IMPAIRED MOBILIZATION OF HEMATOPOITEIC STEM/PROGENITOR CELLS IN C5-DEFCIENT MICE SUPPORTS THE PIVOTAL INVOLVEMENT OF INNATE IMMUNITY IN THIS PROCESS AND REVEALS NOVEL PROMOBILIZATION EFFECTS OF GRANULOCYTES

We reported that complement cascade (CC) becomes activated in bone marrow (BM) during granulocyte colony stimulating factor (G-CSF) mobilization of hematopoietic stem/progenitor cells (HSPCs) and demonstrated that while the third CC component (C3)-deficient mice are easy mobilizers, the fifth CC component (C5)-deficient mice mobilize very poorly. To explain this, we postulated that activation/cleavage of CC releases C3a and C5a anaphylatoxins that differently regulate mobilization. Accordingly, C3a, by enhancing responsiveness of HSPCs to decreasing concentrations of stromal-derived growth factor-1 (SDF-1) in BM, prevents mobilization and promotes their BM-retention. As such, we focused on the mobilization-enhancing role of C5a herein. We found that C5a receptor (C5aR) is not expressed on the surface of HSPCs, and C5a-mediated pro-mobilization effects are mediated by stimulation of granulocytes. Overall, our data support a following model. First C5aR(+) granulocytes are chemoattracted by plasma C5 cleavage fragments, being the first wave of cells leaving BM. This facilitates subsequent egress of HSPCs. In the next step, after leaving the BM, granulocytes undergo degranulation in response to plasma C5a and secrete some cationic peptides (cathelicidin, β-defensin) that as demonstrated here for a first time highly enhance responsiveness of HSPCs to plasma SDF-1 gradient. In conclusion, our data reveal the underappreciated central role of innate immunity in mobilization where C5 cleavage fragments via granulocytes orchestrate this process.