An unbiased genomewide screen uncovers 7 genes that drive hematopoietic stem cell fate from mouse embryonic stem cells [scRNA-seq bone marrow]

Hematopoietic Stem Cells (HSCs) possess the ability to long-term reconstitute all the blood lineages and generate all blood cell types. As such, the in vitro generation of HSCs remains a central goal in regenerative medicine. Despite many efforts and recent advancements in the field, there is still no robust, reproducible and efficient protocol for generating bona-fide HSCs in vitro. This suggests that certain regulatory elements have yet to be uncovered. Here, we present a novel and unbiased approach to identifying endogenous components to specify HSCs from pluripotent stem cells. We performed a genome-wide CRISPR activator screening during mesodermal differentiation from mouse embryonic stem cells (mESCs). Following in vitro differentiation, mesodermal KDR+ precursors were transplanted into primary and secondary immunodeficient NSG mice. This approach led to the identification of seven genes (Spata2, Aass, Dctd, Eif4enif1, Guca1a, Eya2, Net1) that, when activated during mesoderm specification, induce the generation of hematopoietic stem and progenitor cells (HSPCs). These cells are capable of serial engraftment and multilineage output (erythroid, myeloid and T and B lymphoid) in vivo. Single-cell RNA sequencing further revealed that activating these seven genes biases the embryoid bodies towards intraembryonic development, instead of extraembryonic, increasing the number of mesodermal progenitors that can generate HSCs. Our findings underscore the importance of differentiation during the first germ layer specification to generate definitive blood stem cells. Mouse Bone Marrow CD45 cells after 4.5month post-transplantation were isolated by Fluorescence-activated cell sorting (FACS) according to the presence or absence of BFP and analyzed using 10x scRNA-seq. BFP presence indicated their origin from mESCs after CRISPR activation of a 7-genes set (SADEiGEN). Both samples were generated from a pool of 3 mice.