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.     

Reconstitution of human epidermal growth factor receptors and its deletion mutants in cultured hamster cells

DNA sequences encoding the human epidermal growth factor (EGF) receptor and various EGF-receptor deletion mutants were transfected into chinese hamster ovary (CHO) cells devoid of endogenous EGF receptors. A functional human EGF-receptor is expressed on the surface of heterologous CHO cells with the following properties: it exhibits typical high affinity (10%; Kd = 3 X 10(-10) M) and low affinity (90%; Kd = 3 X 10(-9) M) binding sites for 125I-EGF; it is expressed as a polypeptide of 170,000 molecular weight with intrinsic protein tyrosine kinase activity. EGF stimulates the kinase activity leading to self-phosphorylation and to phosphorylation of exogenous substrate; 125I-EGF is rapidly internalized into the CHO cells by receptor mediated endocytosis and; EGF stimulates DNA synthesis in the cells expressing the human EGF-receptor. Deletion of 63 amino acids from the C-terminal end of EGF-receptor, which removes two autophosphorylation sites, abolishes the high affinity state of the receptor. Nevertheless, this receptor mutant is able to undergo endocytosis and to respond mitogenically to EGF to a similar extent as the "wild type" receptor. Further deletions from the cytoplasmic domain give rise to low affinity endocytosis-defective receptor mutants. Finally, deletion of the transmembrane domain of the human receptor yields an EGF-receptor ligand binding domain which is secreted from the cells.     

EGF-dependent epithelial cells of the mammary cell line HC11 demonstrate a high degree of synchronized cell cycle during stimulation with epidermal growth factor

The most popular object for studying endocytosis of EGF-receptor complexes, human epidermoid carcinoma A431, was shown to answer to EGF in high concentration (100 ng/ml) by growth inhibition, being indifferent to lower (0.1-1 ng/ml) concentrations. At the same time, cells NIH 3T3, expressing human EGF receptor (HER14), and epithelial mammary cells HC11 increased 14C-thymidine incorporation into DNA after EGF addition. However, for HER14 cells stimulatory effect of EGF was twice weaker than that induced by serum, whereas the effect of EGF on 14C-thymidine incorporation in DNA of cells HC11 was approximately 5 times stronger compared to serum. Therefore, cells HC11 may be referred to as EGF-dependent. Cell cycle analysis by fluorimetry showed that more than 90% of serum-starved HER14 and HC11 were in G0/G1. Within 19-20 h after stimulation by EGF 70-90% of HC11 cells and only 30-40% of HER14 cells were in S-phase. EGF removing from culture medium earlier than 9-11 h after stimulation blocked entering of HC11 cells into S-phase, whereas such EGF-dependent period was not found for cells HER14. Thus, synchronization of progression through early stages of cell cycle, stimulated by EGF and the presence of well defined "early" (EGF-dependent) and "late" (EGF-independent) phases, make cells HC11 convenient object for studying physiological role of EGF receptor complexes endocytosis.     

Effect of synthetic proteasomal inhibitor MG132 on dynamics of EGF-receptor complexes endocytosis in A431 cells

The effect of proteasomal activity suppression induced by MG132, a synthetic proteasomal inhibitor of EGF-receptor complexes endocytosis in human epidermoid carcinoma A431 cell line, was studied. Using subcellular fractionation in 17% Percoll gradient, it was demonstrated that the addition of MG132 to the cells 15 min following stimulation of EGF endocytosis resulted in a slight accumulation of 125I-EGF in early endosomes, and in much more significant accumulation of the labeled growth factor in late endosomes/lysosomes, as compared to untreated cells. The release of 125I-EGF degradation products into the incubation medium was significantly (3-12-fold) inhibited in the presence of MG132. At the same time biochemical analysis has demonstrated that the EGF receptor itself is not a direct target of proteasomes, since it is revealed as a full-length protein with native mol. mass (170 kDa) in fractions of early and late endosomes and lysosomes. Possible mechanisms of the MG132 effect on intracellular processing of EGF-receptor complexes are discussed.     

Reply to Claudio Cobelli and Gianna Toffolo,identifiability from parameter bounds. Structural and numerical aspects. Math. Biosci. 71:237–243 (1984)

We present an analysis of receptor mediated endocytosis which includes the following elements: ligand binding to receptors, interaction of the ligand-receptor complex with coated pits, internalization of coated pit contents, recycling of receptors, and degradation of ligand. The model accounts quantitatively for epidermal growth factor binding and clustering in coated pits at 4°C, for its internalization and degradation at 37°C, and for EGF receptor down-regulation. Steady state analysis of the model indicates that the slope and intercept of a Scatchard plot are functions of the kinetic parameters of the endocytic loop and do not necessarily reflect the affinity and number of receptors in metabolically active cells. Moreover, the model predicts that for homogeneous receptors, a Scatchard plot can be either linear or nonlinear, depending on the concentration of proteins in coated pits which interact with ligand-receptor complexes. A slight generalization of the model in which phorbol ester-receptor complexes compete with EGF-receptor complexes for the same coated pit proteins provides a quantitative explanation for the loss of the high affinity portion of the EGF Scatchard plot subsequent to preincubation with phorbol esters. This explanation leads to the prediction of a local homology between a portion of the phorbol ester receptor sequence and a portion of the EGF receptor sequence.     

The role of Src-kinase in the regulation of endocytosis of EGF-receptor complexes. I. Dynamics of EGF internalization, recycling, sorting, and degradation during inhibition of Src-kinase activity

In the present work, the role of Src-kinase in regulation of different stages of EGF-receptor endocytosis was studied. We used murine fibroblasts with knockout of Src gene and CGP77675, and the inhibitor of Src-family kinases. The absence of Src protein in the cells did not lead to any changes in the rates of 125I-EGF internalization or recycling and caused only slight decrease in the rate of its degradation. At the same time, treatment of the wild type cells with the inhibitor resulted in a small decrease in internalization rate and an increase in recycling. The influence of the inhibitor on 125I-EGF degradation was also more pronounced. But even in this case, the effects were no more than 30% of control values. CGP77675 extended the same effect upon cells of HER14 and HC11 lines. Subcellular fractionation of these cells in Percoll gradient has also demonstrated a slight inhibition of 125I-EGF sorting from early to late endosomes. The more pronounced effect of the Src-family kinase inhibitor on the EGF endocytosis, compared to that of the absence of a single Src protein, suggests a compensating mechanism of the Src-family kinases. A conclusion is made that in spite of a slight influence on practically all stages of intracellular pathway of EGF-receptor complexes, Src-kinases are obviously not the key regulators of their endocytosis.     

Effect of an vacuolar proton pump inhibitor bafilomycin A1 on the intracellular processing of markers for receptor-mediated and liquid phase endocytosis

By means of subcellular fractionation in density Percoll gradients, immunoblotting and immunofluorescense, the effect of BafA1 on endocytosis of EGF-receptor complexes and horse radish peroxidase (HRP) in A431, HER14 and HC11 cell lines was studied. It was shown that the pretreatment of all used cell lines with BafA1 completely inhibited EGF degradation, but did not interfere with the delivery of significant portion of EGF-receptor complexes to late endosomes and lysosomes and transition of the receptor to juxtranuclear region. At the same time, BafA1 was found to dramatically inhibit the delivery of fluid phase marker HRP to late endosomes of A431 cells. The BafA1 effect on endocytosis of high concentrations of EGF was similar to that on HRP endocytosis. Regulatory mechanisms of early-to-late endosomal compartment transition are discussed.     

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.     

The role of phosphatidylinositol-3-kinases P85/P110 and hVPS34 in endocytosis of EGF-receptor complexes

The previous data (Zheleznova et al., 2001) did not enable the authors to conclude which particular wortmannin sensitive PI-3-kinase--p85/p110 (I class PI-3-K) or hVPS34 (III class PI-3-K)--may be involved in the regulation of EGF-receptor endocytosis. In the present work, we have shown that upon stimulation of EGF-receptor endocytosis additional structures stained with antibody against p85 appear in A431 cells, but the p85-positive compartment never co-localized with EGF-receptor-containing compartments either in control or in wortmannin-treated cells. At the same time, wortmannin treatment prevented association of hVPS34 with endosomal membranes. We have also found that early endosomal markers--Rab5 and EEA1 (membrane association of the latter depends on Rab5 and hVPS34)--co-localized with EGF-receptor in the juxtranuclear region during late stages of endocytosis, both in control and upon wortmannin treatment. These observations favor our suggestions that the transition of EGF-receptors from early to late endosomes may occur directly in this juxtranuclear region and be tightly associated with the formation of so called multivesicular bodies (MVB), which are late endosomes per se. We suggest that wortmannin may have no effect on early EEA1-dependent stage of the receptor endocytosis but blocks a transition of EGF-receptor complexes into the late endosomes by inhibiting activity of hVPS34 and removing it from membranes. The hVPS34 product PI-3-K, according to the known data, is involved in the formation of internal vesicles of MVB. Accumulation of EGF-receptors in these vesicles is believed to be necessary for the receptor degradation.     

Endocytosis of growth factor receptors

Binding of a growth factor (GF) to its specific receptor on the cell surface causes the initiation of a signal transduction cascade which eventually results in mitosis. GF:receptor complexes are removed from the cell surface via receptor-mediated endocytosis, a process which involves clathrin-coated pits. After internalization into the endosomal compartment, a significant pool of GFs and GF receptors escape recycling to the cell surface and are sorted to the degradation pathway. The ligandinduced internalization and lysosomal degradation of GF receptors result in the dramatic loss of surface receptors, a phenomenon termed receptor down-regulation. In this review, we discuss relevant biochemical, morphological and kinetic studies of the mechanism of GF endocytosis, and the possible role of this process in mitogenic signaling by growth factor receptors.     

An insertional mutant of epidermal growth factor receptor allows dissection of diverse receptor functions.

Cultured NIH-3T3 cells devoid of endogenous EGF-receptors were transfected with cDNA constructs encoding normal human EGF-receptor and with a construct encoding an insertional mutant of the EGF-receptor containing four additional amino acids in the kinase domain after residue 708. Unlike the wild-type receptor expressed in these cells which exhibits EGF-stimulatable protein tyrosine kinase activity, the mutant receptor lacks protein tyrosine kinase activity both in vitro and in vivo. Despite this deficiency the mutant receptor is properly processed, it binds EGF and it exhibits both high and low affinity binding sites. Moreover, it undergoes efficient EGF-mediated endocytosis. However, EGF fails to stimulate DNA synthesis and is unable to stimulate the phosphorylation of S6 ribosomal protein in cells expressing this receptor mutant. Hence, it is proposed that the protein tyrosine kinase activity of EGF-receptor is essential for the initiation of S6 phosphorylation and for DNA synthesis induced by EGF. However, EGF-receptor processing, the expression of high and low affinity surface receptors and receptor internalization, require neither kinase activity nor receptor autophosphorylation. Interestingly, phorbol ester (TPA) fails to abolish the high affinity state and is also unable to stimulate the phosphorylation of this receptor mutant. This result is consistent with the notion that kinase-C phosphorylation of EGF-receptor is essential for the loss of high affinity EGF-receptors caused by TPA.     

Reduction of epidermal growth factor receptor affinity by heterologous ligands: evidence for a mechanism involving the breakdown of phosphoinositides and the activation of protein kinase C

The tetradecapeptide bombesin converts epidermal growth factor (EGF) receptors on Swiss 3T3 cells from a high affinity state (KD = 9.8 X 10(-11)M) to a lower affinity state (KD = 1.8 X 10(-9)M). This conversion occurs when the cells are incubated with bombesin at 37 degrees C but not when incubated at 4 degrees C. Previously, a number of other (chemically unrelated) cell growth-promoting peptides and polypeptides have been shown to induce a similar indirect, temperature-dependent reduction of EGF receptor affinity. We have now demonstrated that hormones and growth factors which cross-regulate EGF receptor affinity in Swiss 3T3 cells have a common ability to stimulate the breakdown of phosphoinositides in these cells. We propose that the reduction of EGF receptor affinity is a consequence of the activation of protein kinase C by the diacylglycerol generated by this breakdown. In support of this proposal we have found that exogenously added diacylglycerol reduces the affinity of the Swiss 3T3 cell EGF receptor.     

Transfer of M2 muscarinic acetylcholine receptors to clathrin-derived early endosomes following clathrin-independent endocytosis

Upon agonist stimulation, many G protein-coupled receptors such as beta(2)-adrenergic receptors are internalized via beta-arrestin- and clathrin-dependent mechanisms, whereas others, like M(2) muscarinic acetylcholine receptors (mAChRs), are internalized by clathrin- and arrestin-independent mechanisms. To gain further insight into the mechanisms that regulate M(2) mAChR endocytosis, we investigated the post-endocytic trafficking of M(2) mAChRs in HeLa cells and the role of the ADP-ribosylation factor 6 (Arf6) GTPase in regulating M(2) mAChR internalization. Here, we report that M(2) mAChRs are rapidly internalized by a clathrin-independent pathway that is inhibited up to 50% by expression of either GTPase-defective Arf6 Q67L or an upstream Arf6 activator, Galpha(q) Q209L. In contrast, M(2) mAChR internalization was not affected by expression of dominant-negative dynamin 2 K44A, which is a known inhibitor of clathrin-dependent endocytosis. Nevertheless, M(2) mAChRs, which are initially internalized in structures that lack clathrin-dependent endosomal markers, quickly localize to endosomes that contain the clathrin-dependent, early endosomal markers early endosome autoantigen-1, transferrin receptor, and GTPase-defective Rab5 Q79L, which is known to swell early endosomal compartments. These results suggest that M(2) mAChRs initially internalize via an Arf6-associated, clathrin-independent pathway but then quickly merge with the clathrin endocytic pathway at the level of early endosomes.     

The endocytic pathway followed by the keratinocyte growth factor receptor

Keratinocyte growth factor (KGF/FGF7) acts specifically on epithelial cells and regulates their proliferation and differentiation. It binds to and activates a receptor tyrosine kinase, the KGF receptor (KGFR), which is a splicing variant of the fibroblast growth factor receptor 2. The endocytic pathway followed by KGF and its receptor was analyzed here using immunofluorescence and confocal microscopy. After 10 min of internalization at 37 degrees C, both KGF and its receptor were localized in early endosomes, and after 30-60 min of endocytosis ligand and receptor were seen to reach perinuclear late endosomes and not the recycling endosomal compartment. Parallel western blot analysis revealed that KGFRs were tyrosine phosphorylated both at early and late steps of internalization, suggesting that KGF and KGFR remain associated in active complexes through the endocytic pathway. Pulse-chase experiments showed that the internalized KGFRs underwent degradation detectable at 1 h of endocytosis at 37 degrees C, indicating that KGFRs are functionally downregulated.     

High affinity epidermal growth factor receptors on the surface of A431 cells have restricted lateral diffusion

Rhodamine-labelled epidermal growth factor (Rh-EGF) was shown to bind to A431 cells grown at low density both to a small number of high affinity receptors (KD = 2.8 X 10(-10) M; fraction of total binding sites approximately 0.12) and also to a large number of low affinity receptors (KD = 4 X 10(-9) M; fraction of total binding sites approximately 0.88). Measurements of the lateral diffusion of EGF receptors on the cell surface were made using Rh-EGF and the technique of fluorescence photobleaching recovery. The high affinity receptors (labelled with 1.6 X 10(-10) M Rh-EGF, 5% of EGF binding sites occupied) did not show lateral mobility over the temperature range 3 degrees-37 degrees C. The low affinity receptors (labelled with 2.4 X 10(-7) M Rh-EGF, 90% of EGF sites occupied) showed at least 75% fluorescence recovery after photobleaching, and lateral diffusion coefficients of approximately 2 X 10(-10) cm2/s. These results show that the two populations of EGF receptors defined by binding studies differ in their freedom to diffuse laterally. The observation that the high affinity receptors are immobile indicates that lateral diffusion of receptors, at least over a distance of a few hundred nanometres or more, may not be required for the action of low concentrations of EGF.     

Analysis of tyrphostin AG1478 effect on behavior of internalized EGF receptor at different stages of endocytosis

In the work, the effect of tyrphostin AG1478, a specific inhibitor of the receptor tyrosine kinase, on the behavior of an internalized EGF receptor at different stages upon the stimulation of endocytosis has been analyzed. It was found that tyrphostin added 30 min after the stimulation of endocytosis resulted in recycling of a significant portion of ¹²⁵I-EGF onto the cell surface. This portion decreased with time. EGF-receptor complexes, which are recycled under the action of AG1478, did not dissociate, possibly due to the ability of tyrphostin AG1478 to initiate receptor oligomerization in the absence of ligand and, therefore, probably affect dissociation constants. It was found that only a portion of the EGF receptor localized in early endosomes was able to recycle upon TK inhibition. The addition of inhibitor 30 and 60 min after the stimulation of endocytosis resulted in a decrease in the labeled EGF degradation. At early stages, internalized EGF-receptor complexes were mostly blocked in early endosomes, while, at late stages, their accumulation occurred in incompletely matured late endosomes. These data indicate that there is the late endocytic stage transition that depends on the receptor TK. Furthermore, the addition of tyrphostin after 90 min of endocytosis did not lead to a decrease, but rather an increase in degradation, which indicates the existence of mechanisms that create a temporal window during which receptor TK can carry out functions that are not directly connected with endocytosis.     

Role of endocytosis in the transfection of L929 fibroblasts by polyethylenimine/DNA complexes

Polyethylenimine (PEI) is one of the most efficient nonviral vectors for gene therapy. The aim of this study was to investigate the role of endocytosis in the transfection of synchronized L929 fibroblasts by PEI/DNA complexes. This was performed by confocal microscopy and flow cytometry, using the endocytosis marker FM4-64 and PEI/DNA complexes labeled either with the DNA intercalator YOYO-1, or with fluorescein covalently linked to PEI. Endocytosis appeared as the major if not the sole mode of entry of the PEI/DNA complexes into the L929 cells. The complexes followed a typical fluid phase endocytosis pathway and were efficiently taken up in less than 10 min in endosomes that did not exceed 200 nm in diameter. Later, the localization of the complexes became perinuclear and fusion between late endosomes was shown to occur. Comparison with the intracellular trafficking of the same complexes in EA.hy 926 cells (W.T. Godbey, K. Wu, A.G. Mikos, Proc. Natl. Acad. Sci. USA 96 (1999)) revealed that endocytosis of PEI/DNA complexes is strongly cell-dependent. In L929 cells, escape of the complexes from the endosomes is a major barrier for transfection. This limited the number of transfected cells to a few percent, even though an internalization of PEI/DNA complexes was observed in most cells. In addition, the entry of the complexes into the nucleus apparently required a mitosis and did not involve the lipids of the endosome membrane. This entry seems to be a short-lived event that involves only a few complexes.     

Insulin-like growth factor II binding to the type I somatomedin receptor. Evidence for two high affinity binding sites

We have previously shown that the antireceptor antibody alpha IR-3 inhibits binding of 125I-somatomedin-C/insulin-like growth factor I (Sm-C/IGF-I) to the 130-kDa alpha subunit of the type I receptor in human placental membranes, but does not block 125I-insulin-like growth factor II (IGF-II) binding to a similar 130-kDa complex in these membranes. To determine whether the 130-kDa 125I-IGF-II binding complex represents a homologous receptor or whether 125I-IGF-II binds to the type I receptor at a site that is not blocked by alpha IR-3, type I receptors were purified by affinity chromatography on Sepharose linked alpha IR-3. The purified receptors bound both 125I-Sm-C/IGF-I and 125I-IGF-II avidly (KD = 2.0 X 10(-10) M and 3.0 X 10(-10) M, respectively). The maximal inhibition of 125I-Sm-C/IGF-I binding by the antibody, however, was 62% while only 15% of 125I-IGF-II binding was inhibited by alpha IR-3. In the presence of 500 nM alpha IR-3, Sm-C/IGF-I bound with lower affinity (KD = 6.5 X 10(-10) M) than IGF-II (KD = 4.5 X 10(-10) M) and IGF-II was the more potent inhibitor of 125I-Sm-C/IGF-I binding. These findings suggest that the type I receptor contains two different binding sites. The site designated IA has highest affinity for Sm-C/IGF-I and is blocked by alpha IR-3. Site IB has higher affinity for IGF-II than for Sm-C/IGF-I and is not blocked by alpha IR-3.     

Primary amines do not prevent the endocytosis of epidermal growth factor into 3T3 fibroblasts

Various amines block the degradation of endocytosed epidermal growth factor (EGF) without affecting the binding of the hormone to its surface receptors. However, studies based on fluorescence microscopy demonstrate that amines block the internalization of alpha 2-macroglobulin and EGF by preventing it from clustering in clathrin coated pits. In order to resolve this controversy we have studied in detail the effect of various amines on the localization and processing of fluorescent and radiolabelled EGF. We have explored the effect of amines on EGF binding and localization, receptor mobility, membrane fluidity, receptor down regulation, hormone degradation and release of degradative products as a function of time and temperature. Our conclusions are as follows. 1. Primary amines prevent the formation of visible patches of fluorescent EGF and alpha 2-macroglobulin on the cell surface at least for 15 min, thus increasing the diffusion coefficients and the mobile fraction of EGF-receptor complexes on the cell surface. 2. Amines do not block the endocytosis of EGF and alpha 2-macroglobulin. On most cells fluorescent EGF and alpha 2-macroglobulin are clustered and endocytosed within 30-45 min at 37 degrees C. 3. Amines do not effect the internalization of 125I-labelled-EGF and the down regulation of EGF receptors. 4. Amines block the degradation of the endocytosed EGF.