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MC Frame, K Simpson, VJ Fincham and DH Crouch
Beatson Institute for Cancer Research, Beatson Laboratories, Bearsden, Glasgow, United Kingdom.
v-Src activity results in both morphological transformation and reentry of quiescent chick embryo fibroblasts (CEF) into cell cycle. We have previously used temperature-sensitive v-Src mutants to show that enhanced activity of cellular AP-1 in the first few hours after activation of v-Src invariably precedes the biological consequences. Here we have investigated whether the early activation of AP-1 is essential for any or all of the v-Src responses by using a mutant c-Fos that comprises the leucine zipper and a disrupted basic region. Expression of the c-Fos mutant partially reduced cellular AP-1 activity in exponentially growing cells. However, in CEF that had been made quiescent by serum deprivation, v-Src-induced stimulation of AP-1 DNA binding activity was substantially reduced. In addition, quiescent CEF stably transfected with this mutant show an impaired mitogenic response to v-Src, indicating that the AP-1 stimulation is a necessary prerequisite for cell-cycle reentry. The ability of v-Src to morphologically transform quiescent CEF was not impaired by the inhibition of AP-1 stimulation, indicating that the mitogenic and morphological consequences of v-Src have distinguishable biochemical mediators. Focal adhesion kinase, a recently identified determinant of cell morphology, undergoes a gel mobility shift, characteristic of its hyperphosphorylated state, in response to v-Src activation in cells expressing the inhibitory AP-1 protein. This provides further evidence that the pathways that regulate morphological transformation are independent of AP-1.
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  N. O. Carragher, M. A. Westhoff, D. Riley, D. A. Potter, P. Dutt, J. S. Elce, P. A. Greer, and M. C. Frame v-Src-Induced Modulation of the Calpain-Calpastatin Proteolytic System Regulates Transformation Mol. Cell. Biol., January 1, 2002; 22(1): 257 - 269. [Abstract] [Full Text] [PDF]
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V. J. Fincham, V. G. Brunton, and M. C. Frame The SH3 Domain Directs Acto-Myosin-Dependent Targeting of v-Src to Focal Adhesions via Phosphatidylinositol 3-Kinase Mol. Cell. Biol., September 1, 2000; 20(17): 6518 - 6536. [Abstract] [Full Text]
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