2000
Multiple messengers in descending serotonin neurons: localization and functional implications
Hökfelt T, Arvidsson U, Cullheim S, Millhorn D, Nicholas A, Pieribone V, Seroogy K, Ulfhake B. Multiple messengers in descending serotonin neurons: localization and functional implications. Journal Of Chemical Neuroanatomy 2000, 18: 75-86. PMID: 10708921, DOI: 10.1016/s0891-0618(99)00037-x.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCatsGamma-Aminobutyric AcidHaplorhiniMedulla OblongataNeuronsNeuropeptidesRatsSerotoninSpinal CordConceptsGamma-amino butyric acidSerotonin neuronsInhibitory neurotransmitter gamma-amino butyric acidNeurotransmitter gamma-amino butyric acidRaphe serotonin neuronsPost-synaptic actionsParticular substance PNumber of neuropeptidesSerotonin projectionsDorsal hornVentral hornSubstance PSpinal cordSame neuronsRostral levelsSuch neuronsNeuronsEnzyme glutaminasePresent review articleGlutamateRecent studiesReview articleFunctional implicationsWide spectrumHorn
1995
Chapter 4 Peptidergic neurons in the vertebrate spinal cord: evolutionary trends
Brodin L, Söderberg C, Pieribone V, Larhammar D. Chapter 4 Peptidergic neurons in the vertebrate spinal cord: evolutionary trends. Progress In Brain Research 1995, 104: 61-74. PMID: 8552784, DOI: 10.1016/s0079-6123(08)61784-7.Peer-Reviewed Original ResearchConceptsVertebrate spinal cordEarly vertebratesVertebrate classesDifferent vertebratesPeptidergic neuronsMutational eventsVertebrate CNSEvolutionary trendsVertebratesPeptide sequencesMammalian CNSMammalsComprehensive comparative analysisSpeciesFour questionsMolecular featuresCertain CNS regionsTarget cellsAnatomical featuresLater stagesAnatomical differencesCyclostomesCNS regionsEvolutionNeurons
1994
Immunohistochemical analysis of the relation between 5‐hydroxytryptamine‐ and neuropeptide‐immunoreactive elements in the spinal cord of an amphibian (Xenopus laevis)
Pieribone V, Brodin L, Hökfelt T. Immunohistochemical analysis of the relation between 5‐hydroxytryptamine‐ and neuropeptide‐immunoreactive elements in the spinal cord of an amphibian (Xenopus laevis). The Journal Of Comparative Neurology 1994, 341: 492-506. PMID: 7515401, DOI: 10.1002/cne.903410406.Peer-Reviewed Original ResearchConceptsCalcitonin gene-related peptidePeptide-immunoreactive fibersCorticotropin-releasing factorSubstance PSpinal cordImmunoreactive fibersXenopus laevis spinal cordCCK-immunoreactive fibersGene-related peptideCRF-immunoreactive fibersLabeling of fibersDouble-labeling techniqueGAL immunoreactivitySpinal transectionPeptide immunoreactivityImmunohistochemical analysisGalaninImmunohistochemical dataRostrocaudal levelsCordIntact animalsSimilar negative resultsImmunoreactive materialImmunofluorescence double-labeling techniqueCholecystokinin
1992
COLOCALIZATION OF NEUROPEPTIDES AND CLASSICAL NEUROTRANSMITTERS - FUNCTIONAL SIGNIFICANCE.
HÖKFELT T, ARVIDSSON U, BEAN A, CASTEL M, CECCATELLI S, DAGERLIND Å, ELDE R, MEISTER B, MORINO P, NICHOLAS A, PELTO-HUIKKO M, PIERIBONE V, SCHALLING M, VERGE V, XU Z, RTFAI T, WIESENFELD-HALLIN Z. COLOCALIZATION OF NEUROPEPTIDES AND CLASSICAL NEUROTRANSMITTERS - FUNCTIONAL SIGNIFICANCE. Clinical Neuropharmacology 1992, 15: 309a. PMID: 1354037, DOI: 10.1097/00002826-199201001-00160.Peer-Reviewed Original Research