Megakaryocytic maturation in murine long-term bone marrow culture: role of interleukin-6.

Megakaryocytic maturation was analyzed in long-term bone marrow cultures in the absence of added growth factors. Megakaryocytes could be observed for periods of up to 13 weeks in both the supernatant and stromal layer of these cultures. Using acetylcholinesterase staining for enumeration and sizing of megakaryocytes, and a novel rat antimurine platelet monoclonal antibody (MoAb) that detects only megakaryocytes in bone marrow, the number, volume, and ploidy of these cells were assessed microscopically and by flow cytometry. Correlation of these measurements with ambient interleukin-6 (IL-6) levels showed no relationship between IL-6 bioactivity and megakaryocyte number. Conversely, the relatively high IL-6 bioactivity present during the first 2 weeks of culture was correlated with increased megakaryocytic size and ploidy, while the relatively lower IL-6 bioactivity present after week 3 corresponded to decreased megakaryocytic size and ploidy. Addition of neutralizing anti-IL-6 MoAb decreased megakaryocytic size and ploidy at times when ambient IL-6 levels were relatively high, while the addition of exogenous IL-6 increased size and ploidy at times when endogenous IL-6 concentrations were low. The data show that long-term bone marrow cultures can be used as a means to evaluate megakaryocytic maturation in vitro, and suggest that, to some extent, IL-6 plays a role in the maturation process in this system.