Abstract
In recent years multi-parameter flow cytometry has enabled identification of cells at major stages in myeloid development; from pluripotent hematopoietic stem cells, through populations with increasingly limited developmental potential (common myeloid progenitors and granulocyte-macrophage progenitors), to terminally differentiated mature cells. Myeloid progenitors are heterogeneous, and the surface markers that define transition states from progenitors to mature cells are poorly characterized. Siglec-F is a surface glycoprotein frequently used in combination with IL-5 receptor alpha (IL5Rα) for the identification of murine eosinophils. Here, we describe a CD11b+ Siglec-F+ IL5Rα− myeloid population in the bone marrow of C57BL/6 mice. The CD11b+ Siglec-F+ IL5Rα− cells are retained in eosinophil deficient PHIL mice, and are not expanded upon overexpression of IL-5, indicating that they are upstream or independent of the eosinophil lineage. We show these cells to have GMP-like developmental potential in vitro and in vivo, and to be transcriptionally distinct from the classically described GMP population. The CD11b+ Siglec-F+ IL5Rα− population expands in the bone marrow of Myb mutant mice, which is potentially due to negative transcriptional regulation of Siglec-F by Myb. Lastly, we show that the role of Siglec-F may be, at least in part, to regulate GMP viability.
Highlights
Myeloid differentiation begins from multipotential long-term and short-term hematopoeitic stem cells, progresses in a step-wise fashion to yield progenitor cells with increasingly limited developmental potential, and ends with the generation of terminally differentiated cells with specialized function
Siglec-F is a signature surface protein found on eosinophils that is used in many laboratories to identify these cells
We have identified a population of cells that is Siglec-F+ but is IL5Rα− and CD11b+ (Fig. 1A)
Summary
Myeloid differentiation begins from multipotential long-term and short-term hematopoeitic stem cells, progresses in a step-wise fashion to yield progenitor cells with increasingly limited developmental potential, and ends with the generation of terminally differentiated cells with specialized function. To examine their in vivo developmental potential, we sorted CD11b+ Siglec-F+ IL5Rα− cells from the BM of GFP+ mice and transplanted them into the spleens of irradiated Ly5.1 (GFP negative) recipients.
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