We reported that complement cascade (CC) becomes activated in bone marrow (BM) during mobilization of hematopoietic stem/progenitor cells (HSPCs) induced by granulocyte colony-stimulating factor (G-CSF) and C5 cleavage has an important function in optimal egress of HSPCs. In this work, we explored whether CC is involved in mobilization of HSPCs induced by the CXCR4 antagonist, AMD3100. To address this question, we performed mobilization studies in mice that display a defect in the activation of the proximal steps of CC (Rag(-/-), severe combined immune deficient (SCID), C2.Cfb(-/-)) as well as in mice that do not activate the distal steps of CC (C5(-/-)). We noticed that proximal CC activation-deficient mice (above C5 level), in contrast to distal step CC activation-deficient C5(-/-) ones, mobilize normally in response to AMD3100 administration. We hypothesized that this discrepancy in mobilization could be explained by AMD3100-activating C5 in Rag(-/-), SCID, and C2.Cfb(-/-) animals in a non-canonical mechanism involving activated granulocytes. To support this, granulocytes (i) first egress from BM and (ii) secrete several proteases that cleave/activate C5 in response to AMD3100. We conclude that AMD3100-directed mobilization of HSPCs, similarly to G-CSF-induced mobilization, depends on activation of CC; however, in contrast to G-CSF, AMD3100 activates the distal steps of CC directly at the C5 level. Overall, these data support that C5 cleavage fragments and distal steps of CC activation are required for optimal mobilization of HSPCs.