Abstract
It has been suggested that 12–0-tetradecanoylphorbol-13-acetate (TPA) may stimulate the proliferation of granulocyte-macrophage (GM) colony- forming cells (CFC) via the GM colony-stimulating factor (CSF) receptor. GM-CFC in unfractionated mouse bone marrow and light density fetal liver (LDFL) cells were induced by TPA to form colonies in the absence of exogenously added GM-CSF. The colonies induced by TPA (10(- 8)M) were smaller than normally seen with maximal concentrations of GM- CSF, and less than 30% of the GM-CFC formed colonies in the presence of TPA. The number of colonies stimulated by TPA in the absence of GM-CSF was dependent on the number of cells plated. When fewer than 10,000 bone marrow cells or 3000 LDFL cells were plated in the 1-ml semisolid agar cultures, no colonies were stimulated by the TPA. Similarly, GM- CFC purified from the LDFL cells stimulated with TPA did not form colonies. However, when the fetal liver accessory cells (macrophages) were recombined with cell-sorter-purified GM-CFC, colony formation was again observed in the presence of TPA (10(-7)-10(-8) M). The number of colonies formed from the CFC was dependent on the number of accessory cells present, suggesting that the macrophages were induced by TPA to produce CSF. Although the purified GM-CFC required CSF for proliferation, TPA (10(-8) M) increased (5–10-fold) the sensitivity of the GM-CFC to GM-CSF. These observations indicate that TPA does not stimulate GM-CFC proliferation directly, but rather by inducing GM-CSF production by accessory cells and by increasing the responsiveness of GM-CFC to GM-CSF.
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