Transit of epidermal growth factor through coated pits of the Golgi system

Using the direct conjugate of epidermal growth factor (EGF) and horseradish peroxidase, we have followed the entry of EGF into KB (human carcinoma) cells. EGF initially was found bound diffusely to the entire cell surface at 4 degrees C; on warming to 37 degrees C, EGF was found clustered in clathrin-coated pits on the plasma membrane in 1 min or less. Within 1-2 min at 37 degrees C, EGF began to accumulate in receptosomes within the cell and remained there for up to 10 min. At 10-13 min after warming to 37 degrees C, EGF was found in thin reticular membranous elements of the Golgi system, as well as concentrated in the clathrin-coated pits present on these membranes. By 15 min after warming, EGF began to be delivered to lysosomes located near the Golgi system. These findings suggest that clathrin-coated pits in the Golgi reticular system accumulate EGF before delivery to lysosomes.     

Receptor-mediated endocytosis of epidermal growth factor by hepatocytes in the perfused rat liver: ligand and receptor dynamics

We have used biochemical and morphological techniques to demonstrate that hepatocytes in the perfused liver bind, internalize, and degrade substantial amounts of murine epidermal growth factor (EGF) via a receptor-mediated process. Before ligand exposure, about 300,000 high-affinity receptors were detectable per cell, displayed no latency, and co-distributed with conventional plasma membrane markers. Cytochemical localization using EGF coupled to horseradish peroxidase (EGF-HRP) revealed that the receptors were distributed along the entire sinusoidal and lateral surfaces of hepatocytes. When saturating concentrations of EGF were perfused through a liver at 35 degrees C, ligand clearance was biphasic with a rapid primary phase of 20,000 molecules/min per cell that dramatically changed at 15-20 min to a slower secondary phase of 2,500 molecules/min per cell. During the primary phase of uptake, approximately 250,000 molecules of EGF and 80% of the total functional receptors were internalized into endocytic vesicles which could be separated from enzyme markers for plasma membranes and lysosomes on sucrose gradients. The ligand pathway was visualized cytochemically 2-25 min after EGF-HRP internalization and a rapid transport from endosomes at the periphery to those in the Golgi apparatus-lysosome region was observed (t 1/2 approximately equal to 7 min). However, no 125I-EGF degradation was detected for at least 20 min. Within 30 min after EGF addition, a steady state was reached which lasted up to 4 h such that (a) the rate of EGF clearance equaled the rate of ligand degradation (2,500 molecules/min per cell); (b) a constant pool of undegraded ligand was maintained in endosomes; and (c) the number of accessible (i.e., cell surface) receptors remained constant at 20% of initial values. By 4 h hepatocytes had internalized and degraded 3 and 2.3 times more EGF, respectively, than the initial number of available receptors, even in the presence of cycloheximide and without substantial loss of receptors. All of these results suggest that EGF receptors are internalized and that their rate of recycling to the surface from intracellular sites is governed by the rate of entry of ligand and/or receptor into lysosomes.     

Adenovirus Internalization and Infection Require Dynamin

The cell receptors that facilitate adenovirus internalization into cells have been identified; however, the infectious pathway of virus entry has not been established. Adenovirus entry and infection were examined in HeLa cells lacking or overexpressing mutant dynamin, a protein that specifically regulates clathrin-mediated endocytosis. Expression of mutant dynamin significantly reduced adenovirus internalization and gene delivery, indicating a functional requirement for this molecule. These findings are consistent with virus entry via the clathrin-coated pit pathway.     

Anomalous binding of epidermal growth factor to A431 cells is due to the effect of high receptor densities and a saturable endocytic system

This study was conducted to determine how extraordinarily high numbers of epidermal growth factor receptors (EGF-R) affected the binding and internalization of EGF in the transformed cell line A431. I found that at low EGF concentrations, the kinetics of binding behaved as a nonsaturable, first-order process showing no evidence of multiple-affinity classes of receptors. However, EGF dissociation rates were strongly dependent on the degree of receptor occupancy in both intact cells and isolated membranes. This occupancy-dependent dissociation appears to be due to diffusion-limited binding. EGF-induced receptor internalization was rapid and first order when the absolute number of occupied receptors was below 4 x 10(3) min-1. However, at higher occupancies the specific internalization rate progressively declined to a final limiting value of 20% normal. The saturation of EGF-R endocytosis was specific since internalization of transferrin receptors was not affected by high concentrations of either transferrin or EGF. Saturation of EGF-R endocytosis probably involves a specific component of the endocytic pathway since fluid phase endocytosis increased coordinately with EGF-R occupancy. I conclude that there are several aspects of EGF-R dynamics on A431 cells are neither similar to the behavior of EGF-R in other cell types nor similar to the reported behavior of other hormone receptors. Although A431 cells have an extraordinary number of EGF-R, they do not seem to have corresponding levels of at least two other crucial cell surface components: one that mediates EGF-induced rapid receptor internalization and one that attenuates EGF-induced membrane responses. These factors, in addition to the presence of diffusion-limited binding at low EGF concentrations, are probably responsible for the appearance of multiple-affinity classes of receptors in this cell type.     

Epidermal growth factor labeled beta-amanitin-poly-L-ornithine: preparation and evidence for specific cytotoxicity

Poly-L-ornithine with an average molecular weight of 32K was reacted with beta-amanitin hydroxysuccinimide ester to form an amide-linked toxin conjugate. Loading of the polymeric chain with amanitin was high, corresponding to up to 35% of the total weight. To this amatoxin vehicle we attached a targeting molecule, human recombinant leucine-21 epidermal growth factor (hrEGFL), via a disulfide-containing linker moiety. A typical average stoichiometry of the hrEGFL labeled toxin conjugate was (L-Orn)164(beta-amanitin)19(COC2H4SSC2H4CO-hrEGFL)2. The affinity for EGF receptors of hrEGFL bound in this conjugate was tested by using A 431 cells. The affinity was eight times lower than that of unsubstituted hrEGFL but regarded as high enough for studying specific toxicity effects with cells bearing EGF receptors. We found that beta-amanitin in the labeled conjugate was able to inhibit the growth of A 431 cells at a concentration of 28 nM, 80 times lower than for native beta-amanitin and 20 times lower than for poly-L-ornithine-bound beta-amanitin without the hrEGFL label. The approximately 20-fold enhancement of cytotoxicity suggests a specific internalization of the toxin conjugate mediated by the hormone label. This idea is supported by the fact that also in another transformed fibroblast cell line, with an increased though smaller number of EGF receptors than A 431 cells, the corresponding enhancement of cytotoxicity was demonstrable but less pronounced (7-fold). The hormone-mediated increase in cytotoxicity of EGF labeled poly-L-ornithine-beta-amanitin conjugates, combined with their moderate toxicity in the mouse, encourages further examination of such compounds in tumor model systems in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)     

Endocytosis and intracellular transport of epidermal growth factor after destruction of the actin cytoskeleton by cytochalasin B

Endocytosis of the epidermal growth factor (EGF) was investigated in three cell lines--A431, 3T6 and Swiss 3T3--after their incubation with cytochalasin B (CB). CB was introduced into culture medium (10 mkg/ml) 1.5-2 hours before addition of 125I-EGF (20-40 ng/ml). The label uptake rate was measured after a 35-40 minutes incubation of cells with 125I-EGF. It appeared that disorganization of microfilamentous network caused by CB exerted no influence on the binding of EGF to the surface membrane receptors and its internalization. Nevertheless, the experiments performed on A431 cells using a fluorescent label--rhodamine--bound to EGF (EGF-R) indicate that CB, though not influencing the initial steps of endocytosis, inhibits the next step--the intracellular transport of EGF-receptor complexes from the trans-Golgi region to lysosomes. As was shown elsewhere (Barkan, Nikol'sky, 1986), CB inhibits the mitogenic effect of EGF on resting Swiss 3T3 cells. So, the process of EGF-receptor uptake and delivery to the trans-Golgi region is evidently not enough to stimulate the cell proliferation; next steps of transport and degradation of ligand-receptor complexes are presumably needed.     

Transit of receptors for epidermal growth factor and transferrin through clathrin-coated pits. Analysis of the kinetics of receptor entry

Selective enrichment of clathrin-coated membranes by anticlathrin immunoadsorption was used to examine the internalization of receptor-ligand complexes through coated pits. Using Staphylococcus aureus-anticlathrin antibody and [35S]methionine-labeled KB cells, the kinetics of association of the epidermal growth factor (EGF-R) and transferrin receptors (TF-R) with coated membranes were directly examined. The accumulation of EGF-R in coated pits at the cell surface was dependent upon EGF binding. EGF-R then passed sequentially through a compartment which did not react with anticlathrin antibody and a second clathrin-coated compartment. The EGF-R was degraded in lysosomes with a half-life of approximately 41-55 min. The tumor promoter, 4 beta-phorbol 12-myristate 13-acetate, appears to mimic the action of EGF in inducing EGF-R accumulation in coated pits at the cell surface and receptor internalization. In contrast to the results with EGF-R, the TF-R was found in clathrin-coated membranes in the presence or absence of TF, and the concentration of TF-R in clathrin-coated membranes did not significantly change with time. The method presented should be of great utility for examining the biochemical changes that occur during the receptor-mediated endocytosis and sorting of ligands and receptors.     

Dimerization of internalized epidermal growth factor receptors.

Binding of epidermal growth factor (EGF) to cell surface EGF receptors initiates the formation of the receptor homodimers that can be detected by covalent cross-linking in intact cells or in detergent-solubilized cell extracts. Low pH dissociation of EGF from surface receptors results in immediate monomerization of receptor dimers. Using chemical cross-linking during mild permeabilization or cell solubilization, we have detected dimers of internalized EGF receptors in human carcinoma A-431 cells and transfected NIH 3T3 cells that express human EGF receptors. The percentage of internalized cross-linked receptor dimers was similar to that observed for surface EGF receptors. Furthermore, at the time of maximal accumulation of EGF-receptor complexes within the endosomal compartment (10-15 min of incubation at 37 degrees C), both the dimeric and monomeric forms of the EGF receptor are tyrosine-phosphorylated to the same extent as surface dimer and monomer species. In transfected NIH 3T3 cells, the level of dimerized and internalized kinase-negative EGF receptors was not different from that observed for wild-type receptors. These data suggest that for some time after internalization EGF does not dissociate from its receptor and indicate that a receptor conformation is preserved intracellularly that allows maintenance of receptor-receptor interactions and tyrosine kinase activity.     

MAL regulates clathrin-mediated endocytosis at the apical surface of Madin-Darby canine kidney cells

MAL is an integral protein component of the machinery for apical transport in epithelial Madin-Darby canine kidney (MDCK) cells. To maintain its distribution, MAL cycles continuously between the plasma membrane and the Golgi complex. The clathrin-mediated route for apical internalization is known to differ from that at the basolateral surface. Herein, we report that MAL depends on the clathrin pathway for apical internalization. Apically internalized polymeric Ig receptor (pIgR), which uses clathrin for endocytosis, colocalized with internalized MAL in the same apical vesicles. Time-lapse confocal microscopic analysis revealed cotransport of pIgR and MAL in the same endocytic structures. Immunoelectron microscopic analysis evidenced colabeling of MAL with apically labeled pIgR in pits and clathrin-coated vesicles. Apical internalization of pIgR was abrogated in cells with reduced levels of MAL, whereas this did not occur either with its basolateral entry or the apical internalization of glycosylphosphatidylinositol-anchored proteins, which does not involve clathrin. Therefore, MAL is critical for efficient clathrin-mediated endocytosis at the apical surface in MDCK cells.     

Transmembrane delivery of polypeptide growth factors bypassing the intrinsic cell surface receptors: synthesis and biological activity of a conjugate of epidermal growth factor with alpha 2-macroglobulin

Epidermal growth factor (EGF) was derivatized at the amino terminus with N-succinimidyl 3-(2-pyridyldithio)propionate and then cross-linked to the cysteinyl residues of alpha 2-macroglobulin (alpha 2M) via disulfide bonds. The EGF-alpha 2M conjugate delivered EGF into dense lysosomal fractions through binding to alpha 2M receptors in a variant of mouse Swiss/3T3 fibroblasts, NR-6, which are deficient in EGF receptors. The conjugate stimulated DNA synthesis in Swiss/3T3 cells, but it did not stimulate DNA synthesis in NR-6 cells. This differential stimulation was due to the conjugate's binding to EGF receptors since bacitracin, which completely inhibits [125I]alpha 2M binding to its receptors, inhibited conjugate binding by approximately 80%. Thus, EGF bound to and internalized through alpha 2M receptors does not function as a mediator for DNA stimulation. The mechanisms of action of the conjugate are discussed in relation to the role of receptor-mediated endocytic pathways.     

Effects of epidermal growth factor on transferrin receptor phosphorylation and surface expression in malignant epithelial cells

The transferrin (Tf) receptor is a major transmembrane protein which provides iron for normal and malignant cell growth. Epidermal growth factor (EGF) has been reported to rapidly and transiently alter the number of surface Tf receptors in normal and transformed epithelial cells. To investigate mechanisms of EGF-induced changes in surface Tf display, EGF effects on surface Tf receptors were compared in two cell lines which differ in their number of EGF receptors and growth responses to EGF. In cloned A431 cells with high receptor numbers which are growth-inhibited by EGF, EGF caused a 50% decrease in Tf receptor expression after 30 min. In contrast, EGF induced a rapid, transitory increase (within 5 min) in the number of surface Tf receptors on KB carcinoma cells which returned to basal levels by 15 min. The observed changes in Tf receptor display were due to altered receptor distribution and not changes in ligand affinity or total cellular transferrin receptor pools. Anti-EGF receptor monoclonal antibody blocked effects of EGF on transferrin receptor expression. Since the antibody is internalized and causes EGF receptor down-regulation, effects on transferrin receptor expression were independent of these events. EGF-induced alterations in Tf receptor display occurred even when cells were pretreated with colchicine, suggesting that changes in surface Tf binding were not mediated by cytoskeletal components. Na orthovanadate, which mimics some early cellular effects of EGF, duplicated EGF's effects on A431 Tf receptors, but had no effect on KB cells, suggesting these responses occur by differing mechanisms. To determine whether EGF caused changes in Tf receptor phosphorylation, 32P-labelled Tf receptors were immunoprecipitated after EGF treatment. After exposure to EGF, A431 cells showed no change in Tf phosphorylation, but KB cells showed a transient, 6-fold increase in transferrin receptor phosphorylation on serine residues. In both A431 and KB cells, phorbol ester (PMA) also increased phosphorylation on transferrin receptors, but had little effect on surface Tf receptor expression. In malignant cell lines, EGE induces rapid, variable changes in transferrin receptor expression and phosphorylation which differ from the effects of PMA. These early responses to EGF appear to differ with the cell type and correlate poorly with alterations in Tf receptor phosphorylation. These results suggest Tf receptor phosphorylation does not regulate Tf receptor display in all cells.     

Differential internalization of mammalian and non-mammalian gonadotropin-releasing hormone receptors. Uncoupling of dynamin-dependent internalization from mitogen-activated protein kinase signaling

Desensitization and internalization of G-protein-coupled receptors can reflect receptor phosphorylation-dependent binding of beta-arrestin, which prevents G-protein activation and targets receptors for internalization via clathrin-coated vesicles. These can be pinched off by a dynamin collar, and proteins controlling receptor internalization can also mediate mitogen-activated protein kinase signaling. Gonadotropin-releasing hormone (GnRH) stimulates internalization of its receptors via clathrin-coated vesicles. Mammalian GnRH receptors (GnRH-Rs) are unique in that they lack C-terminal tails and do not rapidly desensitize, whereas non-mammalian GnRH-R have C-terminal tails and, where investigated, do rapidly desensitize and internalize. Using recombinant adenovirus expressing human and Xenopus GnRH-Rs we have explored the relationship between receptor internalization and mitogen-activated protein kinase signaling in HeLa cells with regulated tetracycline-controlled expression of wild-type or a dominant negative mutant (K44A) of dynamin. These receptors were phospholipase C-coupled and had appropriate ligand affinity and specificity. K44A dynamin expression did not alter human GnRH-R internalization but dramatically reduced internalization of Xenopus GnRH-R (and epidermal growth factor (EGF) receptor). Blockade of clathrin-mediated internalization (sucrose) abolished internalization of all three receptors. Both GnRH-Rs also mediated phosphorylation of ERK 2 and for both receptors, this was inhibited by K44A dynamin. The same was true for EGF- and protein kinase C-mediated ERK 2 phosphorylation. ERK 2 phosphorylation was also inhibited by a protein kinase C inhibitor but not affected by an EGF receptor tyrosine kinase inhibitor. We conclude that a) desensitizing and non-desensitizing GnRH-Rs are targeted for clathrin-coated vesicle-mediated internalization by functionally distinct mechanisms, b) GnRH-R signaling to ERK 2 is dynamin-dependent and c) this does not reflect a dependence on dynamin-dependent GnRH-R internalization.     

Distinct endocytotic pathways in epidermal growth factor-stimulated human carcinoma A431 cells [published erratum appears in J Cell Biol 1990 Mar;110(3):859]

Addition of EGF to human epidermoid carcinoma A431 cells increases the rate of fluid-phase pinocytosis 6-10-fold as measured by horseradish peroxidase uptake (Haigler, H.T., J. A. McKanna, and S. Cohen. 1979. J. Cell Biol. 83:82-90). We show here that in the absence of extracellular Na+ or in the presence of amiloride the stimulation of pinocytosis by EGF is substantially reduced. Amiloride had no effect on the endocytosis of EGF itself or of transferrin, demonstrating that the receptor-mediated endocytotic pathway operated normally under conditions that blocked stimulated pinocytosis. Amiloride blocked EGF- stimulated pinocytosis in both HCO3(-)-containing and HCO3(-)-free media. The EGF-stimulated pinocytotic activity can frequently be localized to areas of the cell where membrane spreading and ruffling are taking place. These results demonstrate that (a) EGF induces a distinct amiloride-sensitive endocytotic pathway on A431 cells; (b) occupied EGF receptors do not utilize this pathway for their own entry; (c) endocytosis of occupied EGF receptors is not in itself sufficient to stimulate pinocytosis.     

A direct radioimmunoassay for human epidermal growth factor receptor using 32P-autophosphorylated receptor

A simple and reproducible radioimmunoassay of the epidermal growth factor (EGF) receptor which uses 32P-labeled EGF receptor and anti-receptor monoclonal antibodies is reported. In vitro phosphorylation of A431 cell membranes with [gamma-32P]ATP in the presence of 20% dimethyl sulfoxide (which stimulates autophosphorylation of the EGF receptor) and 10 microM Na3VO4 (a potent inhibitor of phosphotyrosyl protein phosphatase) provides radiolabeled EGF receptor for radioimmunoassay without further purification. The most selective phosphorylation of the EGF receptor is achieved at ATP concentrations of 0.1-0.2 microM, which corresponds to the reported Km value for the autophosphorylation reaction of the EGF receptor (W. Weber, P.J. Bertics, and G.N. Gill, 1984, J. Biol. Chem. 259, 14631-14939). The incorporation of 32P into EGF receptors increases in proportion to the increase of ATP concentration up to 6 mol of labeled phosphate at 2.0 microM ATP. The label is entirely on tyrosine residues. The cell membranes can be stored at -70 degrees C for 3 months without loss of immunoreactivity and autophosphorylating activity. Standard curves for the radioimmunoassay were constructed employing either A431 cell membranes or whole cell homogenates containing a known amount of EGF receptor. The assay can detect 7 X 10(10) EGF receptor molecules or 20 ng of the receptor protein, and can quantitatively distinguish the difference in EGF receptor numbers between A431 cells and 29E2 and KB cells with 10-fold and 15-fold fewer receptors than A431 cells, respectively. 29E2 cells and KB cells express twofold more immunoreactive EGF receptors than EGF-binding sites. In contrast, A431 cells possess the same number of immunoreactive sites and receptor sites for EGF binding. To assess total EGF receptor expression, it is necessary to use a method which detects EGF receptors regardless of their intrinsic kinase activity, or capacity to bind EGF. This radioimmunoassay detects immunoreactive receptor molecules, even those which do not bind EGF.     

The endocytosis of epidermal growth factor in A431 cells: a pH of microenvironment and the dynamics of receptor complex dissociation

The endocytosis and intracellular fate of epidermal growth factor (EGF) were studied in A431 cells. After 15-20 min of internalization at 37 degrees C, rhodamine-labeled EGF (EGF-Rh) accumulated into large juxtanuclear compartment consisting of closely related vesicles. This structure was shown to be localized in the para-Golgi region. Fluorescein-labeled transferrin (Tr-FITC) was observed in the same region when added to the cells simultaneously with EGF-Rh. Using microscope spectrofluorometer, we determined that the Tr-FITC-containing para-Golgi structures have a pH of 6.1 +/- 0.3 while lysosomes containing dextran-fluorescein have a pH of 5.0 +/- 0.2. To study the dynamics of EGF-receptor dissociation during endocytosis a mild detergent treatment of living cells was used for extraction of an intracellular receptor-unbound EGF. During the first hour of internalization at 37 degrees C, neither significant dissociation of EGF-receptor complexes nor EGF degradation was observed. After 3 h of endocytosis, the percentage of unbound EGF increased to 55% of the total internalized EGF. These results suggest that EGF remains associated with receptors during endocytosis in A431 cells until it is transferred to lysosomes where the pH of the EGF microenvironment is dropped to 5. A prolonged presence of EGF-receptor complexes in the para-Golgi region might be of importance in mitotic signaling.     

Growth factor from the tissues of the marine mollusk Mytilus edulis]

The absence of specific stimulators of cell proliferation, i.e. of growth factors, is one of the causes of failure in long-term cultivation of the marine invertebrate cells. In search for such stimulators in tissues of marine invertebrates, we succeeded in discovering in some tissues a stimulator of cell proliferation, similar to EGF, with a comparatively high content of it in tissues of Mytilus edulis. The similarity of the obtained factor with EGF was shown by the substitution of 125I-EGF, connected with EGF receptors on the surface of A431 cells, with analysed extracts, as well as by the ability of this extract to induce the internalization of EGF-receptor complexes. The fraction of acid/ethanol extract of M.edulis stimulating the cell proliferation in resting mouse fibroblasts Swiss 3T3, was obtained in the same conditions as EGF did, using reversed phase chromatography. Thus, the factor from tissues of M.edulis may belong to the family of EGF-like factors.     

Quantification of G-Protein Coupled Receptor Internatilization Using G-Protein Coupled Receptor-Green Fluorescent Protein Conjugates with the ArrayScantrade mark High-Content Screening System

Many G-protein coupled receptors (GPCRs) undergo ligand-dependent homologous desensitization and internalization. Desensitization, defined as a decrease in the responsiveness to ligand, is accompanied by receptor aggregation on the cell surface and internalization via clathrin-coated pits to an intracellular endosomal compartment. In this study, we have taken advantage of the trafficking properties of GPCRs to develop a useful screening method for the identification of receptor mimetics. A series of studies were undertaken to evaluate the expression, functionality, and ligand-dependent trafficking of GPCR-green fluorescent protein (GFP) fusion conjugates stably transfected into HEK 293 cells. These GPCR-GFP expressing cells were then utilized in the validation of the ArrayScantrade mark (Cellomicstrade mark, Pittsburgh, PA), a microtiter plate imaging system that permits cellular and subcellular quantitation of fluorescence in whole cells. These studies demonstrated our ability to measure the internalization of a parathyroid hormone (PTH) receptor-GFP conjugate after ligand treatment by spatially resolving internalized receptors. Internalization was time- and dose-dependent and appeared to be selective for PTH. Similar results were obtained for a beta(2)-adrenergic receptor (beta(2) AR)-GFP conjugate stably expressed in HEK 293 cells. The internalized GFP-labeled receptors were visualized as numerous punctate 3spots2 within the cell interior. An algorithm has been developed that identifies and collects information about these spots, allowing quantification of the internalization process. Variables such as the receptor-GFP expression level, plating density, cell number per field, number of fields scanned per well, spot size, and spot intensity were evaluated during the development of this assay. The method represents a valuable tool to screen for receptor mimetics and antagonists of receptor internalization in whole cells rapidly.     

Effect of amines on the binding, internalization and degradation of epidermal growth factor and the induction of DNA synthesis in a 3T3 cell culture

The role of intracellular processing of epidermal growth factor (EGF) in the induction of proliferation of quiescent Swiss 3T3 cells was studied using various inhibitors. The number of amines (dansylcadaverine, chloroquine, cystamine, 5-methoxytryptamine) dimethylurea and monensin were shown to block the mitogenic effect of EGF. The majority of these substances while used in concentrations sufficient to inhibit the proliferation do not significantly influence 125I-EGF binding and internalization. The level of EGF degradation was reduced only by chloroquine. The inhibitory effect of amines and monensin on the generation of proliferative signal was supposed to take place at the stages of EGF processing in "specialized" endosomes and in Golgi apparatus.     

Quantitative analysis of the endocytic system involved in hormone-induced receptor internalization

We have developed a quantitative method to evaluate the interaction between cell surface receptors and the endocytic apparatus. This method exploits occupancy-dependent changes in internalization rates that occur in cells expressing high numbers of receptors. We found that constitutive internalization of the transferrin receptor behaves as a simple, first order process that is unaltered by ligand. Internalization of the epidermal growth factor (EGF) receptor, however, behaves as a saturable, second order process that is induced by receptor occupancy. Internalization of EGF receptors occurs through at least two distinct pathways: a low capacity pathway that has a relatively high affinity for occupied receptors, and a low affinity pathway that has a much higher capacity. The high affinity pathway was observed in all cells having receptors with intrinsic tyrosine kinase activity. Mutant EGF receptors lacking kinase activity could not utilize the high affinity pathway and were internalized only through the low affinity one. Mutated receptors with decreased affinity for kinase substrates were also internalized at decreased rates through the high affinity, inducible pathway. In the case of vitellogenin receptors in Xenopus oocytes, occupied receptors competed more efficiently for internalization than empty ones. Insulin increased the endocytic capacity of oocytes for vitellogenin receptors. Similarly, serum increased the capacity of the inducible pathway for EGF receptors in mammalian cells. These data are consistent with a model of internalization in which occupied receptors bind to specific cellular components that mediate rapid internalization. Ligand-induced internalization results from an increase in the affinity of occupied receptors for the endocytic apparatus. Hormones can also indirectly regulate endocytosis by increasing the number of coated pits or their rate of internalization. The ability to dissect receptor-specific effects from cell-specific ones should be very useful in investigating the molecular mechanisms of receptor mediated endocytosis.     

Epidermal growth factor receptor. Characterization of a monoclonal antibody specific for the receptor of A431 cells

A monoclonal antibody to the epidermal growth factor (EGF) receptor of A431 cells was obtained after fusion of immunized BALB/c mouse spleen cells with NS-1 myeloma cells. Specific binding of the antibody to the plasma membrane of A431 cells was demonstrated by indirect immunofluorescence and electron microscopy. The antibody did not react with human KB cells, normal rat kidney cells, or Swiss 3T3 cells. The antibody is an IgG3K; it specifically immunoprecipitated a Mr approximately 170,000 protein from radiolabeled A431 cell extracts. This protein is phosphorylated in a EGF-dependent manner in intact A431 cells and in Triton X-100-solubilized plasma membranes. The specificity of the interaction of the antibody with the Mr = 170,000 protein was confirmed by electrophoretic transfer of A431 cell proteins to nitrocellulose followed by incubation with the antibody and 125I-protein A. When 125I-EGF was covalently cross-linked to its receptor, the 125I-EGF-receptor complex was specifically precipitated by the antibody. The monoclonal antibody did not inhibit the binding of 125I-EGF to its receptor in intact A431 cells and also failed to stimulate the phosphorylation of the Triton X-100-solubilized EGF receptor. The results indicate that the antibody and EGF bind to different sites on the EGF receptor. The antibody will be useful for isolating the EGF receptor in an unactivated form.