuits
Cao G, Platisa J, Pieribone VA, Raccuglia D, Kunst M, Nitabach MN. Genetically Targeted Optical Electrophysiology in Intact Neural Circuits. Cell 2013, 154: 904-913. PMID: 23932121, PMCID: PMC3874294, DOI: 10.1016/j.cell.2013.07.027.Peer-Reviewed Original ResearchConceptsIntact neural circuitsNeural circuitsIntact brain tissueMembrane potentialNeuronal information processingNervous systemAction potentialsBrain tissueNeuronsStudy of intracellularElectrical activityKey cellular parametersMultiple neuronsElectrical eventsSubthreshold eventsNeurite branchesOptical electrophysiologyReliable recordingCellular parametersVoltage indicatorsFluorescent voltage indicatorsBrain
2007
In Vivo Simultaneous Tracing and Ca2+ Imaging of Local Neuronal Circuits
Nagayama S, Zeng S, Xiong W, Fletcher ML, Masurkar AV, Davis DJ, Pieribone VA, Chen WR. In Vivo Simultaneous Tracing and Ca2+ Imaging of Local Neuronal Circuits. Neuron 2007, 53: 789-803. PMID: 17359915, PMCID: PMC1892750, DOI: 10.1016/j.neuron.2007.02.018.Peer-Reviewed Original ResearchConceptsLocal neuronal circuitsNeuronal circuitsAxon boutonsPostsynaptic dendritesDifferent glomeruliDendritic spinesNeuronal circuitryPresynaptic boutonsPurkinje cellsSuch activity patternsEnsemble activityLocal electroporationSpecific connectivityBoutonsSimultaneous tracingParallel fibersNeuronsImagingVivoActivity patternsPopulation levelLarge populationGlomeruliBrainSpine
2002
Expression of synapsin III in nerve terminals and neurogenic regions of the adult brain
Pieribone VA, Porton B, Rendon B, Feng J, Greengard P, Kao H. Expression of synapsin III in nerve terminals and neurogenic regions of the adult brain. The Journal Of Comparative Neurology 2002, 454: 105-114. PMID: 12412137, DOI: 10.1002/cne.10417.Peer-Reviewed Original ResearchConceptsNerve terminalsAdult brainNeurogenic regionsHippocampal dentate gyrusMarker of immatureSynapsin IIIRostral migratory streamIII-positive neuronsAdult mouse brainImmature neuronsAdult neurogenesisDentate gyrusCell adhesion moleculeOlfactory bulbSynaptic vesicle proteinsMouse brainMigratory streamNeurotransmitter releaseCell bodiesAdhesion moleculesSynapsin IBrainNeuronsPunctate stainingGreat regional variation
1998
Electrophysiologic Effects of Galanin on Neurons of the Central Nervous System a
PIERIBONE V, XU Z, ZHANG X, HÖKFELT T. Electrophysiologic Effects of Galanin on Neurons of the Central Nervous System a. Annals Of The New York Academy Of Sciences 1998, 863: 264-273. PMID: 9928177, DOI: 10.1111/j.1749-6632.1998.tb10701.x.Peer-Reviewed Original ResearchConceptsCentral nervous systemNervous systemNerve terminalsPresynaptic excitatory inputsLarge dense-core vesiclesDense-core vesiclesGalanin applicationElectrophysiologic effectsElectrophysiologic studyNeuropeptide galaninReceptor subtypesExcitatory inputsElectrical stimulationGalaninInhibitory effectInput resistanceMost casesNeuronsSubtypesNeurotransmitters
1994
Distribution of alpha 1 adrenoceptors in rat brain revealed by in situ hybridization experiments utilizing subtype-specific probes
Pieribone V, Nicholas A, Dagerlind A, Hokfelt T. Distribution of alpha 1 adrenoceptors in rat brain revealed by in situ hybridization experiments utilizing subtype-specific probes. Journal Of Neuroscience 1994, 14: 4252-4268. PMID: 8027777, PMCID: PMC6577046, DOI: 10.1523/jneurosci.14-07-04252.1994.Peer-Reviewed Original ResearchConceptsAlpha 1A/DSpinal motor nucleiSpinal cordCerebral cortexMotor nucleusAmygdaloid nucleusLight labellingCA1-CA4 regionsAlpha-1 adrenoceptorsAlpha 1B-adrenoceptorsIntermediolateral cell columnInternal plexiform layerLateral amygdaloid nucleusReticular thalamic nucleusDistribution of neuronsMedullary raphe nucleiMedullary reticular formationCentral amygdaloid nucleusLateral hypothalamic nucleusInferior olivary nucleusReceptor distribution patternsSubtype-specific probesAdrenoceptor mRNANoradrenergic innervationAdrenoceptor subtypesNeuropeptide role of both peptide YY and neuropeptide Y in vertebrates suggested by abundant expression of their mRNAS in a cyclostome brain
Söderberg C, Pieribone VA, Dahlstrand J, Brodin L, Larhammar D. Neuropeptide role of both peptide YY and neuropeptide Y in vertebrates suggested by abundant expression of their mRNAS in a cyclostome brain. Journal Of Neuroscience Research 1994, 37: 633-640. PMID: 8028041, DOI: 10.1002/jnr.490370510.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceBrainDNA, ComplementaryGene Expression RegulationHumansIn Situ HybridizationIntestinal MucosaLampreysMolecular Sequence DataNeuropeptide YOrgan SpecificityPeptide BiosynthesisPeptide YYPeptidesPhylogenyRNA, MessengerSequence HomologySpecies SpecificityVertebrates
1993
Cellular localization of messenger RNA for beta-1 and beta-2 adrenergic receptors in rat brain: An in situ hybridization study
Nicholas AP, Pieribone VA, Hökfelt T. Cellular localization of messenger RNA for beta-1 and beta-2 adrenergic receptors in rat brain: An in situ hybridization study. Neuroscience 1993, 56: 1023-1039. PMID: 8284033, DOI: 10.1016/0306-4522(93)90148-9.Peer-Reviewed Original ResearchConceptsSpinal cordRat brainCentral nervous system circuitryBeta 1Messenger RNABeta-receptor subtypesThalamic intralaminar nucleiAnterior olfactory nucleusBeta 1 receptorsIntermediate gray matterReticular thalamic nucleusMedullary reticular formationNervous system circuitryReceptor messenger RNABeta 1 messenger RNABeta-2 adrenergic receptorsCentral nervous systemRat beta 1Selective labeling patternsDeep cerebellar nucleiUnfixed rat brainOlfactory nucleusTrapezoid nucleusCerebral cortexSitu hybridization studiesDistributions of mRNAs for alpha‐2 adrenergic receptor subtypes in rat brain: An in situ hybridization study
Nicholas A, Pieribone V, Hökfelt T. Distributions of mRNAs for alpha‐2 adrenergic receptor subtypes in rat brain: An in situ hybridization study. The Journal Of Comparative Neurology 1993, 328: 575-594. PMID: 8381444, DOI: 10.1002/cne.903280409.Peer-Reviewed Original ResearchConceptsCentral nervous systemNervous systemCerebral cortexSpinal cordReceptor subtypesRat brainAlpha-2 adrenergic receptor subtypesVentrolateral medullary reticular formationRat central nervous systemAlpha-2 receptor subtypesMRNA labelingAlpha 2 receptorsIntermediolateral cell columnThoracic spinal cordNucleus tractus solitariiReticular thalamic nucleusHypothalamic paraventricular nucleusMedullary reticular formationDorsal root gangliaIslands of CallejaAdrenergic receptor subtypesSelective labeling patternsDeep cerebellar nucleiAlpha 2 probeRat alpha-2A
1992
Galanin message-associated peptide (GMAP)- and galanin-like immunoreactivities: Overlapping and differential distributions in the rat
Hökfelt T, Åman K, Arvidsson U, Bedecs K, Ceccatelli S, Hulting A, Langel U, Meister B, Pieribone V, Bartfai T. Galanin message-associated peptide (GMAP)- and galanin-like immunoreactivities: Overlapping and differential distributions in the rat. Neuroscience Letters 1992, 142: 139-142. PMID: 1280789, DOI: 10.1016/0304-3940(92)90358-e.Peer-Reviewed Original ResearchConceptsGalanin-like immunoreactivityGalanin message-associated peptideCentral nervous systemIslets of LangerhansGalanin messageGalanin-LIMost neuronsGalanin antiserumAnterior lobeNervous systemEndocrine tissuesInsulin cellsIndirect immunofluorescenceImmunoreactivityProlactin cellsRatsNeuronsTissueCellsDifferential distributionPancreasPituitaryPeptidesRetinaBrain
1988
The iontophoretic application of Fluoro-Gold for the study of afferents to deep brain nuclei
Pieribone V, Aston-Jones G. The iontophoretic application of Fluoro-Gold for the study of afferents to deep brain nuclei. Brain Research 1988, 475: 259-271. PMID: 3214735, DOI: 10.1016/0006-8993(88)90614-2.Peer-Reviewed Original Research