Uncoupling of cell proliferation and differentiation activities of basic fibroblast growth factor.

FGF-2 exerts its pleiotropic effects on cell growth and differentiation by interacting with specific cell surface receptors. In addition, exogenously added FGF-2 is translocated from outside the cell to the nucleus during G1-S transition. In this study, we show that a single point mutation in FGF-2 (substitution of residue serine 117 by alanine) is sufficient to drastically reduce its mitogenic activity without affecting its differentiation properties. The FGF-2(S117A) mutant binds to and activates tyrosine kinase receptors and induces MAPK and p70S6K activation as strongly as the wild-type FGF-2. We demonstrate that this mutant enters NIH3T3 cells, is translocated to the nucleus, and is phosphorylated similar to the wild-type growth factor. This suggests that FGF-2 mitogenic activity may require, in addition to signaling through cell surface receptors and nuclear translocation, activation of nuclear targets. We have previously shown that, in vitro, FGF-2 directly stimulates the activity of the casein kinase 2 (CK2), a ubiquitous serine/threonine kinase involved in the control of cell proliferation. We report that, in vivo, FGF-2(WT) transiently interacts with CK2 and stimulates its activity in the nucleus during G1-S transition in NIH3T3 cells. In contrast, the FGF-2(S117A) mutant fails to interact with CK2. Thus, our results show that FGF-2 mitogenic and differentiation activities can be dissociated by a single point mutation and that CK2 may be a new nuclear effector involved in FGF-2 mitogenic activity.-Bailly, K., Soulet, F., Leroy, D., Amalric, F., Bouche, G. Uncoupling of cell proliferation and differentiation activities of basic fibroblast growth factor (FGF-2).