2018
Detection of local and remote cellular damage caused by spinal cord and peripheral nerve injury using a heat shock signaling reporter system
Hashimoto-Torii K, Sasaki M, Chang YW, Hwang H, Waxman SG, Kocsis JD, Rakic P, Torii M. Detection of local and remote cellular damage caused by spinal cord and peripheral nerve injury using a heat shock signaling reporter system. IBRO Neuroscience Reports 2018, 5: 91-98. PMID: 30480161, PMCID: PMC6240805, DOI: 10.1016/j.ibror.2018.11.003.Peer-Reviewed Original ResearchPeripheral nerve injurySpinal cordNerve injuryPeripheral nerve injury resultsAltered electrophysiological propertiesNerve injury resultsSecondary damageHeat shock factor 1Neuropathic painInjury resultsInjury siteClinical abnormalitiesShock factor 1Mouse modelMemory dysfunctionElectrophysiological propertiesCordFactor 1Cellular damageFurther deteriorationInjuryReporter systemAbnormalitiesImmediate stress responseCells
2013
Olfactory ensheathing cells, but not schwann cells, proliferate and migrate extensively within moderately X‐Irradiated juvenile rat brain
Lankford KL, Brown RJ, Sasaki M, Kocsis JD. Olfactory ensheathing cells, but not schwann cells, proliferate and migrate extensively within moderately X‐Irradiated juvenile rat brain. Glia 2013, 62: 52-63. PMID: 24166823, DOI: 10.1002/glia.22583.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornAntigensCD11b AntigenCell MovementCell ProliferationCells, CulturedFemaleGlial Fibrillary Acidic ProteinGreen Fluorescent ProteinsMaleNeurogliaOlfactory MucosaOligodendrogliaProteoglycansRadiation Injuries, ExperimentalRatsRats, Sprague-DawleySchwann CellsStem Cell TransplantationConceptsJuvenile rat brainAdult spinal cordIntact adult spinal cordSchwann cellsSpinal cordRat brainAdult rat spinal cordSpinal cord lesionsRat spinal cordCord lesionsModerate radiation doseNeuronal repairPoor survivalAdult CNSUnbiased stereologyCordOECsBrainThree weeksNumber of cellsRadiation dosePermissive environmentCell migrationCellsMicroglia
2008
Olfactory ensheathing cells exhibit unique migratory, phagocytic, and myelinating properties in the X‐irradiated spinal cord not shared by Schwann cells
Lankford KL, Sasaki M, Radtke C, Kocsis JD. Olfactory ensheathing cells exhibit unique migratory, phagocytic, and myelinating properties in the X‐irradiated spinal cord not shared by Schwann cells. Glia 2008, 56: 1664-1678. PMID: 18551623, DOI: 10.1002/glia.20718.Peer-Reviewed Original ResearchConceptsCentral nervous systemSpinal cordSchwann cellsOligodendrocyte progenitor cellsNormal central nervous systemMigratory propertiesOX-42 stainingNormal spinal cordOlfactory Ensheathing CellsMyelin-forming cellsDemyelinated lesionsHost axonsPhagocytic phenotypePoor survivalSubsequent lesionsNervous systemWhite matterCordLimited survivalOECsMigratory capabilityProgenitor cellsTransplantationX-irradiationLesions
2007
Remyelination of the injured spinal cord
Sasaki M, Li B, Lankford KL, Radtke C, Kocsis JD. Remyelination of the injured spinal cord. Progress In Brain Research 2007, 161: 419-433. PMID: 17618995, PMCID: PMC2605400, DOI: 10.1016/s0079-6123(06)61030-3.Peer-Reviewed Original ResearchConceptsSpinal cord injuryFunctional outcomeSpinal cordContusive spinal cord injuryLong white matter tractsPotential cell therapy candidatesWhite matter tractsMyelin-forming cellsCell therapy candidatesCord injuryCentral necrotic coreClinical studiesTherapy candidatesNecrotic coreTransplantation studiesExperimental modelCordOutcomesCellsDemyelinationRemyelinationInjuryNecrosisOECsAxons
2004
Autologous transplantation of expanded neural precursor cells into the demyelinated monkey spinal cord
Oka S, Honmou O, Akiyama Y, Sasaki M, Houkin K, Hashi K, Kocsis JD. Autologous transplantation of expanded neural precursor cells into the demyelinated monkey spinal cord. Brain Research 2004, 1030: 94-102. PMID: 15567341, DOI: 10.1016/j.brainres.2004.09.062.Peer-Reviewed Original ResearchConceptsNeural precursor cellsAutologous transplantationSpinal cordPrecursor cellsSubventricular zoneAdult primate brainMonkey spinal cordCentral nervous system axonsPresence of mitogensAdult nonhuman primatesNon-human primatesNeurological deficitsDemyelinated lesionsDorsal columnsIntraspinal injectionElectron microscopic examinationControl lesionsLesion sitePrimate brainPeripheral patternMyelinated axonsTransplantationLesionsNonhuman primatesCord
2001
Transplantation of an acutely isolated bone marrow fraction repairs demyelinated adult rat spinal cord axons
Sasaki M, Honmou O, Akiyama Y, Uede T, Hashi K, Kocsis J. Transplantation of an acutely isolated bone marrow fraction repairs demyelinated adult rat spinal cord axons. Glia 2001, 35: 26-34. PMID: 11424189, PMCID: PMC2605363, DOI: 10.1002/glia.1067.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBeta-GalactosidaseBone Marrow TransplantationCells, CulturedEthidiumGlial Fibrillary Acidic ProteinImmunohistochemistryMiceMice, TransgenicMyeloid Progenitor CellsNerve Fibers, MyelinatedNerve RegenerationNeurogliaRatsRats, WistarRecovery of FunctionSpinal CordSpinal Cord InjuriesConceptsBone marrow cellsSpinal cordMyelin-forming cellsMarrow cellsDemyelinated rat spinal cordRat spinal cord axonsDorsal column lesionBone marrow cell fractionRat spinal cordX-irradiation treatmentSpinal cord axonsLacZ transgenic miceSchwann cell myelinationCell fractionCell transplantation techniquesDorsal funiculusPeripheral patternTransgenic miceTransplantation techniquesHematopoietic stem cellsIsolated cell fractionsCordFemoral bonePrecursor cellsTransplantation