Multilineage gene expression precedes commitment in the hemopoietic system.
Open Access
- 15 March 1997
- journal article
- Published by Cold Spring Harbor Laboratory in Genes & Development
- Vol. 11 (6) , 774-785
- https://doi.org/10.1101/gad.11.6.774
Abstract
We have tested the hypothesis that multipotential hemopoietic stem and progenitor cells prime several different lineage-affiliated programs of gene activity prior to unilineage commitment and differentiation. Using single cell RT-PCR we show that erythroid (beta-globin) and myeloid (myeloperoxidase) gene expression programs can be initiated by the same cell prior to exclusive commitment to the erythroid or granulocytic lineages. Furthermore, the multipotential state is characterized by the coexpression of several lineage-affiliated cytokine receptors. These data support a model of hemopoietic lineage specification in which unilineage commitment is prefaced by a "promiscuous" phase of multilineage locus activation.Keywords
This publication has 36 references indexed in Scilit:
- Erythroid development of the FDCP‐Mix A4 multipotent cell line is governed by the relative concentrations of erythropoietin and interleukin 3British Journal of Haematology, 1995
- Analysis of gene expression in a complex differentiation hierarchy by global amplification of cDNA from single cellsCurrent Biology, 1995
- Chromatin as an essential part of the transcriptional mechanimNature, 1992
- Development of Multipotential Haemopoietic Stem Cells to Neutrophils is Associated with Increased Expression of Receptors for Granulocyte Macrophage Colony-Stimulating Factor: Altered Biological Responses to GM-CSF during DevelopmentGrowth Factors, 1991
- The Role of Hemopoietic Growth Factors in Self-Renewal and Differentiation of IL-3-Dependent Multipotential Stem CellsGrowth Factors, 1990
- The molecular control of cell division, differentiation commitment and maturation in haemopoietic cellsNature, 1989
- Binding, Internalization, and Degradation of125I-Multipotential Colony-Stimulating Factor (Interleukin-3) By FDCP-1 CellsGrowth Factors, 1988
- Continuous in vitro generation of multipotential stem cell clones from src-infected culturesNature, 1984
- Isolation of biologically active ribonucleic acid from sources enriched in ribonucleaseBiochemistry, 1979
- Stem Cell ConceptsDifferentiation, 1979