Yale S Michaels, Matthew C Major, Becca Bonham-Carter, Jingqi Zhang, Tiam Heydari, John M Edgar, Mona M Siu, Laura Greenstreet, Roser Vilarrasa-Blasi, Seungjoon Kim, Elizabeth L Castle, Aden Forrow, M Iliana Ibanez-Rios, Carla Zimmerman, Yvonne Chung, Tara Stach, Nico Werschler, David J H F Knapp, Roser Vento-Tormo, Geoffrey Schiebinger, Peter W Zandstra
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引用次数: 0
Abstract
T cells develop from hematopoietic progenitors in the thymus and protect against pathogens and cancer. However, the emergence of human T cell-competent blood progenitors and their subsequent specification to the T lineage have been challenging to capture in real time. Here, we leveraged a pluripotent stem cell differentiation system to understand the transcriptional dynamics and cell fate restriction events that underlie this critical developmental process. Time-resolved single-cell RNA sequencing revealed that downregulation of the multipotent hematopoietic program, upregulation of >90 lineage-associated transcription factors, and cell-cycle exit all occur within a highly coordinated developmental window. Gene-regulatory network inference uncovered a role for YBX1 in T lineage specification. We mapped the differentiation cell fate hierarchy using transcribed lineage barcoding and discovered that mast and myeloid potential bifurcate from each other early in hematopoiesis, upstream of T lineage restriction. Our systems-level analyses provide a quantitative, time-resolved model of human T cell fate specification. A record of this paper's transparent peer review process is included in the supplemental information.
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