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ABSTRACT
Cells initiate proliferation in response to growth factor stimulation, but the biochemical mechanisms linking signals received at the cell surface receptors to the cell cycle regulatory molecules are not yet clear. In this study, we show that the signaling molecule Raf-1 can physically interact with Rb and p130 proteins in vitro and in vivo and that this interaction can be detected in mammalian cells without overexpressing any component. The binding of Raf-1 to Rb occurs subsequent to mitogen stimulation, and this interaction can be detected only in proliferating cells. Raf-1 can inactivate Rb function and can reverse Rb-mediated repression of E2F1 transcription and cell proliferation efficiently. The region of Raf-1 involved in Rb binding spanned residues 1 to 28 at the N terminus, and functional inactivation of Rb required a direct interaction. Serum stimulation of quiescent human fibroblast HSF8 cells led to a partial translocation of Raf-1 into the nucleus, where it colocalized with Rb. Further, Raf-1 was able to phosphorylate Rb in vitro quite efficiently. We believe that the physical interaction of Raf-1 with Rb is a vital step in the growth factor-mediated induction of cell proliferation and that Raf-1 acts as a direct link between cell surface signaling cascades and the cell cycle machinery.
ACKNOWLEDGMENTS
We thank A. Giordano, N. Ahn, J. McClung, J. Padmanabhan, and J. Krolewski for different plasmid constructs and antibodies; R. Dalla-Favera, John Krolewski, Niharika Nath, and Mathew Adlam for critically reading the manuscript; Audrey Minden, Elizabeth Bosch, and Martin McMahon for reagents and helpful suggestions; and F. R. Maxfield for the use of microscope and imaging equipment.
This study was funded by NIH grant CA63136. S.P.C. is a recipient of the Irma-Hirschl Trust Research Award.