Downregulation of the fibronectin (FN) gene in a rat 3Y1 derivative cell line, XhoC, transformed by the adenovirus E1A and E1B genes seems to be caused by the induction of a negative regulator, G10BP, which binds to three G-rich sequences in the promoter (T. Nakamura, T. Nakajima, S. Tsunoda, S. Nakada, K. Oda, H. Tsurui, and A. Wada, J. Virol. 66:6436-6450, 1992). These are the G 10 stretch and two GC boxes consisting of the G 10 stretch with one internal C residue insertion. The recognition sequences of G10BP and Sp1 (GGGCGG) overlap in these GC boxes. To analyze the mechanism of the downregulation, G10BP was purified by DNA affinity chromatography, and its molecular mass was estimated to be about 30 kDa. The promoter was modified by substituting the sequence GGGG with ATCC or CTTA in these G-rich sequences, leaving the Sp1 motif intact, and by replacing the Sp1 motif by the T stretch. Transcription of FN promoter-chloramphenicol acetyltransferase fusion genes carrying the base substitution in one or more of these G-rich sequences both in vivo and in vitro revealed that the base substitution in any G-rich sequence results in reduction of promoter activity, although the downstream GC box (GCd) plays a primary role. The addition of G10BP severely inhibited the activities of the FN promoters carrying the wild-type GCd in vitro, while the promoters carrying the mutant GCd were unaffected. The binding affinity of G10BP and Sp1 to each of the G-rich sequences, analyzed by gel shift assays, indicated that G10BP binds strongly to the GCd, moderately to the G 10 stretch, and weakly to GCu, while Sp1 binds strongly to GCu, moderately to GCd, and weakly to the G 10 stretch.
Sp1 binding to GCd and the G 10 stretch was inhibited by G10BP, while binding to GCu was unaffected. These results indicate that FN gene transcription is inhibited in XhoC cells primarily by exclusion of Sp1 binding to GCd by G10BP and that G10BP is a new class of Sp1 negative regulator.Fibronectins (FNs) are large glycoproteins of the extracellular matrix and play a central role in cell adhesion, migration, wound healing, and tumor metastasis (24). FN binds to its receptor on the cell surface as dimers of similar subunits of about 250 kDa (24, 44), connecting intracellular actin filaments to the extracellular matrix at the receptor site (2, 23, 44), called focal contacts or adhesion plaques. The FN molecule consists of a series of globular domains which interact independently with components of the extracellular matrix, fibrin, glycosaminoglycans, collagen, and its receptor (22,50), and the receptor binds indirectly to actin filaments through its cytoplasmic domain (4, 21).Cell adhesion to the substratum is required for mammalian cells to proliferate in an in vitro culture system, while the loosening of cell adhesion is also required transiently for quiescent cells to enter the cell cycle after growth stimulation by extracellular proteases (3, 45) or by growth factors (19,20). Most oncogenes exert their functions to disintegrate the structure of the ...
