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Proteins encoded by the adenovirus E1A oncogene are capable of positive and negative transcriptional regulation of both viral and cellular genes. E1A regulatory function is commonly thought to involve modifications of specific cellular factors that interact with responsive promoters. In this report we present evidence that E1A induces the activity of the jun/AP-1 transcription factor in three different cell types: P19, JEG-3, and HeLa. AP-1 binds to 12-O-tetradecanoylphorbol-13-acetate (TPA)-responsive elements (TREs); therefore, E1A might modulate a specific signal transduction pathway normally induced by activation of the protein kinase C. Binding of jun/AP-1 to a TRE is induced in all cell types studied when E1A is expressed. We observe that the expression of endogenous c-jun and jun B genes is induced by E1A, which directly transactivates the promoters of c-fos, c-jun, and jun B. Similar inducibility is obtained by treatment with retinoic acid and differentiation of P19-embryonal carcinoma cells. The E1A 13S product transactivates TRE sequences and cooperates with c-jun in the transcriptional stimulation. The 12S E1A product does not activate a TRE sequence, but cotransfection with c-jun circumvents this lack of stimulation. Coexpression of c-fos and E1A 12S, however, blocks the transactivation by c-jun, suggesting an important role for fos in determining the dominance of the 12S or 13S protein.
Mol Cell Biol 1991 Jan
PMID:Positive regulation of jun/AP-1 by E1A. 182 13

We have examined expression of the N-myc, c-fos and smg p25A genes in two human neuroblastoma cell lines during their differentiation. The decrease in the N-myc gene expression and the increase in the c-fos gene expression are observed during the differentiation of NB-1 cells into neuronal cells and of GOTO cells into Schwann-type cells. On the other hand, the smg p25A, a ras p21-like small GTP-binding protein, gene expression is increased in NB-1 cells but not in GOTO cells during their differentiation, suggesting that smg p25A is closely associated with the neuronal phenotype of neuroblastoma cells.
Brain Res Mol Brain Res 1991 Jan
PMID:Differential expression of the N-myc, c-fos, and smg p25A genes in human neuroblastoma cells during neuronal and Schwannian differentiation. 185 70

The present study addresses possible mechanisms through which cAMP mediates its effects on mRNA levels for the subunits of protein kinase A (PKA) and the cellular protooncogene, c-fos. Messenger RNAs for the PKA subunits (RI alpha, RII alpha, RII beta, and C alpha) were regulated by cAMP with similar kinetics in Sertoli cells. However, effects of cAMP on the PKA mRNAs were slow compared to a well characterized cAMP responsive gene, c-fos. The magnitude of stimulation was dramatically different between the various PKA subunits, in that RII beta mRNA increased more than 50-fold while the mRNAs for the other subunits were induced only two to four times. Separation of nuclear and cytoplasmic RNA demonstrated that mRNAs for PKA subunits were stimulated to the same extent in these two cellular compartments. The more rapid induction of c-fos mRNA by cAMP, compared to the mRNA for RII beta, was also seen at the level of transcription. Maximal transcription rate for c-fos, RI alpha, and C alpha were observed after 30 min, whereas that for RII beta was increasing during the 2-h period examined. Transcriptional activation of the RI alpha gene also appeared faster than that for RII beta. When Sertoli cells were incubated with 8-(4-chlorophenylthio) cAMP and cycloheximide, a potent inhibitor of protein synthesis, we observed a super-induction of the mRNAs for c-fos (10-fold) and RI alpha (2-fold).(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1991 Jan
PMID:Different mechanisms are involved in cAMP-mediated induction of mRNAs for subunits of cAMP-dependent protein kinases. 185 Jan 8

Growth factor regulation of c-fos proto-oncogene transcription is mediated by a 20-bp region of dyad symmetry, termed the serum response element. The inner core of this element binds a 67-kDa phosphoprotein, the serum response factor (SRF), that is thought to play a pivotal role in the c-fos transcriptional response. To investigate the mechanism by which SRF regulates c-fos expression, we generated polyclonal anti-SRF antibodies and used these antibodies to analyze the biochemical properties of SRF. These studies indicate that the synthesis of SRF is transient, occurring within 30 min to 4 h after serum stimulation of quiescent fibroblasts. Newly synthesized SRF is transported to the nucleus, where it is increasingly modified by phosphorylation during progression through the cell cycle. Within 2 h of serum stimulation, differentially modified forms of SRF can be distinguished on the basis of the ability to bind a synthetic serum response element. SRF protein exhibits a half-life of greater than 12 h and is predominantly nuclear, with no change occurring in its localization upon serum stimulation. We find that the induction of SRF synthesis is regulated at the transcriptional level and that cytoplasmic SRF mRNA is transiently expressed with somewhat delayed kinetics compared with c-fos mRNA expression. These features of SRF expression suggest a model whereby newly synthesized SRF functions in the shutoff of c-fos transcription.
Mol Cell Biol 1991 Sep
PMID:The serum response factor is extensively modified by phosphorylation following its synthesis in serum-stimulated fibroblasts. 187 37

Three cis-acting domains that contribute to the basal promoter activity of the human c-fos gene were identified. One encompasses the serum response element and has been previously described. Another spans an NF1-like site situated at -170. Mutations and in vitro protein binding assays pinpoint this site as the sole basal element of the medial domain. The third, or promoter-proximal, domain can be divided into several distinct sites, one containing a directly repeated GC-rich element and the other consisting of partially overlapping recognition sites for transcription factors ATF/CREB and MLTF/USF. Each of these sites contributes to basal activity as assayed by transient transfections and by in vitro transcription. Consistent with this, several complexes could be visualized between this region and nuclear proteins in vitro and genomic footprinting demonstrated that both elements are constitutively bound in vivo. On the basis of these results, we conclude that all three domains are necessary for full c-fos promoter function.
Mol Cell Biol 1991 Mar
PMID:Multiple basal promoter elements determine the level of human c-fos transcription. 189 6

Treatment of macrophages with interferon-gamma (IFN gamma) strongly decreased the induction of c-fos mRNA by 12-O-tetradecanoylphorbol-13-acetate (TPA), lipopolysaccharide, or calcium ionophore A23187 in macrophages. Under the same experimental conditions, IFN gamma induced oligo(A) synthetase mRNA and did not affect the constitutive expression of transforming growth factor beta mRNA, indicating that IFN gamma did not induce general degradation of mRNAs. Run-on experiments indicated that c-fos was constitutively transcribed at low levels and that TPA augmented c-fos transcription. IFN gamma did not inhibit constitutive or TPA-induced c-fos transcription. However, IFN gamma decreased c-fos mRNA stability, as assessed by measuring the half-life of c-fos mRNA in actinomycin D-treated cells. These results indicated that IFN gamma inhibited c-fos mRNA induction by TPA at the posttranscriptional level.
Mol Cell Biol 1991 May
PMID:c-fos mRNA expression in macrophages is downregulated by interferon-gamma at the posttranscriptional level. 190 45

The serum response element (SRE) is essential for serum and growth factor stimulation of the c-fos gene. We have examined the nuclear proteins, obtained from tissues with elevated expression of the c-fos gene (proliferating rat liver and hepatocarcinoma), that bind to the SRE sequence. A synthetic oligonucleotide containing the SRE sequence from the mouse c-fos gene promoter (-299 to -322) was radioactively labeled, used as a probe for the mobility shift assay and Southwestern (DNA-protein) blotting, and also used for sequence-specific affinity chromatography. We have identified a group of nuclear proteins of molecular sizes 36, 45, 62, 67, 72, and 112 kDa capable of interacting with the SRE sequence. The 36-, 67-, and 112-kDa proteins have DNA-binding properties, but the presence of the others in the SRE-protein complex could be the result of protein-protein interaction. All of these protein factors were present in nuclei obtained from intact and proliferating rat liver as well as from 5123tc Morris hepatoma. The DNA-binding activity (on Southwestern blots) of the 67- and 112-kDa proteins was not affected by alkaline phosphatase treatment, but the ability of the dephosphorylated nuclear proteins to form the complex with the SRE sequence under gel shift assay conditions was severely impaired. The same alkaline phosphatase treatment completely abolished the DNA-binding properties of the c-fos cyclic AMP-responsive element-specific proteins. Therefore, transcriptional activation of the c-fos gene at the SRE must require the presence of a multiprotein complex the formation of which is governed by phosphorylation. The binding of the 67- and 62-kDa proteins to the c-fos SRE has been previously reported; however, the 36-. 45-, 72-, and 112-kDa proteins are novel factors involved in the multifaceted regulation of c-fos gene expression in vivo.
Mol Cell Biol 1991 May
PMID:Identification of a multiprotein complex interacting with the c-fos serum response element. 190 46

Exposure of mammalian cells to DNA-damaging agents leads to activation of a genetic response known as the UV response. Because several previously identified UV-inducible genes contain AP-1 binding sites within their promoters, we investigated the induction of AP-1 activity by DNA-damaging agents. We found that expression of both c-jun and c-fos, which encode proteins that participate in formation of the AP-1 complex, is rapidly induced by two different DNA-damaging agents: UV and H2O2. Interestingly, the c-jun gene is far more responsive to UV than any other immediate-early gene that was examined, including c-fos. Other jun and fos genes were only marginally affected by UV or H2O2. Furthermore, UV is a much more efficient inducer of c-jun than phorbol esters, the standard inducers of c-jun expression. This preferential response of the c-jun gene is mediated by its 5' control region and requires the TPA response element, suggesting that this element also serves as an early target for the signal transduction pathway elicited by DNA damage. Both UV and H2O2 lead to a long-lasting increase in AP-1 binding activity, suggesting that AP-1 may mediate the induction of other damage-inducible genes such as human collagenase.
Mol Cell Biol 1991 May
PMID:Rapid and preferential activation of the c-jun gene during the mammalian UV response. 190 48

Cultured mouse thioglycolate-elicited peritoneal macrophages exhibit a strong block to transcriptional elongation beyond the end of the c-fos gene first exon. This block is absent in freshly isolated peritoneal cells, appears slowly during culture, and does not require adherence of the cells. The extent of this block is largely responsible for the levels of c-fos mRNA in cultured macrophages, even after modulation by agents such as the tumor promoter phorbol myristate acetate and increased intracellular cyclic AMP, which also increase the activity of the c-fos promoter. When macrophages are cultured in the absence of mobilizable calcium, the block can no longer be relieved by any inducing agent. Conversely, upon calcium influxes, there is little alteration in the level of transcriptional initiation, but transcription proceeds efficiently through the entire c-fos locus. These results suggest the presence of an intragenic calcium-responsive element in the c-fos gene and illustrate its key role in the control of c-fos gene transcription.
Mol Cell Biol 1991 May
PMID:c-fos gene transcription in murine macrophages is modulated by a calcium-dependent block to elongation in intron 1. 190 49

A strong block to the elongation of nascent RNA transcripts by RNA polymerase II occurs in the 5' part of the mammalian c-fos proto-oncogene. In addition to the control of initiation, this mechanism contributes to transcriptional regulation of the gene. In vitro transcription experiments using nuclear extracts and purified transcription templates allowed us to map a unique arrest site within the mouse first intron 385 nucleotides downstream from the promoter. This position is in keeping with that estimated from nuclear run-on assays performed with short DNA probes and thus suggests that it corresponds to the actual block in vivo. Moreover, we have shown that neither the c-fos promoter nor upstream sequences are absolute requirements for an efficient transcription arrest both in vivo and in vitro. Finally, we have characterized a 103-nucleotide-long intron 1 motif comprising the arrest site and sufficient for obtaining the block in a cell-free transcription assay.
Mol Cell Biol 1991 May
PMID:Sequence requirements for premature transcription arrest within the first intron of the mouse c-fos gene. 190 50

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