2018
Human neuroepithelial stem cell regional specificity enables spinal cord repair through a relay circuit
Dell’Anno M, Wang X, Onorati M, Li M, Talpo F, Sekine Y, Ma S, Liu F, Cafferty WBJ, Sestan N, Strittmatter SM. Human neuroepithelial stem cell regional specificity enables spinal cord repair through a relay circuit. Nature Communications 2018, 9: 3419. PMID: 30143638, PMCID: PMC6109094, DOI: 10.1038/s41467-018-05844-8.Peer-Reviewed Original ResearchConceptsHuman neuroepithelial stem cellsNeuroepithelial stem cellsSpinal cord injury recoverySpinal cord injury resultsNeural stem cell transplantationStem cell transplantationSpinal cord repairOptimal cell typeStem cellsGrafted neuronsPersistent disabilityFunctional recoveryTherapeutic optionsCell transplantationHost axonsInjury resultsSpinal cordRobust engraftmentImmunodeficient miceInjury recoveryAnatomical sitesNeural elementsSpecific marker proteinsTransplantationAdherent conditions
2016
Rewiring the spinal cord: Direct and indirect strategies
Dell’Anno M, Strittmatter SM. Rewiring the spinal cord: Direct and indirect strategies. Neuroscience Letters 2016, 652: 25-34. PMID: 28007647, PMCID: PMC5466898, DOI: 10.1016/j.neulet.2016.12.002.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsCell DifferentiationHumansNeural Stem CellsNeurogliaNeuronsSpinal CordSpinal Cord InjuriesSpinal Cord RegenerationSynaptic TransmissionConceptsSpinal cordNeural stem cellsNeural stem cell-derived neuronsTransplanted neural stem cellsNeural stem cell transplantationAdult central nervous systemLong-distance axonsNeutralization of myelinRecipient spinal cordStem cell transplantationSpinal cord injuryStem cell-derived neuronsCentral nervous systemCell-derived neuronsIntrinsic regenerative capacityPoor intrinsic regenerative capacityStem cellsNeurologic recoveryAxonal sproutingSecondary complicationsCell transplantationCord injuryAxonal regenerationGlial cellsAdult brain