Cytokine response profiles of human myeloid factor-dependent leukemia cell lines

Abstract

Research in cytokine biology has grown exponentially in recent years as cytokines (often also termed growth factors) are now known to be involved in a wide range of pathological and physiological processes. Continuous human leukemia cell lines represent powerful tools to investigate these mechanisms. Most cell lines grow autonomously in standard culture media (containing fetal bovine serum) independent of externally added growth stimuli. Over the last 5–10 years a battery of myeloid leukemia-derived cell lines has been established that is constitutively dependent on the addition of cytokines to the culture. Such factor-dependent cell lines die rapidly by apoptosis when deprived of the appropriate growth factor. We determined the cytokine response profiles of 19 absolutely growth factor-dependent leukemia cell lines with myelomonocytic, erythroid or megakaryocytic phenotypes with regard to enhanced or suppressed cellular proliferation. Cells were incubated in liquid culture with optimal concentrations of various recombinant human cytokines known to have effects on the growth of hematopoietic cells. A proliferative or anti-proliferative response to these 41 cytokines was assessed by the short-term ³H-thymidine uptake assay. A proliferative response was considered as positive when the stimulation index (SI) was >2; inhibition was regarded as significant with an SI n = 13–17), but not of all cell lines was significantly enhanced by GM-CSF, IL-3, PIXY-321, SCF and IFN-γ. TGF-β 1 consistently inhibited proliferation (in 11/19 cell lines). IFN-α, IFN-β, TNF-α and TNF-β had either stimulatory or inhibitory effects. The cell lines responding most often proliferatively (to 15–19 different cytokines) were UCSD/AML1, HU-3, TF-1 and M-07e. In summary, these factor-responsive human leukemia cell lines represent extremely useful model systems for the analysis of cytokine effects on hematopoietic cells. The cytokine response profiles of the individual cell lines provide guidelines for the selection of the appropriate cell culture for such experiments.