Glucocorticoid-mediated alteration in growth factor binding and action: Analysis of the binding change

The addition of the glucocorticoid analog dexamethasone (DX) to serum-free cultures of human fibroblasts caused a twofold enhancement of the mitogenic response to epidermal growth factor (EGF), although DX by itself was not mitogenic. A basis for this effect was suggested by studies showing that DX also increased the cellular binding of ¹²⁵I-EGF. DX increased the ability of the cells to bind ¹²⁵I-EGF only at low physiological concentrations of this polypeptide. Thus, data from ¹²⁵I-EGF binding to cells incubated without DX produced a linear Scatchard plot, whereas the data from ¹²⁵I-EGF binding to DX-treated cells led to an upwardly curvilinear Scatchard plot. Measurements of ¹²⁵I-EGF association with the cell surface and cytoplasm indicated that this binding change involved an alteration of cell surface EGF receptors. The binding change appeared not to involve negatively cooperative interactions between EGF receptors, nor a change in the number of receptors. The binding alteration could be explained by a model in which DX converted 25–30% of the cell surface EGF receptors to a form having a fourfold increased affinity.     

Characterization of binding and receptors for epidermal growth factor in smooth muscle

Summary The mitogenic and differentiation-inducing activities of epidermal growth factor (EGF) in epithelial tissues have been well described. Since non-mitogenic effects of EGF, especially in mesenchymal tissues such as smooth muscle are not well-known (Nanney et al. 1984), we have examined EGF-binding and receptors in smooth muscle from many sites. Specific EGF binding sites were detected by incubating small pieces of tissue with ¹²⁵I-EGF; immunoreactive EGF receptors were detected by immunohistochemistry. In-situ localization of ¹²⁵I-EGF binding sites and immunoreactive EGF receptors of smooth muscle cells in intact mammalian tissues were identical using either ¹²⁵I-EGF autoradiography or anti-EGF receptor antibody in an immunoperoxidase method. Cultured rat aortic smooth muscle also contained specific EGF receptors as detected by their biological response to EGF-binding and internalization of ¹²⁵I-EGF, as well as EGF-stimulated phosphorylation of a 170K protein. The presence of EGF receptors in a well-differentiated smooth muscle cell indicates that EGF may play a physiological, but non-mitogenic role in mammalian tissues in vivo.     

Interactions between the receptors for platelet-derived growth factor and epidermal growth factor

Preincubation of Swiss 3T3 cells or human fibroblasts with purified platelet-derived growth factor (PDGF) at 4 degrees C or 37 degrees C rapidly inhibits subsequent binding of 125I-epidermal growth factor (125I-EGF). The effect does not result from competition by PDGF for binding to the EGF receptor since (a) very low concentrations of PDGF are effective, (b) cells with EGF receptors but no PDGF receptors are not affected, and (c) the inhibition persists even if the bound PDGF is eluted before incubating the cells with 125I-EGF. PDGF does not affect 125I-insulin binding nor does EGF affect 125I-PDGF binding under these conditions. Endothelial cell-derived growth factor also competes for binding to PDGF receptors and inhibits 125I-EGF binding. The inhibition demonstrated by PDGF seems to result from an increase in the Kd for 125I-EGF binding with no change in the number of EGF receptors.     

The effects of epidermal growth factor on cell proliferation and prolactin production by GH3 rat pituitary cells

The effects of epidermal growth factor (EGF) were studied in rat pituitary tumor cells, GH₃, grown in serum-supplemented and serum-free chemically defined media. EGF (1 nM) increased the cell number to 132% of the control cultured in the defined medium during a 6-day incubation period, while it decreased the cell number to 60% of the control in the serum-supplemented medium. EGF altered the morphology of the cells grown in the defined medium more markedly to an elongated conformation than that of cells grown in the serum-supplemented medium. EGF also stimulated prolactin (PRL) production by culture in the presence or absence of serum. The effects of the cell density of GH₃ on the action of EGF were shown to appear in two ways. The mitogenic influence of EGF was more effective on, and more responsive to, high-density cells, whereas the stimulatory action on PRL production was less effective on high-density cells. However, the inhibitory effects on cellular growth appeared independently of cell densities. The results obtained with ¹²⁵I-EGF binding experiments indicated that the number of binding sites, affinity, and internalization of EGF receptors were similar in either serum-supplemented or serum-free culture. At low cell density, the number of available ¹²⁵I-EGF binding sites per cell was larger than at high cell density. These results suggested that there was no apparent correlation between EGF binding and its differing effects on the growth of GH₃ cultured in the serum-supplemented and the defined medium.     

Accumulation of epidermal growth factor receptors in retinoic acid-treated fetal rat lung cells is due to enhanced receptor synthesis

125I-Epidermal growth factor (EGF) binding capacity in fetal rat lung (FRL) cells is increased approximately 2 to 3-fold within 18 h of retinoic acid addition. Analysis of 125I-EGF binding assays at 0 C reveals approximately 25,000 receptors per cell, while analysis of growth factor binding to retinoic acid-treated cells demonstrates an increase in receptor levels to approximately 70,000 receptors per cell with no detectable changes in receptor affinities. We show by immunoprecipitation of 35S-methionine labeled EGF receptors that retinoic acid addition produces an increase in the accumulation of EGF receptor protein. Using brief pulses of 35S-methionine, an increase in EGF receptor synthesis can be identified within 3 h after retinoic acid addition. These results are the first to demonstrate that a retinoic acid-induced increase in 125I-EGF binding capacity is due to increased EGF receptor protein synthesis. Also, we find that a transient decrease in the rate of EGF receptor turnover occurs when retinoic acid is initially added to FRL cells. On the basis of our data, we conclude that the retinoic acid-induced accumulation of EGF receptors in FRL cells is primarily due to increased receptor synthesis. The effect of retinoic acid on EGF receptor turnover may be a secondary factor, influencing the rate at which receptors accumulate.     

Subcellular structures involved in internalization and degradation of epidermal growth factor

Epidermal Growth Factor (EGF), a small polypeptide which acts as a mitogen for many cell types, has previously been shown to bind to a specific plasma membrane receptor on 3T3 cells. If ¹²⁵I-EGF is bound to 3T3 cells for one hour at 4°C, it remains predominantly associated with the plasma membrane-containing fractions obtained by subjecting cell supernatants to equilibrium sedimentation on sucrose gradients. When binding is followed by a 10-minute incubation at 37°C, over 50% of the ¹²⁵I-EGF is associated with two internal membrane-containing peaks having higher densities than the plasma membrane. After one hour at 37°C, over 80% of the ¹²⁵I-EGF is degraded and removed from the cells. The most rapidly labeled internal peak corresponds in density to brain-coated vesicles (CVs). Antiserum prepared against coated vehicles from brain precipitates the ¹²⁵I-EGF in this peak. In addition, CVs containing ¹²⁵I-EGF can be co-purified from 3T3 cells exposed to ¹²⁵I-EGF, using brain as a carrier. Several lines of evidence suggest that the other ¹²⁵I-EGF-labeled intracellular peak is ¹²⁵I-EGF in lysosomes. These results provide kinetic and biochemical evidence for a unidirectional pathway for EGF catabolism by 3T3 cells. EGF first binds to the plasma membrane bound receptors, is then moved to the cytoplasm in CVs, and finally appears in lysosomes, where it is degraded and released from the cells. Ten-millimolar NH₄Cl blocks lysosomal hydrolysis of EGF almost completely. Subsequently, EGF internalization is inhibited. This finding suggests that the pathway for EGF internalization and degradation is tightly coupled.     

Epidermal growth factor receptors on PC12 cells: Alteration of binding properties by lectins

The PC12 cell line displays cell surface receptors for both nerve growth factor (NGF) and epidermal growth factor (EGF). It has been previously shown that the lectin wheat germ agglutinin (WGA) alters the properties of NGF receptors on these cells. We now report that preincubations with either WGA or concanavalin A (Con A) decrease the binding of ¹²⁵I-EGF to PC12 cells by greater than 50%. The inhibition of binding occurred at 37°C and 4°C and could be blocked or reversed by the addition of sugars which bind specifically to WGA or Con A. Scatchard analysis revealed that these lectins decreased binding primarily by lowering the affinity of the receptor and to a lesser extent by decreasing receptor number. Succinylalion of Con A (sCon A) produced a derivative that was less effective than the native lectin in decreasing EGF binding; however, addition of an antibody against Con A restored the ability of sCon A to decrease binding. Similar to results obtained with ¹²⁵I-NGF binding, WGA but not Con A was found to increase, by scveralfold; the proportion of ¹²⁵I-EGF binding that is resistant to solubilization by Triton X-100 detergent. A potential association of the EGF receptor with cytoskeletal elements is discussed which could account for such results.     

p-Azidophenylglyoxal-Epidermal Growth Factor: A Photoactivatable Affinity Crosslinking Reagent

Abstract

A photoaffinity derivative of highly purified ¹²⁵I-labelled epidermal growth factor (¹²⁵I-EGF) has been synthesized. The heterobifunctional crosslinking reagent p-azidophenylglyoxal (PAPG) was bound to arginine residues in ¹²⁵I-EGF. PAPG-¹²⁵I-EGF bound to EGF receptors on rat fibroblasts and human A431 epidermoid carcinoma cells in culture. An apparent decreased affinity of PAPG-¹²⁵I-EGF for the EGF receptor is in accord with at least one arginine being at or near the EGF receptor binding site. The PAPG-¹²⁵I-EGF:EGF receptor complexes on rat cells were internalized to the same extent as control EGF:receptor complexes. A431 cells treated with PAPG-¹²⁵I-EGF were irradiated with ultraviolet light and the labelled proteins were analyzed by SDS-polyacrylamide gel electrophoresis. The 3 major labelled proteins had apparent molecular weights ranging from 75,000 to 200,000. Only the labelling of the 200,000-M_r protein was prevented by the addition of excess unlabelled EGF with the PAPG-¹²⁵I-EGF. This molecular weight is in agreement with the reported size of the EGF receptor plus EGF. A protein with apparent molecular weight of 100,000 was labelled by ¹²⁵I-EGF by an unknown mechanism which was dependent on the dose of UV light and blocked by the addition of excess unlabelled EGF.     

Inhibition of epidermal growth factor binding to mouse cultured cells by fibroblast-derived growth factor. Evidence for an indirect mechanism

Fibroblast-derived growth factor (FDGF), a basic, heat- and acid-stable polypeptide partially purified from the serum-free conditioned medium of BHK cells transformed by simian virus 40, is a potent mitogen for Swiss 3T3 cells and causes a marked reduction in 125I-labeled epidermal growth factor (125I-EGF) binding to these cells. The activity which inhibits EGF binding coelutes with the growth-stimulating activity after gel filtration, ion exchange chromatography, and sodium dodecyl sulfate polyacrylamide gel electrophoresis. Both cellular responses are elicited by the same range of FDGF concentration in several murine cell types. The inhibition of EGF binding is rapid and results from a decrease in the apparent affinity of cellular receptors for 125I-EGF. FDGF does not affect the rate of cell-mediated 125I-EGF degradation. Several lines of evidence suggest that FDGF does not bind directly to EGF receptor. First, the effect of FDGF is dependent on the temperature of the assay; furthermore, treatment of cells with EGF results in loss of EGF receptors while exposure to FDGF for up to 24 h does not induce "down-regulation" of EGF receptors. Further, in A431 cells which display a large number of specific EGF receptors, 125I-EGF binding is not sensitive to FDGF. Finally, the effect of FDGF on 125I-EGF binding is not observed with isolated plasma membranes. Taken together, these findings suggest that FDGF binds to sites which are separate from EGF receptors. The results show a novel mechanism whereby a growth-promoting factor produced by a tumor cell line can rapidly modulate the affinity of the cellular receptors for EGF in an indirect manner.     

Differential effects of a heparin antagonist (hexadimethrine) or chlorate on amphiregulin,basic fibroblast growth factor,and heparin-binding EGF-like growth factor activity

Amphiregulin (AR) and heparin-binding EGF-like growth factor (HB-EGF) are two recently identified members of the EGF family. Both AR and HB-EGF share with EGF the ability to interact with the type-1 EGF receptor; however, AR and HB-EGF differ from EGF in that both of these mitogens bind to heparin while EGF does not. To determine whether interactions with heparin-like molecules on the cell surface influence binding of AR and HB-EGF with EGF receptors and the subsequent mitogenic activity exerted by these growth factors, murine AKR-2B and Balb/MK-2 cells were treated with either an inhibitor of proteoglycan sulfation (chlorate) or a heparin antagonist (hexadimethrine). As expected, neither treatment significantly altered the specific binding of ¹²⁵I-EGF on AKR-2B cells. Interestingly, treatment with either chlorate or hexadimethrine inhibited the ability of AR to compete with ¹²⁵I-EGF for cell surface binding and also attenuated AR-mediated DNA synthesis. Thus, as has been suggested for other heparin-binding growth factors such as basic fibroblast growth factor (bFGF), the interaction of AR with an EGF-binding receptor appears to be facilitated by interaction with cell-associated sulfated glycosami-noglycans or proteoglycans. Unexpectedly, however, neither chlorate nor hexadimethrine treatment caused an inhibition of HB-EGF-induced mitogenic activity. Chlorate treatment did not significantly alter the ability of HB-EGF to compete with ¹²⁵I-EGF for cell surface binding sites, however, heparin and hexadimethrine reduced the ability of HB-EGF to compete for ¹²⁵I-EGF binding. These results suggest that, in AKR-2B cells, HB-EGF may mediate its mitogenic response at least in part through a receptor which appears to be selective for HB-EGF and permits HB-EGF-mediated mitogenic responses in the presence of hexadimethrine or heparin. Finally, hexadimethrine inhibited the specific binding and mitogenic activity of bFGF, suggesting that this cationic polymer can function as an antagonist of heparin-binding mitogens other than AR. © 1995 Wiley-Liss, Inc.     

Comparing the epidermal growth factor interaction with four different cell lines: intriguing effects imply strong dependency of cellular context

The interaction of the epidermal growth factor (EGF) with its receptor (EGFR) is known to be complex, and the common over-expression of EGF receptor family members in a multitude of tumors makes it important to decipher this interaction and the following signaling pathways. We have investigated the affinity and kinetics of ¹²⁵I-EGF binding to EGFR in four human tumor cell lines, each using four culturing conditions, in real time by use of LigandTracer®.Highly repeatable and precise measurements show that the overall apparent affinity of the ¹²⁵I-EGF – EGFR interaction is greatly dependent on cell line at normal culturing conditions, ranging from K_D≈200 pM on SKBR3 cells to K_D≈8 nM on A431 cells. The ¹²⁵I-EGF – EGFR binding curves (irrespective of cell line) have strong signs of multiple simultaneous interactions. Furthermore, for the cell lines A431 and SKOV3, gefitinib treatment increases the ¹²⁵I-EGF - EGFR affinity, in particular when the cells are starved. The ¹²⁵I-EGF - EGFR interaction on cell line U343 is sensitive to starvation while as on SKBR3 it is insensitive to gefitinib and starvation.The intriguing pattern of the binding characteristics proves that the cellular context is important when deciphering how EGF interacts with EGFR. From a general perspective, care is advisable when generalizing ligand-receptor interaction results across multiple cell-lines.     

Inhibition of epidermal growth factor binding to Swiss 3T3 cells by human platelet release-products

Human platelet ionophore release-products (IRP) inhibit the binding of 125I-labelled epidermal growth factor (125I-EGF) to its receptors on Swiss 3T3 cells. The inhibition appears to be caused by platelet-derived growth factor (PDGF) in the IRP and results from a decrease in the apparent affinity of cellular receptors for 125I-EGF. However, our results indicate that PDGF does not bind directly to EGF receptors, since (1) PDGF does not down-regulate EGF receptors; (2) the PDGF-mediated inhibition of 125I-EGF binding is temperature-dependent; (3) cells which possess EGF receptors but lack PDGF receptors do not exhibit a PDGF-mediated inhibition of 125I-EGF binding.     

Properties of receptors for epidermal growth factor in detergent solution: Evidence for heterogeneous aggregated states

Between 60% and 100% of epidermal growth factor (EGF) binding activity was recovered from membranes of the A431 human epidermoid carcinoma cell line treated with solutions containing the nonionic detergent Triton X-100. Approximately half of the recovered binding activity was sedimented at low centrifugal forece and hence was operationally insoluble in nonionic detergent solution. Receptors in both the detergent-soluble and -insoluble fractions displayed similar affinities for ¹²⁵I-EGF, and the values were in good agreement with those obtained for receptors in untreated membranes. The receptors in both fractions also formed identical direct linkage complexes with ¹²⁵I-EGF in similar yield, providing no evidence for partitioning of different molecular species of EGF receptors in the detergent-soluble and -insoluble fractions. Gel chromatography of the detergent-soluble membrane fraction on Sepharose 6-B revealed heterogeneity of ¹²⁵I-EGF binding activity; the smallest and most monodisperse peak of activity resolved by this technique was eluted at a Stokes radius of 95 Å. Operationally soluble ¹²⁵I-EGF binding activity also behaved heterogeneously during velocity sedimentation; more than half the activity sedimented more rapidly than the apparently monidisperse, 7S form. An average of less than half the nonionic detergent-solubilized activity recovered from 10 independent membrane preparations behaved as an apparently monodisperse entity. Since a maximum of 60% of ¹²⁵I-EGF binding activity was operationally soluble, less than 25% of the total EGF binding activity was recovered in an apparently monodisperse form. The remaining 75% of the EGF receptors displayed a marked tendency to exist as aggregates in nonionic detergent solutions.     

Receptors for epidermal growth factor and insulin-like growth factor-I on preimplantation trophoderm of the pig.

125I-labelled epidermal growth factor (125I-EGF) and 125I-labelled insulin-like growth factor-I (125I-IGF-I) bound to trophoderm cells from pig blastocysts obtained on days 15-19 of pregnancy. Specific binding was detected on freshly isolated cell suspensions and on cells cultured for several days. The binding of 125I-EGF was inhibited by increasing concentrations of EGF, but not by various other growth factors and hormones. Chemical cross-linking of 125I-EGF to its receptors using disuccinimidyl suberate (DSS) revealed a radiolabelled band of relative molecular mass 160,000, similar to that identified as the EGF receptor in other cell types. The binding of 125I-IGF-I was inhibited by both IGF-I and insulin, indicating that the receptors were either type I IGF receptors or insulin receptors. Cross-linking of 125I-IGF-I to serum-free supernatants from trophoderm cultures showed that the cells secreted an IGF-binding protein, giving a complex of relative molecular mass about 45,000. The presence of receptors for EGF and IGF/insulin suggests that these factors could be involved in regulating the growth and development of the early blastocyst.     

Epidermal growth factor stimulates fluid phase endocytosis in human fibroblasts through a signal generated at the cell surface

We have investigated the stimulation of fluid phase endocytosis by epidermal growth factor (EGF) in normal human fibroblasts using ¹²⁵I-labeled polyvinylpyrrolidone (¹²⁵I-PVP) as a fluid phase marker. We found that EGF initially induced a thereefold increase in the rate of ¹²⁵I-PVP uptake. This initial burst of fluid uptake terminated within 10 min. Thereafter, the rate of fluie uptake in EGF-treated cells was approximately 40% higher than in control cells. To identify the cellular site of EGF action in stimulating fluid phase endocytosis, we examined the kinetics of the induction of this response as well as the kinetics of cell surface binding and internalization of ¹²⁵I-EGF. Although there was no detectable lag between binding of EGF to the cell surface and its internalization, the kinetics of the two processes were quite different. Significantly, the kinetics of induction of ¹²⁵I-PVP uptake matched the kinetics of binding of ¹²⁵I-EGF to its cell surface receptors, indicating that the signal for the increase in fluid phase endocytosis is generated at the cell surface. To determine if EGF-stimulated fluid phase endocytosis was related to EGF-stimulated endocytosis of its own receptor, we compared the EGF dose dependency and time course of the two processes. Although the stimulated endocytosis of the EGF receptor was not saturable with respect to the concentration of EGF used, the stimulation of fluid phase endocytosis was half maximal at an EGF concentration of 1 ng/ml and saturated at a concentration of 5 ng/ml. Also, the stimulation of fluid phase endocytosis was sevenfold greater initially after adding EGF than after a 30-min continuous incubation with the hormone, whereas the enhanced clearance of the EGF receptor did not change during this time period. We conclude that the EGF-stimulated increase in fluid phase endocytosis is not directly coupled to EGF-stimulated endocytosis of its own receptor but instead to a separate signal generated at the cell surface.     

Solubilization of membrane receptor for epidermal growth factor.

The membrane receptor for epidermal growth factor (EGF) has been solubilized from A-431 tumor cells using Triton X-100. Operational criteria used to define solubilization include failure of the binding activity to be pelleted after centrifugation at 90,000 x g for 1.5 hrs and the requirement for polyethylene glycol precipitation to detect ¹²⁵I-EGF: receptor complexes on membrane filters. Properties of the solubilized EGF are characterized and compared to the properties of the particulate receptor. The specific binding capacity of the solubilized EGF receptor was 8.0 picomoles ¹²⁵I-EGF bound per mg protein--approximately 60% of the binding capacity of particulate receptor preparations. Also, solubilization of the EGF receptor resulted in a 10-fold decrease in the affinity of the receptor for ¹²⁵I-EGF.     

Epidermal growth factor receptors lose ligand binding ability as WI-38 cells progress from short-term to long-term quiescence

WI-38 cells, density arrested for short periods of time, can be stimulated to re-enter the cell cycle by epidermal growth factor (EGF) alone. However, cells density arrested for longer periods have a prolonged prereplicative phase when serum stimulated and cannot be stimulated by EGF alone. Radio-ligand binding studies performed on WI-38 cells showed that actively growing cells bind [¹²⁵I]EGF at relatively low levels that increase to a maximum as the cells become contact inhibited. As the cells enter a state of deeper quiescence, EGF binding falls to one-third to one-fifth the short-term growth arrested levels, remaining constant thereafter. The EGF-receptor complexes internalize more slowly in long-term growth arrested cells, and the rate of ligand association to the receptor is lower than short-term growth arrested cells. The amount of EGF receptor protein in lysates of equal numbers of both short- and long-term quiescent cells remains the same. These results suggest that the failure of long-term growth arrested cells to respond to EGF is not due to dramatic changes in the amount of receptor protein during prolonged quiescence but more likely to an alteration in the ability of these receptors to bind ligand and/or activate the EGF signal transduction pathway. © 1993 Wiley-Liss, Inc.     

Inhibition of the binding of 125I-labelled epidermal growth factor to mouse cells by a mitogen in goat mammary secretions.

Pre-colostrum and colostrum from goats cause a marked inhibition of the binding of 125I-labelled epidermal growth factor (125I-EGF) to Swiss 3T3 cells. The ability of these secretions to inhibit 125I-EGF binding is closely correlated with the ability to stimulate DNA synthesis in quiescent 3T3 cell cultures, suggesting that goat mammary secretions may contain an EGF-related mitogen. However, the material in colostrum which inhibits 125I-EGF binding to Swiss 3T3 cells is a basic protein with Mr greater than 20000 and is thus quite different from mouse and human EGF. Furthermore, the colostral-mediated inhibition of 125I-EGF binding, although rapid and apparently competitive, differs from the inhibition of binding induced by native, unlabelled EGF. Thus, the inhibitory effect of colostrum is markedly decreased when the assay temperature is shifted from 37 degrees C to 4 degrees C whereas unlabelled EGF is an effective competitive inhibitor at both 37 degrees C and 4 degrees C. Incubation of cells with EGF causes a reduction in cell surface EGF receptors whereas exposure to colostrum does not induce down-regulation of the EGF receptor. Our results suggest that the colostral factor does not bind directly to EGF receptors but inhibits 125I-EGF binding by an indirect mechanism which involves a temperature-sensitive step.     

Characterization of epidermal growth factor receptor induction by retinoic acid in a chemically transformed rat liver cell line

Levels of epidermal growth factor (EGF) receptor expression vary widely among cell lines derived clonally from a chemically transformed population of rat liver epithelial cells. Retinoic acid (RA), a derivative of vitamin A that stimulates differentiation in a number of embryonal cell lines, increases the level of 125I-EGF binding in several clones of the transformed cell lines. One such cell line, GP6ac, which reverts to a less transformed phenotype when treated with RA, exhibited a 3-4-fold increase in surface EGF receptors with prolonged (2-5-day) RA exposure. The increase persisted as long as the cells were treated with RA. The increase in surface EGF receptors was due to induction of receptor biosynthesis, which occurred within 4 h at both the mRNA and protein levels and persisted until the RA was withdrawn. Paradoxically, the RA response was accompanied by an initial 40-50% decrease in 125I-EGF binding during the first 12 h of RA treatment. The decrease was due primarily to a reduction of receptor affinity. Since the phorbol ester 12-O-tetradecanoylphorbol-13-acetate also decreases 125I-EGF binding and increases EGF receptor biosynthesis in GP6ac cells, we tested the effect of RA in cells depleted of protein kinase C by prolonged treatment (18 h) with 10 microM 12-O-tetradecanoylphorbol-13-acetate. The absence of protein kinase C did not affect the induction of receptor mRNA and protein or the decrease in binding during the early period of RA exposure. This indicates that RA induction of EGF receptor synthesis in GP6ac cells involves signaling pathways distinct from those utilized by phorbol esters.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cyclic AMP potentiates down regulation of epidermal growth factor receptors by platelet-derived growth factor

Pretreatment of $\text{Balb}\text{c}\text{-3T3}$ cells with platelet-derived growth factor (PDGF) has been shown to decrease binding sites for ¹²⁵I-labelled epidermal growth factor (EGF) (1,2,3). Agents which elevate cellular cyclic AMP concentrations enhance this ability, and the change in EGF binding is inversely proportional to the elevation of cyclic AMP. In quiescent density arrested cells, the sensitivity of cells to down regulation of EGF receptors by PDGF is proportional to the cyclic AMP content of the cultures in three different cell lines. Agents which elevate cyclic AMP and which potentiate PDGF mediated heterologous down regulation of EGF receptors are able, like cholera toxin (3), to stimulate cells to synthesize DNA in defined medium in the absence of EGF. Down regulation of EGF receptors by PDGF in combination with agents elevating cyclic AMP effectively mimics the action of EGF.