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Mapping Human Pluripotent Stem Cell-derived Erythroid Differentiation by Single-cell Transcriptome Analysis 被引量:2
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作者 Zijuan Xin Wei Zhang +4 位作者 shangjin gong Junwei Zhu Yanming Li Zhaojun Zhang Xiangdong Fang 《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2021年第3期358-376,共19页
There is an imbalance between the supply and demand of functional red blood cells(RBCs)in clinical applications.This imbalance can be addressed by regenerating RBCs using several in vitro methods.Induced pluripotent s... There is an imbalance between the supply and demand of functional red blood cells(RBCs)in clinical applications.This imbalance can be addressed by regenerating RBCs using several in vitro methods.Induced pluripotent stem cells(iPSCs)can handle the low supply of cord blood and the ethical issues in embryonic stem cell research,and provide a promising strategy to eliminate immune rejection.However,no complete single-cell level differentiation pathway exists for the iPSC-derived erythroid differentiation system.In this study,we used iPSC line BC1 to establish a RBC regeneration system.The 10X Genomics single-cell transcriptome platform was used to map the cell lineage and differentiation trajectory on day 14 of the regeneration system.We observed that iPSC differentiation was not synchronized during embryoid body(EB)culture.The cells(on day 14)mainly consisted of mesodermal and various blood cells,similar to the yolk sac hematopoiesis.We identified six cell classifications and characterized the regulatory transcription factor(TF)networks and cell-cell contacts underlying the system.iPSCs undergo two transformations during the differentiation trajectory,accompanied by the dynamic expression of cell adhesion molecules and estrogen-responsive genes.We identified erythroid cells at different stages,such as burst-forming unit erythroid(BFU-E)and orthochromatic erythroblast(ortho-E)cells,and found that the regulation of TFs(e.g.,TFDP1 and FOXO3)is erythroid-stage specific.Immune erythroid cells were identified in our system.This study provides systematic theoretical guidance for optimizing the iPSC-derived erythroid differentiation system,and this system is a useful model for simulating in vivo hematopoietic development and differentiation. 展开更多
关键词 scRNA-seq IPSC HEMATOPOIESIS ERYTHROPOIESIS Differentiation trajectory
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