Polylox barcoding reveals haematopoietic stem cell fates realized in vivo

生物 命运图 干细胞 造血 祖细胞 细胞生物学 基因座(遗传学) 遗传学 基因
作者
Weike Pei,Thorsten B. Feyerabend,Jens Rößler,Xi Wang,Daniel Postrach,Katrin Busch,I Rodé,Kay Klapproth,Nikolaus Dietlein,Claudia Quedenau,Wei Chen,Sascha Sauer,Stephan Wolf,Thomas Höfer,Hans-Reimer Rodewald
出处
期刊:Nature [Nature Portfolio]
卷期号:548 (7668): 456-460 被引量:361
标识
DOI:10.1038/nature23653
摘要

An artificial recombination locus, Polylox, that can generate hundreds of thousands of individual barcodes is used to trace the fates of haematopoietic stem cells in mice. Transplantation-based assays of haematopoietic stem cells (HSCs) and progenitors isolated on the basis of the expression of their surface markers have inferred that the haematopoietic lineage follows a tree-like structure that starts from a long-term multipotent HSC at its base and splits into a few major branches. However, recent data question the existence of this structure, instead supporting the idea that the blood lineage is sustained by several fate-restricted progenitors. Hans-Reimer Rodewald and colleagues have developed a DNA recombination locus based on the Cre–loxP system that can tag single cells using several hundred thousand barcodes. They introduce the labelling in mouse embryos and track HSCs during their life. Surprisingly, the adult HSC compartment is a mosaic of HSC clones derived from embryos and contributes with different proportion to blood lineage, some multilineage and others of restricted fates, according to a pattern that is consistent within clones. However, they define an early split of fate between myeloid erythroid and lymphocyte development which agrees with the tree-like structure. Developmental deconvolution of complex organs and tissues at the level of individual cells remains challenging. Non-invasive genetic fate mapping1 has been widely used, but the low number of distinct fluorescent marker proteins limits its resolution. Much higher numbers of cell markers have been generated using viral integration sites2, viral barcodes3, and strategies based on transposons4 and CRISPR–Cas9 genome editing5; however, temporal and tissue-specific induction of barcodes in situ has not been achieved. Here we report the development of an artificial DNA recombination locus (termed Polylox) that enables broadly applicable endogenous barcoding based on the Cre–loxP recombination system6,7. Polylox recombination in situ reaches a practical diversity of several hundred thousand barcodes, allowing tagging of single cells. We have used this experimental system, combined with fate mapping, to assess haematopoietic stem cell (HSC) fates in vivo. Classical models of haematopoietic lineage specification assume a tree with few major branches. More recently, driven in part by the development of more efficient single-cell assays and improved transplantation efficiencies, different models have been proposed, in which unilineage priming may occur in mice and humans at the level of HSCs8,9,10. We have introduced barcodes into HSC progenitors in embryonic mice, and found that the adult HSC compartment is a mosaic of embryo-derived HSC clones, some of which are unexpectedly large. Most HSC clones gave rise to multilineage or oligolineage fates, arguing against unilineage priming, and suggesting coherent usage of the potential of cells in a clone. The spreading of barcodes, both after induction in embryos and in adult mice, revealed a basic split between common myeloid–erythroid development and common lymphocyte development, supporting the long-held but contested view of a tree-like haematopoietic structure.
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