2023
Molecular programs of regional specification and neural stem cell fate progression in macaque telencephalon
Micali N, Ma S, Li M, Kim S, Mato-Blanco X, Sindhu S, Arellano J, Gao T, Shibata M, Gobeske K, Duque A, Santpere G, Sestan N, Rakic P. Molecular programs of regional specification and neural stem cell fate progression in macaque telencephalon. Science 2023, 382: eadf3786. PMID: 37824652, PMCID: PMC10705812, DOI: 10.1126/science.adf3786.Peer-Reviewed Original Research
2022
Role of intracortical neuropil growth in the gyrification of the primate cerebral cortex
Rash B, Arellano J, Duque A, Rakic P. Role of intracortical neuropil growth in the gyrification of the primate cerebral cortex. Proceedings Of The National Academy Of Sciences Of The United States Of America 2022, 120: e2210967120. PMID: 36574666, PMCID: PMC9910595, DOI: 10.1073/pnas.2210967120.Peer-Reviewed Original ResearchConceptsOuter subventricular zoneSubcortical white matterCerebral cortexWhite matterFormation of gyriPrimate cerebral cortexMammalian cerebral cortexMarkers of proliferationCortical malformationsCortical plateGlial cellsGyral developmentSubventricular zoneCortical neurogenesisFetal developmentVentricular zoneCortical foldingNeuronal progenitorsGyrificationNeuronal growthNeuropil growthPrimary gyriCortexNeurodevelopmental disordersGyrus
2007
Glowing Green Pyramids: A False Positive for Neocortical Neurogenesis Reveals a Novel Neuronal–Microglial Fusion in the Postnatal Brain
Breunig J, Arellano J. Glowing Green Pyramids: A False Positive for Neocortical Neurogenesis Reveals a Novel Neuronal–Microglial Fusion in the Postnatal Brain. Journal Of Neuroscience 2007, 27: 1507-1508. PMID: 17304702, PMCID: PMC6673745, DOI: 10.1523/jneurosci.5475-06.2007.Peer-Reviewed Original Research
2004
CA1 Hippocampal Neuronal Loss in Familial Alzheimer's Disease Presenilin‐1 E280A Mutation Is Related to Epilepsy
Velez‐Pardo C, Arellano J, Cardona‐Gomez P, Del Rio M, Lopera F, De Felipe J. CA1 Hippocampal Neuronal Loss in Familial Alzheimer's Disease Presenilin‐1 E280A Mutation Is Related to Epilepsy. Epilepsia 2004, 45: 751-756. PMID: 15230697, DOI: 10.1111/j.0013-9580.2004.55403.x.Peer-Reviewed Original ResearchConceptsHippocampal neuronal lossNeuronal lossCA1 fieldAlzheimer's diseaseFAD patientsEpileptic seizuresPresenilin-1 E280A mutationMesial temporal lobe structuresAppearance of epilepsyCA1 hippocampal regionNeuronal cell lossSubpopulation of patientsFamilial AD patientsTemporal lobe structuresPresenilin 1 mutationNeuronal depopulationHippocampal sclerosisAD pathologyAD patientsNeurofibrillary tanglesEpilepsy patientsHippocampal regionHippocampal formationPatientsCoronal sections
2002
The neuropathology of temporal lobe epilepsy: primary and secondary changes in the cortical circuits and epileptogenicity.
DeFelipe Oroquieta J, Arellano J, Alonso L, Muñoz A. The neuropathology of temporal lobe epilepsy: primary and secondary changes in the cortical circuits and epileptogenicity. Revista De Neurologia 2002, 34: 401-8. PMID: 12040509, DOI: 10.33588/rn.3405.2001403.Peer-Reviewed Original ResearchConceptsTemporal lobe epilepsyPrimary epileptogenic regionEpileptogenic regionEpileptic activitySynaptic reorganizationLobe epilepsySpecific anatomical connectionsMesial sclerosisNeuronal lossPerilesional areaCommon pathologyInitial lesionCortical circuitsHippocampal formationNeuronal circuitsAnatomical connectionsCortical tissueSecondary changesEpilepsySimilar changesLesionsGliosisEpileptogenicitySclerosisPatients
2001
Microtubule-associated protein 2 phosphorylation is decreased in the human epileptic temporal lobe cortex
Sánchez C, Arellano J, Rodríguez-Sánchez P, Avila J, DeFelipe J, Díez-Guerra F. Microtubule-associated protein 2 phosphorylation is decreased in the human epileptic temporal lobe cortex. Neuroscience 2001, 107: 25-33. PMID: 11744243, DOI: 10.1016/s0306-4522(01)00338-4.Peer-Reviewed Original ResearchConceptsEpileptic patientsMAP2 phosphorylationEpileptiform activityKynurenic acidTemporal lobe epileptic patientsNeuronal cytoskeletonSeizure-like activityTemporal lobe cortexNeuronal cell deathRat hippocampal neuronsProtein 2 phosphorylationNeuronal damageSeizure activityGlutamate receptorsHippocampal neuronsNeuronal activityBiopsy samplesSynaptic plasticityPatientsElectrocorticogram activityNeuronal processesExperimental modelAbnormal patternsImmunocytochemical analysisPhosphorylated epitopes