Abstract

AbstractUsing a liquid culture system and human CD34+ marrow cells, we examined the effects of recombinant interleukin (IL)-3, IL-6, stem cell factor (SCF), and leukemia inhibitory factor (LIF) on megakaryocyte (MK) growth, endoreplication, and maturation. MK proliferation, ploidy distribution, and volume were studied by flow cytometry. IL-3 was the only cytokine that, alone, induced a marked increase in MK proliferation. At a high CD34+ cell concentration, addition of IL-6, SCF, and LIF to IL-3–containing medium increased the number of MK (–20%). At a low CD34+ cell concentration, IL-3 alone was a less potent inducer of MK growth, but IL-6, SCF, and their combination had a marked effect, increasing the number of MK by a factor 1.7, 2.9, and 4.4, respectively. These differences may be related to the endogenous release of cytokines in the culture. The effects of these cytokines were subsequently tested on a more mature type of MK progenitor (CD34+ cells isolated after 6 days of incubation in liquid culture). IL-3 remained the most potent cytokine, but IL-6 or SCF alone also increased MK number in comparison to unstimulated cultures. The ploidy distribution of MKs grown with IL-3 was not markedly changed by the addition of the other cytokines, with the exception of SCF, which induced a significant increase in the mean ploidy. However, in all cultures, glycoprotein (GP)IIIa + 2N and 4N cells were present in large but variable numbers (35% to 75%). The number of these low-ploidy MKs directly correlated with MK proliferation. Therefore, we subsequently explored the absolute number of polyploid MK produced in culture. SCF, IL-6, or their combination, in association with IL-3, increased the number of polyploid MK up to fourfold. In addition, they improved the maturation of MK grown in the presence of IL-3, leading to the synthesis of demarcation membranes and platelet shedding. A similar effect of growth factors on the maturation of day 6 CD34+ cells was observed. We conclude that IL-6 and SCF have a broad range of activities on megakaryocytopoiesis, acting both on the early and late stages. However, the proliferative properties of these cytokines largely predominate in our cultures. Therefore, in the absence of a specific MK regulator, this study further extends the need for a combination of growth factors to maximize megakaryocytopoiesis.

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