The binding of recombinant human macrophage colony-stimulating factor (M-CSF) soluble receptor (rh-M-CSF-sR) to membrane-bound macrophage colony stimulating factor (m-M-CSF) and the internalization and recycling of rh-M-CSF-sR/m-M-CSF complexes mediated by m-M-CSF were studied with a model of J6-1 cell line. The results indicated that m-M-CSF bound rh-M-CSF-sR with high affinity (kd = 1.78×10-12 mol/L) and mediated a temperature- and energy- dependent internalization of rh-M-CSF-sR, and that internalized rh-M-CSF-sR could return to the cell surface in an m-M-CSF-bound state, suggesting that m-M-CSF may have a capability to mediate the internalization and recycling of rh-M-CSF-sR/m-M-CSF complexes. In addition, the half-lives of cell-associated M-CSF and its receptor of stimulated normal human cord blood mononuclear cells (CBMCs) and 4 leukemic cell lines were measured by indirect immunoflu- orescence and flow cytometry. The results showed that the half-lives of the various kinds of M-CSF isoforms and M-CSF-R in 4 leukemic cells, except those of membrane-bound M-CSF receptor (M-CSF-mR) of K562 and HL-60 cells, were longer than those of corresponding M-CSF isoform and its receptor in stimulated normal human CBMCs, suggesting that there is a slow degradation rate of cell-associated M-CSF and its receptor in leukemic cells.