2023
Scalable production of tissue-like vascularized liver organoids from human PSCs
Harrison S, Siller R, Tanaka Y, Chollet M, de la Morena-Barrio M, Xiang Y, Patterson B, Andersen E, Bravo-Pérez C, Kempf H, Åsrud K, Lunov O, Dejneka A, Mowinckel M, Stavik B, Sandset P, Melum E, Baumgarten S, Bonanini F, Kurek D, Mathapati S, Almaas R, Sharma K, Wilson S, Skottvoll F, Boger I, Bogen I, Nyman T, Wu J, Bezrouk A, Cizkova D, Corral J, Mokry J, Zweigerdt R, Park I, Sullivan G. Scalable production of tissue-like vascularized liver organoids from human PSCs. Experimental & Molecular Medicine 2023, 55: 2005-2024. PMID: 37653039, PMCID: PMC10545717, DOI: 10.1038/s12276-023-01074-1.Peer-Reviewed Original ResearchConceptsExtracellular matrixSingle-cell RNA sequencingBasic developmental biologyEmbryonic liver developmentPost-translational modificationsLiver-like functionsCostly growth factorsOrganoid modelsKey liver functionsCellular diversityCellular repertoireDevelopmental biologyCellular complexityN-glycosylationRNA sequencingDe novo vascularizationNumber of tissuesProtein productionSerum protein productionLiver developmentHuman PSCsDrug toxicity assessmentOrganoidsSmall moleculesGrowth factorGeneration of ventralized human thalamic organoids with thalamic reticular nucleus
Kiral F, Cakir B, Tanaka Y, Kim J, Yang W, Wehbe F, Kang Y, Zhong M, Sancer G, Lee S, Xiang Y, Park I. Generation of ventralized human thalamic organoids with thalamic reticular nucleus. Cell Stem Cell 2023, 30: 677-688.e5. PMID: 37019105, PMCID: PMC10329908, DOI: 10.1016/j.stem.2023.03.007.Peer-Reviewed Original ResearchConceptsHuman embryonic stem cellsSingle-cell RNA sequencingReceptor tyrosine protein kinaseTyrosine protein kinaseEmbryonic stem cellsDisease-associated genesLineage developmentRNA sequencingHuman brain developmentOrganoid systemsStem cellsHuman brain organoidsNeuronal functionBrain organoidsOrganoidsBrain organoid systemsDistinct nucleiBrain developmentThalamic developmentPTCHD1NucleusKinaseGenesSequencing
2022
Expression of the transcription factor PU.1 induces the generation of microglia-like cells in human cortical organoids
Cakir B, Tanaka Y, Kiral FR, Xiang Y, Dagliyan O, Wang J, Lee M, Greaney AM, Yang WS, duBoulay C, Kural MH, Patterson B, Zhong M, Kim J, Bai Y, Min W, Niklason LE, Patra P, Park IH. Expression of the transcription factor PU.1 induces the generation of microglia-like cells in human cortical organoids. Nature Communications 2022, 13: 430. PMID: 35058453, PMCID: PMC8776770, DOI: 10.1038/s41467-022-28043-y.Peer-Reviewed Original ResearchConceptsHuman embryonic stem cellsHuman cortical organoidsTranscription factor PUSingle-cell RNA sequencingMicroglia-like cellsSingle-cell transcriptomicsEmbryonic stem cellsDisease stage IIIRole of microgliaAD-associated genesExpression of genesCortical organoidsNeurodegenerative disordersRNA sequencingMolecular damageIntact complementStem cellsDysfunction of microgliaFunctional microgliaReduced expressionGenesCell clustersExpressionChemokine systemHuman microglia
2019
hESC-Derived Thalamic Organoids Form Reciprocal Projections When Fused with Cortical Organoids
Xiang Y, Tanaka Y, Cakir B, Patterson B, Kim KY, Sun P, Kang YJ, Zhong M, Liu X, Patra P, Lee SH, Weissman SM, Park IH. hESC-Derived Thalamic Organoids Form Reciprocal Projections When Fused with Cortical Organoids. Cell Stem Cell 2019, 24: 487-497.e7. PMID: 30799279, PMCID: PMC6853597, DOI: 10.1016/j.stem.2018.12.015.Peer-Reviewed Original ResearchConceptsReciprocal projectionsThree-dimensional organoid modelsForebrain disorderHuman brain developmentCortical organoidsHuman thalamusPeripheral tissuesThalamusRelated disordersThalamic developmentSingle-cell RNA sequencingBrain developmentHuman embryonic stem cellsCircuit organizationCortexOrganoid modelsRegion-specific organoidsTelencephalic fateStem cellsOrganoid techniquesOrganoidsDisordersRNA sequencingRelay hubDisease
2012
Two methods for full-length RNA sequencing for low quantities of cells and single cells
Pan X, Durrett RE, Zhu H, Tanaka Y, Li Y, Zi X, Marjani SL, Euskirchen G, Ma C, LaMotte RH, Park IH, Snyder MP, Mason CE, Weissman SM. Two methods for full-length RNA sequencing for low quantities of cells and single cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 110: 594-599. PMID: 23267071, PMCID: PMC3545756, DOI: 10.1073/pnas.1217322109.Peer-Reviewed Original ResearchConceptsRNA sequencingSingle cellsFull-length RNA sequencingSingle dorsal root ganglion neuronHigh-throughput sequencingGene expression patternsLower transcript levelsFull-length sequencesRandom oligonucleotide primersTranscript representationAbundant mRNAsK562 erythroleukemic cellsTranscript levelsMRNA sequencingExpression patternsBiological disciplinesErythroleukemic cellsExpression signaturesSequencingOligonucleotide primersFull lengthLow quantitiesDNA amplificationRNAPCR procedure