The role of Src-kinase in the regulation of endocytosis of EGF-receptor complexes. Distribution of clathrin after stimulation of EGR endocytosis in various cell lines during inhibition of Src-kinase activity

A distribution of EGF receptor and clathrin during EGF endocytosis in A431, HER14, WT and PURO cell lines was studied by indirect immunofluorescence. Though the initial distribution of EGF-receptors on A431 and HER14 cells was somewhat different, the late stages of endocytosis proceeded equally and were marked by formation of bright spots in the juxtanuclear region characteristic of the late endosomes. The Src-family kinase inhibitor CGP77675 had no influence on the dynamics of receptor endocytosis at the immunofluorescent level in both cell lines. Stimulation of EGF-receptor endocytosis in A431 cells did not also result in any redistribution of clathrin in the areas where the majority of EGF-receptors are localized, i.e. in the lateral plasma membrane both in the control cells and under CGP77675 treatment. Clathrin in A431, WT and PURO cells demonstrated even a punctuated pattern throughout the cytoplasm with some accumulation in the juxtanuclear region. This distribution depended neither on the absence or presence of Src activity nor on EGF addition. The data obtained indicate that 1) EGF-receptors do not serve as the initiation sites during clathrin coated pit assembly; 2) Src-kinase activation does not result in significant clathrin redistribution in the plasma membrane, and its influence on EGF endocytosis can be considered as a secondary effect.     

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.     

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.     

Endocytosis of EGF-receptor complexes at various cell cycle stages

Parameters of EGF-receptor complex endocytosis have been studied in the early and late G1 phase and in mitosis. As a model, mouse mammary epithelial cells HC11 were used, whose growth depends on EGF presence in the medium. The Scatchard analysis has demonstrated that the surface receptors are represented by two receptor populations: 4800 high affinity (KD = 10(-11) M) receptors, and 73,000 low affinity (KD = 4.10(-9) M) receptors. Incubation of cells with the growth factor (5 ng/ml) resulted in a decrease in 125I-EGF binding, with its level being low until entering the S-phase. Under these conditions, receptors disposed on the plasma membrane presented a homogeneous population (KD = 8.10(-11) M, 14,000 receptors per cell). No reliable difference was revealed between the EGF-receptor complexes, internalized in early and late G1 phases, in respect to the internalization rate, level of recycling, degradation, and dynamics of compartmentalization. However, endocytosis of EGF-receptor complexes was found to be completely blocked in mitosis at the stage of internalization.     

Dysregulation of Ack1 inhibits down-regulation of the EGF receptor

The protein tyrosine kinase Ack1 has been linked to cancer when over-expressed. Ack1 has also been suggested to function in clathrin-mediated endocytosis and in down-regulation of the epidermal growth factor (EGF) receptor (EGFR). We have studied the intracellular localization of over-expressed Ack1 and found that Ack1 co-localizes with the EGFR upon EGF-induced endocytosis in cells with moderate over-expression of Ack. This co-localization is mainly observed in early endosomes. Furthermore, we found that over-expression of Ack1 retained the EGFR at the limiting membrane of early endosomes, inhibiting sorting to inner vesicles of multivesicular bodies. Down-regulation of Ack1 in HeLa cells resulted in reduced rate of (125)I-EGF internalization, whereas internalization of (125)I-transferrin was not affected. In cells where Ack1 had been knocked down by siRNA, recycling of internalized (125)I-EGF was increased, while degradation of (125)I-EGF was inhibited. Together, these data suggest that Ack1 is involved in an early step of EGFR desensitization.     

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.     

Recycling of epidermal growth factor-receptor complexes in A431 cells: identification of dual pathways

The intracellular sorting of EGF-receptor complexes (EGF-RC) has been studied in human epidermoid carcinoma A431 cells. Recycling of EGF was found to occur rapidly after internalization at 37 degrees C. The initial rate of EGF recycling was reduced at 18 degrees C. A significant pool of internalized EGF was incapable of recycling at 18 degrees C but began to recycle when cells were warmed to 37 degrees C. The relative rate of EGF outflow at 37 degrees C from cells exposed to an 18 degrees C temperature block was slower (t1/2 approximately 20 min) than the rate from cells not exposed to a temperature block (t1/2 approximately 5-7 min). These data suggest that there might be both short- and long-time cycles of EGF recycling in A431 cells. Examination of the intracellular EGF-RC dissociation and dynamics of short- and long-time recycling indicated that EGF recycled as EGF-RC. Moreover, EGF receptors that were covalently labeled with a photoactivatable derivative of 125I-EGF recycled via the long-time pathway at a rate similar to that of 125I-EGF. Since EGF-RC degradation was also blocked at 18 degrees C, we propose that sorting to the lysosomal and long-time recycling pathway may occur after a highly temperature-sensitive step, presumably in the late endosomes.     

Recycling of epidermal growth factor in A431 cells

The fate of epidermal growth factor (EGF) after internalization by A431 cells was studied. First, cells containing 125I-EGF-receptor complexes in endosomes were obtained. Subsequent incubation of the cells at 37 degrees C resulted in the recycling of 125I-EGF from endosomes to the cell surface in the receptor-bound state and the gradual release of recycled ligand into the medium. The excess of unlabeled EGF blocked both rebinding and re-internalization of recycled 125I-EGF to produce enhanced accumulation of ligand in the medium. The rate of recycling was shown to be much higher than that of EGF degradation.     

Analysis of the influences of the E5 transforming protein on kinetic parameters of epidermal growth factor binding and metabolism.

The E5 protein of the bovine papillomavirus induces cellular transformation when transfected into NIH 3T3 cells, and the extent of focal transformation is enhanced by cotransfection with the epidermal growth factor (EGF) receptor (Martin et al., Cell 59:21-32, 1989). To determine whether E5 affects EGF:receptor interactions we analyzed the kinetics of 125I-EGF processing using a mathematical model that enabled us to evaluate rate constants for ligand association (ka), dissociation (kd), internalization (ke), recycling (kr), and degradation (kh). These rate constants were measured in NIH 3T3 cells transfected with the human EGF receptor (ER cells) and in cells transfected with both the EGF receptor and E5 (E5/ER cells). We found that the rate constant for 125I-EGF association ka was significantly decreased in E5/ER cells, but was apparently occupancy-independent in both cell lines. The 125I-EGF dissociation rate constant kd was significantly lower in E5 transformed cells, and increased with occupancy in both cell lines. This suggests that E5 alters the receptor before or during EGF binding so that ligand association is slower; however, once complexes are formed, EGF is bound more tightly to the receptor. Rate constants for internalization ke were also found to be occupancy-dependent, although at a given level of occupancy ke was similar for both cell lines. Also, there was no apparent effect of E5 on the recycling rate constant kr. The 125I-EGF degradation rate constant kh was 30% lower in E5 transformed cells, and was occupancy-independent. The overall effect of E5 is to stabilize intact EGF:receptor complexes which may alter mitogenic signaling of the receptor.     

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.     

Effect of tyrosine kinase inhibitors on clathrin-coated pit recruitment and internalization of epidermal growth factor receptor

Several inhibitors of epidermal growth factor receptor (EGFR) kinase and Src family kinases (SFK) were employed to study the role of these kinases in EGFR internalization through clathrin-coated pits. The EGFR kinase-specific compound PD158780 substantially diminished EGFR internalization. PP2, an inhibitor of SFK, had a moderate effect on EGFR internalization in several types of cells, including cells lacking SFK, indicating that the inhibition of endocytosis by PP2 is mediated by kinases other than SFK. In contrast, SU6656, a more specific inhibitor of SFK, did not affect EGFR internalization. To examine what stage of internalization requires receptor kinase activity, we established a quantitative assay based on three-dimensional fluorescence microscopy that measures co-localization of an EGF-rhodamine conjugate and a fluorescently tagged clathrin adaptor protein complex, AP-2. Interestingly, recruitment of EGFR into coated pits did not require physiological temperature because the maximal accumulation of EGFR in coated pits was observed at 4 degrees C. Pretreatment of the cells with PD158780 prevented EGFR recruitment into coated pits, whereas the inhibitor did not block the internalization of receptors that had first been allowed to enter the coated pits at 4 degrees C. These data demonstrate that the activation of receptor kinase is essential for the initial, coated pit recruitment step of endocytosis.     

STAT1 and STAT3 activation by oxidative stress in A431 cells involves Src-dependent EGF receptor transactivation

Different cellular signal transduction cascades are affected by environmental stressors (UV-radiation, gamma-irradiation, hyperosmotic conditions, oxidants). In this study, we examined oxidative stress-evoked signal transduction pathways leading to activation of STATs in A431 carcinoma cells. Oxidative stress, initiated by addition of H2O2 (1-2 mM) to A431 cells, activates STAT3 and, to a lesser extent, STAT1 in dose- and time-dependent manner. Maximum phosphorylation levels were observed after a 2 minutes stimulation at 1-2 mM H2O2. Phosphorylation was blocked by AG1478, a pharmacological inhibitor of the epidermal growth factor receptor tyrosine kinase, implicating intrinsic EGF receptor tyrosine kinase in this process. Consistent with this observation, H2O2-stimulated EGFR tyrosine phosphorylation was abolished by specific Src kinase family inhibitor CGP77675, implicating Src in H2O2-induced EGFR activation. An essential role for Src and JAK2 in STATs activation was suggested by three findings. 1. Src kinase family inhibitor CGP77675 blocked STAT3 and STAT1 activation by H2O2 in a concentration-dependent manner. 2. In Src-/-fibroblasts, activation of both STAT3 and STAT1 by H2O2 was significantly attenuated. 3. Inhibiting JAK2 activity with the specific inhibitor AG490 reduced the level of H2O2-induced STAT3 phosphorylation, but not STAT1 in A431 cells. These data show essential roles for Src and JAK2 inactivation of STAT3. In contrast, H2O2-mediated activation of STAT1 requires only Src kinase activity. Herein, we postulate also that H2O2-induced STAT activation in carcinoma cells involves Src-dependent EGFR transactivation.     

Effect of the anti-receptor ligand-blocking 225 monoclonal antibody on EGF receptor endocytosis and sorting

The anti-receptor antibody, 225 mAb, is known to block binding of ligand to the epidermal growth factor receptor (EGFR). However, the effect of this neutralizing antibody on EGFR endocytosis, trafficking and degradation remains unclear. Here, we demonstrate that endocytosis of (125)I-225 mAb occurs, albeit with a slower rate than that of EGF. Using pulse chase assays, we show that internalized (125)I-225 mAb is recycled to the surface much more efficiently than internalized (125)I-EGF. Also, we found that internalization of (125)I-225 mAb, in contrast to that of EGF, is independent of receptor tyrosine kinase activity, as evidenced by its insensitivity to AG1478, a specific EGFR tyrosine kinase inhibitor. Analysis of the levels of cell surface and total EGFR showed that treatment with 225 mAb results in a 30-40% decrease in surface EGFR and a relatively slow downregulation of total EGFR. Taken together, these data indicate that 225 mAb induces internalization and downregulation of EGFR via a mechanism distinct from that underlying EGF-induced EGFR internalization and downregulation.     

EGF induces receptor down-regulation with no receptor recycling in KB cells

Several ligands, including epidermal growth factor (EGF), have been found to negatively modulate or down-regulate their specific plasma membrane receptors. Using both 125I-EGF and a monoclonal antibody against the EGF-receptor (EGF-R1), we studied the down-regulation of the EGF-receptor in the human adenocarcinoma cell line KB. The results presented here demonstrate that incubating KB cells at 37 degrees C with EGF rapidly decreases the number of plasma membrane EGF-receptors. In addition, there is a concomitant rise of equal magnitude in the number of EGF molecules taken up. The latter result argues strongly that there is negligible recycling of the EGF-receptor in KB cells and that the major portion of internalized EGF-receptor complexes are transported to lysosomes and subsequently degraded. The fate of the EGF-receptor is markedly different from that of receptors not subject to down-regulation. The biochemical signals that operate to regulate such diverse receptor traffic in cells remains to be elucidated.     

Multiple autophosphorylation site mutations of the epidermal growth factor receptor. Analysis of kinase activity and endocytosis

We have utilized site-directed mutants to study the role of autophosphorylation of the epidermal growth factor (EGF) receptor in the regulation of receptor kinase activity and ligand-induced endocytosis. A single mutation of the major autophosphorylation site, Y1173, and a double mutation of two autophosphorylation sites, Y1173 and Y1148, did not inhibit kinase activity in vivo, using PLC gamma 1 as a specific substrate for the EGF receptor kinase. The simultaneous mutation of three major autophosphorylation sites (Y1173, Y1148, Y1068), however, caused more than a 50% decrease in EGF-induced tyrosine phosphorylation of PLC gamma 1. The triple mutation also resulted in a substantial inhibition of the EGF-receptor endocytic system. We have used three types of experiments to analyze internalization, recycling, and degradation of EGF in cells with these mutants or the wild-type receptor. Using a simple mathematical model we have shown that the internalization rate constant is 2-fold lower in cells expressing the triple mutation receptor (F3 cells) than in cells expressing wild-type EGF receptor (wild-type cells). However, the rate constant for recycling was similar in both cell types. The EGF degradation rate constant was also lower in F3 cells. EGF-induced EGF receptor degradation was slower in F3 cells (t1/2 = 4 h) than in wild-type cells (t1/2 = 1 h). Therefore, our results suggest that multiple autophosphorylations of the carboxyl terminus of the EGF receptor are required for EGF receptor kinase activation, and for the internalization and intracellular processing of the EGF.receptor complex.     

Biglycan is internalized via a chlorpromazine-sensitive route

The small leucine-rich proteoglycan biglycan (BGN) is abundantly expressed in mesenchymal tissues. Its expression level is related to the phenotypic differentiation of cells. A dysregulation in BGN expression occurs under several pathological conditions, including glomerulonephritis, mesothelioma, pancreatic cancer and a mouse model of osteoporosis. Since the extracellular concentration of BGN is regulated both by secretion and endocytosis, we performed mechanistic studies on BGN endocytosis in human skin fibroblasts in vitro, using inhibitors of different endocytic routes. Chlorpromazine, an inhibitor of the clathrin-coated pit-pathway reduced endocytosis of BGN in human skin fibroblasts by 40%, and decreased degradation of BGN by 66% Filipin, an inhibitor of the caveolae pathway, and Tyrphostin AG 1478, a specific inhibitor of EGF-receptor phosphorylation that partially inhibits endocytosis of the structurally related proteoglycan decorin, had no influence on BGN internalization and degradation. Our data indicates that the classical clathrin-mediated endocytic pathway is a major route for the internalization of BGN. Based on the differential susceptibility to pharmacological inhibition, it appears that BGN endocytosis seems to be at least in part mechanistically different from decorin uptake.     

Active recombinant human tyrosine kinase c-Yes: expression in baculovirus system, purification, comparison to c-Src, and inhibition by a c-Src inhibitor

C-Yes is a non-receptor-type tyrosine kinase of the Src family that is most closely related to c-Src. C-Yes has been implicated in development of some human cancers. Here we report on the expression, purification, and characterization of the active human recombinant c-Yes. A full-length human c-Yes clone has been generated and the protein was expressed in insect Sf9 cells. Active c-Yes was purified by liquid chromatography to yield a preparation with a high specific activity (160 nmol/min/mg using an optimal Src substrate peptide). In a comparison between human c-Yes and c-Src enzymes, relative phosphorylation efficiencies on nine protein and four peptide substrates were different. However, the recently described Src inhibitor CGP77675 inhibited human c-Yes with a potency similar to that of c-Src (IC(50) value of 6.5 nM). The purified preparation of active c-Yes provides a good basis for further enzymatic characterization and for the development of c-Yes-specific inhibitors.