Abstract

To examine the regulatory mechanisms of proliferation and maturation in neutrophilic lineage cells, we have tried to sort dimethyl sulfoxide (Me(2)SO)-treated HL-60 cells into transferrin receptor (Trf-R) positive (Trf-R(+)) and negative (Trf-R(-)) cells. Differentiated Trf-R(-) cells expressed more formyl-Met-Leu-Phe receptor (fMLP-receptor) and ability of O-(2) genaration, as markers of differentiation, than Trf-R(+) cells, and Trf-R(-) cell differentiation was markedly accelerated by the incubation with granulocyte colony stimulating factor (G-CSF). On the other hand, Trf-R(+) cells had a tendency to proliferate rather than differentiate, and proliferation was enhanced by G-CSF. These results indicate that Trf-R expression coincides with the commitment to proliferate or differentiate of HL-60 cells, and G-CSF accelerates these commitments. G-CSF-induced tyrosine phosphorylation of STAT 3 in Trf-R(-) cells much more than in Trf-R(+) cells. Protein 70 S6 kinase expression was higher in Trf-R(+) cells than in Trf-R(-) cells. Furthermore, p70 S6 kinase was hyperphosphorylated by G-CSF in Trf-R(+) cells, but not in Trf-R(-) cells. Rapamycin, an inhibitor of p70 S6 kinase activity, inhibited G-CSF-dependent proliferation of Trf-R(+) cells and increased fMLP-R expression on these cells. These results suggest that commitment to proliferation and differentiation in Me(2)SO-treated HL-60 cells is preprogrammed and correlated with Trf-R expression, and G-CSF potentiates the cellular commitment. STAT 3 may promote differentiation of Me(2)SO-treated HL-60 cells into neutrophils, while p70 S6 kinase may promote proliferation and negatively regulate neutrophilic differentiation.