To understand the role of endogenous AP-1 activity in cellular transformation induced by oncogenes, we have made use of a fos mutant (supfos-1) and a jun mutant (supjun-1), either of which can function as a transdominant inhibitor of AP-1-mediated transcriptional regulation. Chicken embryo fibroblasts (CEF) infected with a series of transforming retroviruses were doubly infected with retrovirus carrying supfos-1 or supjun-1, and suppression of cellular transformation was monitored in terms of reversion to normal cellular morphology or acquisition of anchorage-dependent growth. Cellular transformation induced by several exogenously expressed transforming genes of thefos orjun family was efficiently suppressed, as expected. CEF transformed by v-src, v-yes, v-.fps, c-Ha-ras, and N-terminally truncated c-rafwere also induced to revert to the normal phenotype by these transdominant mutants, suggesting that functional transcription factor AP-1 activity is essential for the cellular transformation induced by these oncogenes. The suppression is not attributable to nonspecific inhibition of cellular proliferation, because CEF transformed by v-ros or v-myc were not induced to revert to the normal phenotype. We next analyzed changes in all known components of chicken AP-1 induced by v-src, c-Ha-ras, or activated c-raf transformation. The levels of both Fra-2 and c-Jun expression were elevated two-to fourfold, and hyperphosphorylation of Fra-2 was also observed. We further showed that Fra-2-c-Jun heterodimer is mainly responsible for the elevated AP-1 DNA-binding activity in these transformed cells, and we propose that this heterodimer play a crucial role in the transformation induced by these oncogenes.
We report the results of an extensive kinetic analysis of the effects of ACTH, cAMP derivatives (dibutyryl cAMP and 8-bromo-cAMP) and phorbol ester (phorbol-12-myristate-13-acetate) on the expression of fos and jun gene family members at the mRNA (Northern hybridization) and protein levels (immunoprecipitation and indirect immunofluorescence) in the mouse Y-1 adrenocortical cell line. FOS and JUN proteins are induced by ACTH independently of cell cycle stage. c-Fos, fos-B, fra-1, fra-2, c-jun, and jun-B genes are induced by ACTH, the kinetic profiles for mRNAs and respective protein products being similar, except for a 1-h protein delay. Jun-D mRNA is an exception, being constitutively expressed. However, JUN D protein is induced by ACTH. phorbol-12-myristate-13-acetate closely mimics these inductive effects of ACTH. On the other hand, cAMP derivatives are not effective in inducing the fos and jun genes, except for fra-2 mRNA, JUN D protein, and to some extent JUN B protein. Clearly, ACTH is endowed with the versatile capability of modulating fos and jun gene expression, suggesting that AP-1 transcription factors play a role in ACTH mechanisms of action. ACTH receptors are likely to activate signaling routes other than the classical cAMP/protein kinase A in order to induce FOS and JUN proteins.
Although a replication-competent retrovirus that carries junD has no transforming activity in chicken embryo fibroblasts, we have isolated mutant viruses that have spontaneously acquired transforming activity. The molecularly cloned junD genes of three such mutant viruses (T1, T2, and T3) were shown to be responsible for the cellular transformation. DNA sequence analysis indicated that a specific polynucleotide in the junD sequence was tandemly multiplied three times of five times in T1 and T2, respectively. The repeated polynucleotide encodes 16 amino acid residues that are located in a highly conserved region among Jun family proteins. The junD mutation in T3 involved an inversion, a translocation, and nucleotide substitutions that caused drastic amino acid exchanges in another well-conserved region among Jun family proteins. The transcriptional activity of these mutants was analyzed by means of transient expression experiments in F9 cells using a reporter gene containing a single AP-1 binding site. Compared with the wild-type JunD, none of them showed enhanced transactivating activity in the forms of homodimers or of heterodimers with c-Fos or Fra-1. However, they did exhibit much higher transactivating activity than the wild type when they formed heterodimers with Fra-2, indicating that the mutated regions function as transactivation domains in a partner-specific manner. Since we have previously reported that there is a basal level of Fra-2 expression in chicken embryo fibroblasts, the results may indicate that protein complexes between JunD mutants and Fra-2 play a crucial role in the cellular transforming activity.
We report here that, upon UV irradiation or growth stimulation, endogenous c-Jun (40 kDa) in chicken embryo fibroblasts (CEF) is converted into several forms with apparently higher molecular weights in SDS-polyacrylamide gel electrophoresis (45, 44, 42 kDa). Two of the bands (44 and 45 kDa) were transient after growth stimulation, but were much more persistent after UV irradiation. In both cases, the drastic mobility shifts were accompanied with the activation of endogenous JNK activity but not of MAPK activity, and the bands were shown to represent different phosphorylation states of c-Jun rather than ubiquitinated c-Jun. Biochemical analysis indicated that phosphorylation at Ser TQ and Ser UQ was not sufficient to produce these drastic mobility shifts, which additionally required phosphorylation at Thr WI and Thr WQ . Substitution of both SerTQ and Ser UQ with either Ala or Asp had no significant effect on the transforming activity of c-Jun, but the mutants failed to show drastic mobility shifts even after UV irradiation. These results indicate that Ser TQ and Ser UQ are essential for the drastic mobility shifts and further suggest that the highly phosphorylated forms of c-Jun are not directly involved in cellular transformation.z 1998 Federation of European Biochemical Societies.
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