Single Cell Resolution Mapping of Hematopoietic Stem and Progenitor Cell States throughout Human Life

The hematopoietic system continuously generates and replenishes the supply of circulating blood cells from embryonic life throughout the entirety of human lifespan. Studies in mouse development have shown that the repertoire of mature blood cell types produced changes dramatically during development...

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Bibliographic Details
Published in:Blood 2020-11, Vol.136 (Supplement 1), p.31-31
Main Authors: Li, Hojun, Butty, Vincent, Connelly, Guinevere, Morris, Vivian, Daley, George Q., Whangbo, Jennifer, Lummertz da rocha, Edroaldo, Rowe, Robert Grant
Format: Article
Language:English
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Summary:The hematopoietic system continuously generates and replenishes the supply of circulating blood cells from embryonic life throughout the entirety of human lifespan. Studies in mouse development have shown that the repertoire of mature blood cell types produced changes dramatically during development and aging, with hematopoietic stem and progenitor cells (HSPCs) adapting their output to meet age-specific physiologic needs. In humans, it is presumed that age-dependent changes in the production of mature blood lineages underlie the tendency of blood disorders to skew toward certain ages of onset. The observations that mature cell output changes throughout life but mechanisms of terminal hematopoietic differentiation within each lineage remain consistent suggest that age-specific hematopoietic states are programmed at the level of HSPCs. Although the developmental changes occurring in mouse hematopoiesis are well documented, the specific changes in human HSPC ontogeny occurring during prenatal development and postnatal aging from newborn, through childhood, and into adulthood are completely unknown. We hypothesized that temporal changes in human hematopoiesis are mediated by age-specific, occasionally transient, HSPC states and that mechanisms of HSPC lineage commitment change over time in order to meet the changing physiologic demands of the developing and aging human. To test this hypothesis, we comprehensively profiled human HSPC cell states from human fetal hematopoiesis through adulthood using single cell RNA sequencing (scRNAseq). We obtained CD34+ HSPCs from 14 different human donors covering a range of ages from first and second trimester fetal liver, umbilical cord blood, and pediatric and adult bone marrow. We obtained high quality sequencing data on a total of 38,873 individual HSPCs after filtering out apoptotic cells, hepatocytes, stromal cells, and endothelial cells. We then identified differentially expressed genes and performed dimensionality reduction and uniform manifold approximation and projection followed by Louvain clustering to identify 32 distinct cell types encompassing primitive stem and multipotent progenitor cells as well as committed progenitors in the myeloid, erythroid and lymphoid lineages. We found age-specific alterations in hematopoietic differentiation trajectories, particularly in the myeloid lineages. Additionally, we discovered an HSC, emerging in mid-gestation and diminishing at birth, with a characteristic immunophenot
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2020-136380