Stimulation and inhibition of growth by EGF in different A431 cell clones is accompanied by the rapid induction of c-fos and c-myc proto-oncogenes

Stimulation of quiescent fibroblasts to growth by polypeptide growth factors is accompanied by the rapid induction of c-fos and c-myc proto-oncogenes. In contrast to fibroblasts, A431 cells respond to epidermal growth factor (EGF) with a decreased growth rate. Here we report that, in spite of its growth inhibitory effect, EGF rapidly induces transient expression of c-fos mRNA, followed by the synthesis of nuclear c-fos protein. In addition, EGF treatment resulted in elevated levels of c-myc expression. Practically identical results were obtained with variant A431 clones that are resistant to the inhibitory effect of EGF on cell proliferation. These observations suggest that in A431 cells c-fos and c-myc induction is a primary consequence of growth factor-receptor interaction. Indeed, efficient induction of both genes was also observed with cyanide bromide-cleaved EGF, which has previously been shown to be non-mitogenic but able to trigger early events induced by EGF. We observed strong induction of c-fos and to a lesser extent of c-myc also by TPA, and by the calcium ionophore A23187, indicating an important role for kinase C in proto-oncogene activation by growth factors.     

c-fos sequence necessary for basal expression and induction by epidermal growth factor, 12-O-tetradecanoyl phorbol-13-acetate and the calcium ionophore.

We have investigated the sequence requirements for induction of the human c-fos gene by epidermal growth factor (EGF), 12-O-tetradecanoyl-13-acetate (TPA), and the calcium ionophore A23187 by transfecting c-fos promoter mutants into HeLa and A431 cells. Induction by both EGF and TPA in HeLa cells required the presence of the c-fos enhancer located at -317 to -298 relative to the mRNA cap site. A23187, however, did not induce expression of the transfected gene, even though it strongly induced expression of the endogenous gene, suggesting that it has different requirements for induction than do EGF and TPA. We have also investigated the role of promoter sequences downstream of the enhancer in general expression and induction of c-fos. A sequence between -97 and -76, which includes an 8-base-pair perfect direct repeat, was needed for efficient general expression but not for induction of the gene. A factor in nuclear extracts that bound specifically to this sequence was detected by a gel mobility shift assay. A 7-base-pair sequence, located between -63 and -57 relative to the mRNA cap site and previously shown to be important for general expression of mouse c-fos, was also important for general expression of the human gene. In addition, this element was important for inducibility by EGF and TPA, since induction was significantly reduced when internal deletion mutants that retained the enhancer but lacked the -63 to -57 sequence element were analyzed in transfecting assays.     

Regulation of phospholipase D activity and ceramide production in daunorubicin-induced apoptosis in A-431 cells

We demonstrated here that daunorubicin induced apoptosis in A-431 cells, a human epidermoid carcinoma cell line. Treatment of cells with daunorubicin induced chromatin condensation, nuclear fragmentation, internucleosomal DNA degradation, and the proteolytic cleavage of PKC-delta and poly(ADP-ribose) polymerase in A-431 cells. Daunorubicin, as well as sphingomyelinase (SMase) and the exogenous cell-permeable ceramide analogue C(2)-ceramide, inhibited phospholipase D activity stimulated by phorbol 12-myristate 13-acetate or epidermal growth factor (EGF). Like ceramide, daunorubicin also decreased EGF-induced diacylglycerol generation. However, no increase in ceramide level was observed in daunorubicin-induced apoptosis in A-431 cells. Moreover, treatment of A-431 cells with exogenous cell-permeable C(2)-ceramide or SMase did not induce apoptosis. These results indicate that daunorubicin induces apoptosis in A-431 cells via a mechanism that does not involve increased ceramide formation.     

Rapid increases in the transglutaminase activity of A431 cells following treatment with epidermal growth factor

Transglutaminase activity was detected in lysates of A431 cells, a human epidermal carcinoma cell line. Enzyme activity was increased 1.5-2.5-fold in lysates prepared from cells pretreated with epidermal growth factor (EGF) relative to untreated control cells. Half-maximal activation of the transglutaminase activity occurred at 3-5 nM EGF, a concentration in good agreement with the Kd for EGF binding to its receptor in these cells. The increase in transglutaminase activity could be detected as early as 2 min after the addition of EGF, with the maximal response attained by 30 min. The activation was not blocked by pretreatment of the cells with cycloheximide, suggesting that the increased activity was not the result of an induction of transglutaminase synthesis. Fractionation of A431 cell lysates by centrifugation at 100000g for 30 min demonstrated that 90% of the transglutaminase activity was present in the soluble fraction and that this soluble transglutaminase activity was increased after treatment of the cells with EGF. The demonstration that EGF acutely increases the activity of a soluble, intracellular transglutaminase defines a novel pathway of growth factor action and provides a useful model system for identifying and comparing the mechanism(s) by which growth factors activate soluble enzymes.     

Transforming growth factor beta modulates phosphorylation of the epidermal growth factor receptor and proliferation of A431 cells.

Transforming growth factor beta (TGF-beta) increased the phosphorylation of the epidermal growth factor (EGF) receptor and inhibited the growth of A431 cells. Incubation with TGF-beta induced maximal EGF receptor phosphorylation to levels 1.5-fold higher than controls. Phosphorylation increased more prominently (4-5-fold) on tyrosine residues as determined by phosphoamino acid analysis and antiphosphotyrosine antibody immunoblotting. The kinase activity of EGF receptor was also elevated 2.5-fold when cells were cultured in the presence of TGF-beta. The antiproliferative effect of TGF-beta on A431 cells was accompanied by prolongation of G0-G1 phase and by morphological changes. TGF-beta augmented the growth inhibition of A431 cells which could be induced by EGF. In parallel, the specific EGF-induced increase in total phosphorylation of the EGF receptor was also augmented in the presence of TGF-beta. In cells cultured with TGF-beta, the phosphorylation of EGF receptor tyrosines induced by 20-min exposure to EGF was further increased 2-3-fold, suggesting additive effects upon receptor phosphorylation. EGF receptor activation by TGF-beta is characterized by kinetics quite distinct from that induced by EGF and therefore appears to take place through an independent mechanism. The TGF-beta-induced elevation in the phosphorylation of the EGF receptor may have a role in the augmented growth inhibition of A431 cells observed in the presence of EGF and TGF-beta.     

Production and characterization of antibody blocking epidermal growth factor:receptor interactions

Membranes were prepared from the human epithelioid carcinoma cell line A-431 which has approx. 2 . 10(6) epidermal growth factor receptors per cell. This membrane preparation which retained a high epidermal growth factor binding specific activity was used as an antigen to produce antisera in rabbits. Double-immunodiffusion experiments demonstrated that the immune serum contained precipitating antibodies to several components of detergent solubilized A-431 membranes. The immunoglobulin G fraction of this immune sera inhibited 125I-labeled epidermal growth factor binding to receptors in: (1) intact human and mouse cells; (2) membrane preparations from A-431 cells and human placenta, and (3) solubilized A-431 membranes. Inhibition of 125I-labeled epidermal growth factor binding was observed with divalent and monovalent fragments of immunoglobulin G prepared from the immunoglobulin G fraction. Also, the immunoglobulin G fraction blocked growth factor binding to membranes at low temperature (5 degrees C). Anti-A-431 antibody blocked the induction of DNA synthesis in quiescent fibroblasts by epidermal growth factor in a manner similar to that of anti-epidermal growth factor antibody. Addition of either anti-A431 or anti-epidermal growth factor antibodies to fibroblasts at times up to 5 h after the addition of epidermal growth factor completely reversed the hormone's mitogenic potential. At later times (after 12 h) addition of either antibody was without effect on the stimulation of DNA synthesis by epidermal growth factor. Anti-A-431 antibody did not block the induction of DNA synthesis in fibroblasts by fibroblast growth factor or serum.     

Production and characterization of antibody blocking epidermal growth factor: Receptor interactions

Membranes were prepared from the human epithelioid carcinoma cell line A-431 which has approx. 2 · 10⁶ epidermal growth factor receptors per cell. This membrane preparation which retained a high epidermal growth factor binding specific activity was used as an antigen to produce antisera in rabbits. Double-immunodiffusion experiments demonstrated that the immune serum contained precipitating antibodies to several components of detergent solubilized A-431 membranes.The immonoglobulin G fraction of this immune sera inhibited ¹²⁵I-labeled epidermal growth factor binding to receptors in: (1) intact human and mouse cells; (2) membrane preparations from A-431 cells and human placenta, and (3) solubilized A-431 membranes. Inhibition of ¹²⁵I-labeled epidermal growth factor binding was observed with divalent and monovalent fragments of immunoglobulin G prepared from the immunoglobulin G fraction. Also, the immunoglobulin G fraction blocked growth factor binding to membranes at low temperature (5°C).Anti-A-431 antibody blocked the induction of DNA synthesis in quiescent fibroblasts by epidermal growth factor in a manner similar to that of anti-epidermal growth factor antibody. Addition of either anti-A-431 or anti-epidermal growth factor antibodies to fibroblasts at times up to 5 h after the addition of epidermal growth factor completely reversed the hormone's mitogenic potential. At later times (after 12 h) addition of either antibody was without effect on the stimulation of DNA synthesis by epidermal growth factor. Anti-A-431 antibody did not block the induction of DNA synthesis in fibroblasts by fibroblast growth factor or serum.