Litcius/Paper detail

Robust temporal map of human in vitro myelopoiesis using single-cell genomics

Clara Alsinet, Maria Nascimento Primo, Valentina Lorenzi, Erica Bello, Iva Kelava, Carla P. Jones, Roser Vilarrasa‐Blasi, Carmen Sancho‐Serra, Andrew Knights, Jong-Eun Park, Beata S. Wyspianska, Gosia Trynka, David F. Tough, Andrew Bassett, Daniel J. Gaffney, Damiana Álvarez‐Errico, Roser Vento‐Tormo

2022Nature Communications44 citationsDOIOpen Access PDF

Abstract

Myeloid cells are central to homeostasis and immunity. Characterising in vitro myelopoiesis protocols is imperative for their use in research, immunotherapies, and understanding human myelopoiesis. Here, we generate a >470K cells molecular map of human induced pluripotent stem cells (iPSC) differentiation into macrophages. Integration with in vivo single-cell atlases shows in vitro differentiation recapitulates features of yolk sac hematopoiesis, before definitive hematopoietic stem cells (HSC) emerge. The diversity of myeloid cells generated, including mast cells and monocytes, suggests that HSC-independent hematopoiesis can produce multiple myeloid lineages. We uncover poorly described myeloid progenitors and conservation between in vivo and in vitro regulatory programs. Additionally, we develop a protocol to produce iPSC-derived dendritic cells (DC) resembling cDC2. Using CRISPR/Cas9 knock-outs, we validate the effects of key transcription factors in macrophage and DC ontogeny. This roadmap of myeloid differentiation is an important resource for investigating human fetal hematopoiesis and new therapeutic opportunities.

Topics & Concepts

MyelopoiesisMyeloidBiologyHaematopoiesisCell biologyStem cellIRF8Induced pluripotent stem cellProgenitor cellCellular differentiationImmunologyEmbryonic stem cellTranscription factorGeneticsGeneImmune cells in cancerImmune responses and vaccinationsImmune Cell Function and Interaction