2020
Mitomycin-C treatment during differentiation of induced pluripotent stem cell-derived dopamine neurons reduces proliferation without compromising survival or function in vivo
Hiller B, Marmion D, Gross R, Thompson C, Chavez C, Brundin P, Wakeman D, McMahon C, Kordower J. Mitomycin-C treatment during differentiation of induced pluripotent stem cell-derived dopamine neurons reduces proliferation without compromising survival or function in vivo. Stem Cells Translational Medicine 2020, 10: 278-290. PMID: 32997443, PMCID: PMC7848297, DOI: 10.1002/sctm.20-0014.Peer-Reviewed Original ResearchConceptsDopamine neuronsInduced pluripotent stem cellsParkinson's diseaseStem cell-derived dopamine neuronsPD cell therapyMidbrain dopamine neuronsLong-term survivalTransplant of cellsStem cellsHuman induced pluripotent stem cellsPluripotent stem cellsNeuron preparationsMitomycin C treatmentAthymic ratsDrug selectionUndesirable proliferationCell therapyRobust survivalLower proliferationVivo functionNeuronsTransplantationSurvivalProliferative cellsDiseaseA Biomarker for Predicting Responsiveness to Stem Cell Therapy Based on Mechanism-of-Action: Evidence from Cerebral Injury
Hartman R, Nathan N, Ghosh N, Pernia C, Law J, Nuryyev R, Plaia A, Yusof A, Tone B, Dulcich M, Wakeman D, Dilmac N, Niles W, Sidman R, Obenaus A, Snyder E, Ashwal S. A Biomarker for Predicting Responsiveness to Stem Cell Therapy Based on Mechanism-of-Action: Evidence from Cerebral Injury. Cell Reports 2020, 31: 107622. PMID: 32402283, DOI: 10.1016/j.celrep.2020.107622.Peer-Reviewed Original ResearchConceptsHuman neural stem cellsHypoxic-ischemic injuryTherapeutic mechanismCerebral hypoxic-ischemic injuryCell therapyMolecular profileHierarchical region splittingStem cell therapyNeural stem cellsCerebral injurySelection biomarkerPredicting ResponsivenessNecrotic coreCognitive outcomesBiomarkersTherapyInjuryLesionsStem cellsResponsivenessPenumbraCellsCore volumeSalvageabilityRecipients
2017
Cryopreservation Maintains Functionality of Human iPSC Dopamine Neurons and Rescues Parkinsonian Phenotypes In Vivo
Wakeman D, Hiller B, Marmion D, McMahon C, Corbett G, Mangan K, Ma J, Little L, Xie Z, Perez-Rosello T, Guzman J, Surmeier D, Kordower J. Cryopreservation Maintains Functionality of Human iPSC Dopamine Neurons and Rescues Parkinsonian Phenotypes In Vivo. Stem Cell Reports 2017, 9: 149-161. PMID: 28579395, PMCID: PMC5511045, DOI: 10.1016/j.stemcr.2017.04.033.Peer-Reviewed Original ResearchConceptsParkinson's diseaseDopamine neuronsMidbrain dopamine neuronsStem cell therapyGrafted neuronsHost striatumCell-based therapiesPluripotent stem cell therapyFunctional deficitsPrimate modelFiber innervationParkinsonian phenotypeTherapeutic efficacyTransplantation studiesCell therapyNeuronsSignificant reversalTranslational developmentBehavioral assessmentClinical applicationTherapyElectrophysiological signaturesRatsDiseaseMinimal manipulation
2014
Homing of Neural Stem Cells From the Venous Compartment Into a Brain Infarct Does Not Involve Conventional Interactions With Vascular Endothelium
Goncharova V, Das S, Niles W, Schraufstatter I, Wong A, Povaly T, Wakeman D, Miller L, Snyder E, Khaldoyanidi S. Homing of Neural Stem Cells From the Venous Compartment Into a Brain Infarct Does Not Involve Conventional Interactions With Vascular Endothelium. Stem Cells Translational Medicine 2014, 3: 229-240. PMID: 24396034, PMCID: PMC3925049, DOI: 10.5966/sctm.2013-0052.Peer-Reviewed Original ResearchConceptsHuman neural stem cellsNeural stem cellsIntravenous administrationStromal cell-derived factor-1αEx vivo fucosylationCutaneous lymphocyte antigenBlood-brain barrierStem cellsMortality of ratsHuman umbilical vein endothelial cellsUmbilical vein endothelial cellsImplantation of cellsBrain infarctsVein endothelial cellsLymphocyte antigenVascular endotheliumIntracranial injectionVenous compartmentCell surface moietiesFactor-1αIntravascular spaceEndothelial cellsAdministrationLuminal surfaceRemoval of fucose
2011
Dopamine neurons derived from human ES cells efficiently engraft in animal models of Parkinson’s disease
Kriks S, Shim J, Piao J, Ganat Y, Wakeman D, Xie Z, Carrillo-Reid L, Auyeung G, Antonacci C, Buch A, Yang L, Beal M, Surmeier D, Kordower J, Tabar V, Studer L. Dopamine neurons derived from human ES cells efficiently engraft in animal models of Parkinson’s disease. Nature 2011, 480: 547-551. PMID: 22056989, PMCID: PMC3245796, DOI: 10.1038/nature10648.Peer-Reviewed Original Research
2009
Culture System for Rodent and Human Oligodendrocyte Specification, Lineage Progression, and Maturation
Espinosa‐Jeffrey A, Wakeman D, Kim S, Snyder E, de Vellis J. Culture System for Rodent and Human Oligodendrocyte Specification, Lineage Progression, and Maturation. Current Protocols In Stem Cell Biology 2009, 10: 2d.4.1-2d.4.26. PMID: 19725014, DOI: 10.1002/9780470151808.sc02d04s10.Peer-Reviewed Original Research
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