Stem Cell Reports (Apr 2019)

Clonal and Quantitative In Vivo Assessment of Hematopoietic Stem Cell Differentiation Reveals Strong Erythroid Potential of Multipotent Cells

  • Scott W. Boyer,
  • Smrithi Rajendiran,
  • Anna E. Beaudin,
  • Stephanie Smith-Berdan,
  • Praveen K. Muthuswamy,
  • Jessica Perez-Cunningham,
  • Eric W. Martin,
  • Christa Cheung,
  • Herman Tsang,
  • Mark Landon,
  • E. Camilla Forsberg

Journal volume & issue
Vol. 12, no. 4
pp. 801 – 815

Abstract

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Summary: Hematopoiesis is arguably one of the best understood stem cell systems; however, significant challenges remain to reach a consensus understanding of the lineage potential, heterogeneity, and relationships of hematopoietic stem and progenitor cell populations. To gain new insights, we performed quantitative analyses of mature cell production from hematopoietic stem cells (HSCs) and multiple hematopoietic progenitor populations. Assessment of the absolute numbers of mature cell types produced by each progenitor cell revealed a striking erythroid dominance of all myeloid-competent progenitors assessed, accompanied by strong platelet reconstitution. All populations with myeloid potential also produced robust numbers of red blood cells and platelets in vivo. Clonal analysis by single-cell transplantation and by spleen colony assays revealed that a significant fraction of HSCs and multipotent progenitors have multilineage potential at the single-cell level. These new insights prompt an erythroid-focused model of hematopoietic differentiation. : In this article, Forsberg and colleagues use quantitative reconstitution assays to demonstrate that all myeloid-competent progenitor cells also contribute to erythroid and platelet production. Single-cell in vivo analyses showed that hematopoietic stem cells and multipotent progenitors are clonally multipotent. These results suggest that erythropoiesis is a default hematopoietic fate and challenges current views on hematopoietic lineage potential and fate decisions. Keywords: lineage potential, heterogeneity, hematopoietic stem cells, quantitative analyses, erythropoiesis, multilineage differentiation, reconstitution, clonal analysis, single-cell transplantation, hematopoietic differentiation