[PDF][PDF] Functionally distinct subsets of lineage-biased multipotent progenitors control blood production in normal and regenerative conditions

EM Pietras, D Reynaud, YA Kang, D Carlin… - Cell stem cell, 2015 - cell.com
EM Pietras, D Reynaud, YA Kang, D Carlin, FJ Calero-Nieto, AD Leavitt, JM Stuart
Cell stem cell, 2015cell.com
Despite great advances in understanding the mechanisms underlying blood production,
lineage specification at the level of multipotent progenitors (MPPs) remains poorly
understood. Here, we show that MPP2 and MPP3 are distinct myeloid-biased MPP subsets
that work together with lymphoid-primed MPP4 cells to control blood production. We find that
all MPPs are produced in parallel by hematopoietic stem cells (HSCs), but with different
kinetics and at variable levels depending on hematopoietic demands. We also show that the …
Summary
Despite great advances in understanding the mechanisms underlying blood production, lineage specification at the level of multipotent progenitors (MPPs) remains poorly understood. Here, we show that MPP2 and MPP3 are distinct myeloid-biased MPP subsets that work together with lymphoid-primed MPP4 cells to control blood production. We find that all MPPs are produced in parallel by hematopoietic stem cells (HSCs), but with different kinetics and at variable levels depending on hematopoietic demands. We also show that the normally rare myeloid-biased MPPs are transiently overproduced by HSCs in regenerating conditions, hence supporting myeloid amplification to rebuild the hematopoietic system. This shift is accompanied by a reduction in self-renewal activity in regenerating HSCs and reprogramming of MPP4 fate toward the myeloid lineage. Our results support a dynamic model of blood development in which HSCs convey lineage specification through independent production of distinct lineage-biased MPP subsets that, in turn, support lineage expansion and differentiation.
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