Imaging flow cytometry reveals that G-CSF treatment causes loss of erythroblastic islands in the mouse bone marrow

Abstract The erythroblastic island (EBI) is a multicellular structure forming an erythropoietic niche consisting of a central macrophage surrounded by a rosette of maturing erythroblasts. Since their discovery more than 60 years ago, simultaneous quantification and visualization of EBIs remains difficult. Although flow cytometry enables high throughput quantification of cell aggregates co-expressing macrophage and erythroblast markers, it cannot visually confirm whether the aggregates are genuine EBIs. While immunofluorescence microscopy allows visualization of EBIs, its low throughput limits its use for quantification. In the current study we employed 9-channel imaging flow cytometry (IFC) to develop a method to directly visualize and quantify EBIs in the mouse bone marrow. We found that EBI central macrophages do express F4/80, VCAM-1 and CD169 but not CD11b or Ly6G, and that CD11b+ Ly6G+ F4/80− granulocytes are found associated at the periphery of 40-60% EBIs. Furthermore, we show for the first time using IFC that in vivo treatment with the hematopoietic stem cell mobilizing cytokine granulocyte colony-stimulating factor (G-CSF) reduced EBI frequency in the BM by over 100-fold. These results demonstrate that mobilizing doses of G-CSF cause a collapse of EBIs in the bone marrow.