Interleukin 6 induces myeloid differentiation of a human biphenotypic leukemic cell line.

The human leukemic cell line B1, is characterized by a specific 4;11 chromosomal translocation, immature myeloid/pre-B biphenotypic features, expression of multiple cytokine receptors and IL-1-dependent autocrine growth regulation [Cohen et al. (1991) Blood 78, 94]. Exposure of B1 cells to low concentrations of IL-6 abolished the leukemic cells ability to form colonies in semi-solid medium and slowed down their proliferation rate in suspension. Associated with these changes in growth characteristics, the B1 cells differentiated along the myeloid lineage as judged by the induction of the myeloid-specific surface antigens CD33, CD13 and CD11b, as well as histochemical and morphological changes characteristic of myeloid cells. The induction of differentiation was specific to IL-6 since none of the other cytokines which inhibited B1 cell growth (IL-7, gamma IFN and TNF alpha) were able to induce myeloid or lymphoid differentiation in these cells. The IL-6-induced differentiation was completed over a two week period and was essentially irreversible. Together with the phenotypic changes, IL-6 induced the expression of the protein tyrosine phosphatase (CD45) which may be associated with altered growth observed in IL-6-treated cells. Induction of terminal differentiation of leukemic cells by recombinant bioregulators has therapeutic implications and merits further study.