Antitumor activity of combinations of antibodies directed against different epitopes on the extracellular domain of the human EGF receptor

The receptor (EGFR) for epidermal growth factor (EGF) and transforming growth alpha (TGFα) is often overexpressed in certain types of human malignancy and high levels of expression of the receptor and/ or coexpression of growth factors. EGF and TGFα have also been correlated with poor prognosis in many patients. We have produced a number of rat monoclonal antibodies (MAbs) against four distinct epitopes on the external domain of the EGF receptor and are currently evaluating their potential for therapeutic use. Nine of these of MAbs were found to inhibit the binding of TGF and EGF to the receptor on tumor cells and these MAbs were able to inhibit the growth in vitro and in vivo of tumor cells that overexpress the EGF receptor. Here, we describe the results of experiments to determine the antitumor activity of combination treatment with two antibodies directed against separate epitopes on the external domain of human EGFR. Our results showed that treatment of human tumor xenografts with a combination of two anti-EGFR MAbs that bind to two distinct epitopes on the external domain of EGF receptor was not as effective as treatment with ICR62 alone, which binds to epitope C on the EGFR and is of IgG2b isotype. A phase I clinical trial with antibody ICR62 is currently underway in Royal Marseden Hospital (UK) in patients with head and neck and lung carcinomas.     

抗人表皮生长因子受体单克隆抗体的制备、鉴定及初步应用

 用人上皮癌细胞系A 431细胞作为抗原免疫BalB/c小鼠,制备七株抗人表皮生长因子受体的单克隆抗体的杂交瘤,这些杂交瘤经三次亚克隆后仍能稳定地分泌单克隆抗体。对其中四株杂交瘤分泌的单克隆抗体进行了鉴定。免疫沉淀放射自显影结果示单克隆抗体3、101和176均可识别A 431细胞膜抗原MW为170000的蛋白质即EGF受体。单克隆抗体59可以识别低分化鼻咽癌细胞膜上EGF受体。单抗3、176和59等可抑制EGF与受体的特异结合,而101和94则不能抑制EGF与受体的结合。 用Protein-A Sepharose CL4B纯化了单抗,纯化的单抗主要为IgG_1亚类。用SDS聚丙烯酰胺凝胶电泳对纯化的单抗进行了纯度测定。     

Perinuclear location and recycling of epidermal growth factor receptor kinase: immunofluorescent visualization using antibodies directed to kinase and extracellular domains

This paper describes studies on the migratory behavior of epidermal growth factor (EGF) receptor kinase using antibodies that are specific for either the kinase domain or the extracellular domain of the receptor. Antiserum was raised to a 42,000-D subfragment of EGF receptor, which was shown earlier to carry the kinase catalytic site but not the EGF-binding site. Another antiserum was raised to the pure intact 170,000-D EGF receptor. The specificities of these antibodies were established by immunoprecipitation and immunoblotting experiments. The domain specificity was examined by indirect immunofluorescent staining of fixed cells. The anti-42-kD peptide antibody could bind specifically to EGF receptors of both human and murine origin and was found to be directed to the cytoplasmic part of the molecule. It did not bind to EGF receptor-negative cells, which contained other types of tyrosine kinases. The antibodies raised against the intact receptor recognized only EGF receptor-specific epitopes and were directed to the extracellular part of the molecule. The anti-receptor antibodies described above were used to visualize the cyclic locomotory behavior of EGF receptor kinase under various conditions of EGF stimulation and withdrawal. The receptor was examined in fixed and permeabilized cells by indirect immunofluorescent staining. The results demonstrate the following: (a) the receptor kinase domain migrates to the perinuclear region upon challenge with EGF; (b) both extracellular and cytoplasmic domains of the receptor are involved in migration as a unit; (c) withdrawal of EGF results in rapid recycling of the perinuclear receptors to the plasma membrane; (d) this return to the cell surface is inhibited by methylamine, chloroquine, and monensin; and (e) neither the internal migration nor the recycling process is blocked by inhibitors of protein biosynthesis.     

Dissociation of cellular responses to epidermal growth factor using anti-receptor monoclonal antibodies.

Three biologically active monoclonal antibodies against the human epidermal growth factor (EGF) receptor (2E9, 2D11 and 2G5) have been used to analyse the interrelationship between various cellular responses to EGF. Antibody 2E9 (IgG1) is directed against the protein core of the receptor, close to or at the EGF binding site, while 2D11 (IgG3) and 2G5 (IgG2a) recognize blood-group A-related carbohydrate determinants of the receptor. These antibodies have EGF-like effects in that they can activate the receptor tyrosine kinase both in vitro and in vivo. Cross-linking of the receptor-bound antibodies by a second antibody mimics EGF in inducing a rapid aggregation of receptors on the cell surface. However, all three antibodies fail to mimic EGF in raising cytoplasmic pH and free Ca2+ and do not stimulate DNA synthesis in quiescent fibroblasts, even after external cross-linking of the occupied receptors. It is concluded that EGF-R tyrosine kinase activity as well as substrate specificity can be modulated by ligands other than EGF, even if they bind to sites distinct from the EGF binding domain; activation of the receptor tyrosine kinase, receptor clustering and induction of the ionic signals are causally unrelated events; and tyrosine kinase activation and receptor cross-linking are not sufficient for stimulation of DNA synthesis.     

Immunoaffinity purification of the epidermal growth factor receptor. Stoichiometry of binding and kinetics of self-phosphorylation

Epidermal growth factor (EGF) receptor protein has been purified in a single high-yield step by immunoaffinity chromatography of extracts of A431 cells. A monoclonal antibody directed against the EGF binding site of the receptor was immobilized to Sepharose 4B as a specific immune absorbent and competitive elution with EGF was used to obtain purified EGF receptor protein with tyrosine kinase activity. The stoichiometry of EGF binding was determined by comparing 125I-EGF binding to A431 cells with the mass of EGF receptor protein in those cells as measured by immunoaffinity chromatography, radioimmunoassay, and immune precipitation. Each measurement indicated one EGF binding site/EGF receptor protein molecule. Study of the kinetics of autophosphorylation revealed rapid incorporation of 1 mol of phosphate/mol of enzyme followed by slower incorporation of additional phosphate groups. The autophosphorylation reaction has a Km for ATP (0.2 microM) which is about 10-fold lower than that for phosphorylation of exogenous substrates. The kinetically preferred autophosphorylation is an intramolecular reaction.     

Nonrandom distribution of epidermal growth factor receptors on the plasma membrane of human A431 cells

The localization of epidermal growth factor (EGF) receptors over the plasma membranes of human epidermoid carcinoma A431 cells was analyzed at the electron microscopic level using surface replica techniques and conventional thin sections, in combination with immunocytochemistry. Immunolabeling was performed using two distinct monoclonal antibodies directed against the extracellular portion of the receptor, followed by protein A-colloidal gold conjugates. Unexpectedly, with the first monoclonal antibody used, the distribution of the receptors in both unfixed and glutaraldehyde-fixed cells was clearly regionalized, showing a preferential localization of the immunolabeling at the cell periphery as well as over the areas rich in microvilli and in coated and uncoated pits. A similar pattern of distribution was observed also with the other monoclonal antibody, but only when the cells were fixed with glutaraldehyde before immunolabeling. Treatment with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate modifies this distribution, inducing a more disperse pattern. Our observations suggest that a minor group of EGF receptors, which may represent the high-affinity receptors, presents a regional distribution, similar to that described for typical recycling receptors.     

Isolation and characteristics of monoclonal antibodies to the external domain of the EGF receptor in human A431 epidermoid carcinoma

The monoclonal antibody to the epidermal growth factor (EGF) receptor was generated after fusion of PAI myeloma cells with immunized BALB/c mouse spleen cells, using intact A431 epidermoid carcinoma cells as an immunogen. The antibody, denoted 5A9, is an IgG, which recognizes a protein with molecular mass 170 kDa during immunoblot analysis, immunoprecipitates phosphoprotein with molecular mass 170 kDa from the membrane preparations of A431 cells, and, according to immunofluorescence experiments, is distributed in the cell similar to the EGF-rhodamine conjugate. It is concluded that the produced antibodies are specific to EGF-receptor. At the same time the 5A9 (50 nM) do not compete with EGF for binding with high and low affinity receptors. They fail to induce internalization of the EGF-receptor and do not exert influence on intracellular degradation of EGF-receptor. Monoclonal antibodies 5A9 are also unable to inhibit the EGF-induced protein kinase activity of the receptor and do not stimulate protein kinase activity by themselves. Thus, the prepared monoclonal antibodies can be used to register the EGF-receptor cellular localization without affecting biologic activity of the receptor.     

Purification of an active EGF receptor kinase with monoclonal antireceptor antibodies

A method is described for a rapid two-step purification of the membrane receptor for epidermal growth factor (EGF) from cultured human A-431 cells. After solubilization of the cells with Triton X-100, the receptor is immobilized on an immunoaffinity column containing a monoclonal antibody directed against the receptor. In the second step of purification, the receptor, eluted from the antibody column, is adsorbed and specifically eluted from a lectin-agarose column. The molecular species obtained is mainly the 170,000-dalton EGF receptor polypeptide. The activity of the pure receptor depends on the conditions used for the desorption from the immunoaffinity beads. High-yield elution is obtained with acidic buffer and the receptor so purified specifically binds EGF, but is devoid of the kinase activity. When the elution is done with alkaline buffers or with buffer containing urea, a fully active receptor kinase is purified (yield of 10%). The pure receptor binds 125I-EGF with a Kd of 4 X 10(-8) M and retains EGF-sensitive protein kinase activity which phosphorylates tyrosine residues on the receptor itself. An additional protocol is described for large-scale purification (yield of 55%) of EGF receptor for the analysis of its primary structure. In this procedure, the EGF receptor is first purified by immunoaffinity chromatography which is followed by preparative gel electrophoresis of the 32P internally labeled receptor to remove minor protein contaminants.     

Structural analysis of the transmembrane domain of the epidermal growth factor receptor

The ligand-binding domain of the epidermal growth factor (EGF) receptor is separated from the cytoplasmic protein tyrosine kinase domain by a predicted single transmembrane segment. Antipeptide antibodies prepared against the outer portion of the predicted transmembrane segment confirmed this area was exposed only when cells were treated with permeabilizing agents. To investigate structural requirements for signal transduction by the transmembrane domain, three types of mutant EGF receptor were prepared. The first type was designed to shorten the transmembrane domain, the second to place proline substitutions within this domain, and the third to make amino acid substitutions analogous to those present in the transforming c-erbB2/neu oncoprotein. Mutant human receptors were expressed in null recipient mouse B82L and Chinese hamster ovary cells. All receptors bound EGF and exhibited EGF-stimulated protein tyrosine kinase activity in vivo as assayed using a 125I-labeled monoclonal anti-phosphotyrosine antibody. EGF stimulated growth of cells expressing each mutant receptor with similar dose-response characteristics. In contrast to other growth factor receptors, the transmembrane domain of the EGF receptor is tolerant to a variety of changes which neither mimic EGF action by constitutive activation nor interfere with ligand-induced signal transduction.     

Isolation of a major human placental substrate for the epidermal growth factor (urogastrone) receptor kinase: immunological cross-reactivity with transducin and sequence homology with lipocortin

Using as a starting material either a detergent extract or a protein fraction eluted from membranes with ethylene glycol bis (beta-aminoethyl ether)-N,N'-tetraacetic acid, we have isolated from human placental membranes a major substrate for the epidermal growth factor (urogastrone) receptor kinase (EGF kinase). The substrate was isolated both in an intact form, having a molecular mass of approximately 38-kDa (p38), and in a 35-kDa form (p35) representing a proteolytic cleavage product of p38. Both p38 and p35 cross-reacted with antibodies directed against bovine retinal transducin, but did not cross-react with antibodies directed against the 35-kDa beta subunit of human placental G-protein. Antisera directed against the placental EGF kinase substrate failed to react with either bovine or human placental src kinase substrate, p36. Conversely, antisera directed against p36 reacted only poorly with placental p38 or p35. Although p38 had a blocked amino terminus that precluded sequence analysis, p35 yielded an N-terminal sequence that was identical with residues 13-36 of human lipocortin. Our data clearly distinguish p38 from the previously described intestinal calcium binding protein calpactin I or p36 that is also a tyrosine kinase substrate, and our work points to a close relationship (if not identity) between p35 and a 35-kDa EGF receptor kinase substrate previously characterized in A431 cells. We conclude that p38 and p35, which very likely represent human placental lipocortin, may share only limited epitope homology with transducin alpha subunit; however, the possibility that p38, along with intestinal p36 and with a family of related calcium binding proteins, may, like transducin, play a role in receptor-mediated transmembrane signaling is discussed.     

Tyrosine kinase activity is essential for the association of phospholipase C-gamma with the epidermal growth factor receptor.

Epidermal growth factor (EGF) treatment of NIH 3T3 cells transfected with wild-type EGF receptor induced tyrosine phosphorylation of phospholipase C-gamma (PLC-gamma). The EGF receptor and PLC-gamma were found to be physically associated such that antibodies directed against PLC-gamma or the EGF receptor coimmunoprecipitated both proteins. The association between PLC-gamma and wild-type EGF receptor was dependent on the concentration of EGF, but EGF did not enhance the association between PLC-gamma and a kinase-negative mutant of the EGF receptor. Oligomerization of the EGF receptor was not sufficient to induce association of the EGF receptor with PLC-gamma, since the kinase-negative mutant receptor underwent normal dimerization in response to EGF yet did not associate with PLC-gamma. The form of PLC-gamma associated with the EGF receptor appeared to be primarily the non-tyrosine-phosphorylated form. It is concluded that the kinase activity of the EGF receptor is essential for association of PLC-gamma with the EGF receptor, possibly by stimulating receptor autophosphorylation.     

Antibodies against a synthetic peptide as a probe for the kinase activity of the avian EGF receptor and v-erbB protein

The transforming protein v-erbB of avian erythroblastosis virus (AEV) displays extensive sequence homology with the presumptive protein-tyrosine kinase domain of the human EGF receptor and with the src protein-tyrosine kinase family of oncogenes. However, no kinase activity has previously been demonstrated for the v-erbB protein. Here antibodies generated against a synthetic peptide from the C terminus of human EGF receptor are shown to immunoprecipitate the EGF receptor from human and avian cells, as well as the v-erbB proteins from AEV-transformed cells that become phosphorylated on tyrosine residues upon the addition of gamma-32P-ATP. The immunoprecipitates are also able to phosphorylate exogenous tyrosine-containing substrates. Hence, it is likely that both avian EGF receptor and v-erbB proteins are protein tyrosine-specific protein kinases. Since the kinase activity of v-erbB protein cannot be regulated by EGF, it is proposed that the tyrosine protein kinase function of v-erbB may be constitutively activated.     

Human epidermal growth factor (EGF) receptor sequence recognized by EGF competitive monoclonal antibodies. Evidence for the localization of the EGF-binding site

Epitopes recognized by three epidermal growth factor (EGF) competitive monoclonal antibodies, LA22, LA58, and LA90, have been localized to a 14-amino acid region in the extracellular domain of the human EGF receptor. The binding of each of these mutually competitive antibodies to A431 epidermoid carcinoma cells was inhibited up to 87% by EGF. Furthermore, binding to A431 cells was inhibited 100% by the EGF competitive monoclonal antibody 528 IgG. The EGF receptor monoclonal antibody 455 IgG, which recognizes a blood group A-related carbohydrate modification of A431 receptors and does not inhibit EGF binding, did not inhibit the binding of these three antibodies to A431 cells. Antibodies LA22, LA58, and LA90 were unusual in that they bound to recognized denatured and endoglycosidase F-treated antigenic determinants in Western blots. This suggested that the antibodies recognized continuous peptide epitopes. The epitopes for these antibodies were first localized in cyanogen bromide- and V8 protease-generated fragments of a truncated form of the EGF receptor secreted by A431 cells. In experiments with synthetic peptides, all three antibodies were found to bind to the 14 amino acids from Ala-351 to Asp-364 of the mature human EGF receptor. These amino acids are located between the two Cys-rich regions of the extracellular domain of the receptor, and they include an Arg-Gly-Asp-Ser recognition site for adhesion molecule receptors. The homologous sequence in the chicken EGF receptor, which binds mouse EGF with a 100-fold lower affinity than the human EGF receptor, contains four amino acid differences including two in the Arg-Gly-Asp-Ser tetramer. The mutually competitive binding of EGF and antibodies LA22, LA58, and LA90 implied that the amino acids between Ala-351 and Asp-364 participated in the formation of the EGF-binding site of the human EGF receptor.     

Low density lipoprotein receptor-related protein mediates endocytosis of monoclonal antibodies in cultured cells and rabbit liver

Monoclonal antibodies that bound to the external domain of the rabbit low density lipoprotein receptor-related protein (LRP) were taken into rabbit fibroblasts by receptor-mediated endocytosis. Uptake occurred in fibroblasts from Watanabe-heritable hyperlipidemic rabbits, which lack low density lipoprotein receptors, as well as in normal rabbit fibroblasts. The fate of the internalized antibodies differed, depending on the domain of LRP that was recognized. LRP is synthesized as a single polypeptide chain that is cleaved to form a heterodimer of two noncovalently bound proteins, 1) a 515-kDa subunit that contains the binding domain, and 2) an 85-kDa subunit that contains the membrane-spanning region and cytoplasmic tail. A monoclonal antibody directed against the 515-kDa subunit (anti-LRP 515) rapidly dissociated from LRP at pH 5.2. After uptake by cells this antibody dissociated from the receptor and was degraded in lysosomes. A second antibody directed against the external portion of the 85-kDa subunit (anti-LRP 85) failed to dissociate at acid pH. After uptake by cells this antibody was not degraded, but instead was released from the cells in an acid-precipitable form. When administered intravenously to rabbits, both 125I-labeled antibodies were rapidly cleared from the circulation, 75-95% of the uptake occurring in the liver. The anti-LRP 515 antibody was degraded and acid-soluble products appeared in the plasma. No significant acid-soluble products appeared when the anti-LRP-85 antibody was infused. We conclude that LRP can carry out receptor-mediated endocytosis and that its ligand-binding domain, like the similar domain of the low density lipoprotein receptor, undergoes an acid-dependent conformational change that ejects ligands within the endosome. We also conclude that in the body this endocytotic function is expressed primarily in the liver. Both of these conclusions lend support to the hypothesis that LRP may function in humans and animals as a receptor for apolipoprotein E-enriched lipoproteins, such as chylomicron remnants.     

Preparation and properties of monoclonal and polyclonal antibodies to mouse epidermal growth factor (EGF) receptors: evidence for cryptic EGF receptors in embryonal carcinoma cells

Monoclonal antibodies to mouse epidermal growth factor (EGF) receptor were prepared by the immunization of rats with receptor glycoprotein purified from mouse liver by affinity chromatography on immobilized EGF. Purified mouse EGF receptor retained EGF-inducible autophosphorylating activity and was antigenic in rats and rabbits. The monoclonal antibodies cross react very poorly with human EGF receptor, while polyclonal rabbit antibodies immunoprecipitate human, rat and mouse EGF receptor equally well. The rabbit antibody blocks EGF binding to mouse fibroblast cells and, at 20-fold higher concentrations, stimulates uptake of tritiated thymidine into DNA. This indicates that antibodies bind at or close to the EGF-binding site and can mimic the effects of the growth factor. None of the monoclonals bind at the EGF site of the receptor. Immunoprecipitation, immunoblotting, 125I-EGF cross linking, 125I-surface labelling, immunohistochemistry and autophosphorylation techniques were used to delineate the basis for the induction of EGF receptors when OC15 embryonal carcinoma (EC) cells differentiate into endodermal derivatives (END). EGF-stimulated autophosphorylation of a 170 X 10(3) Mr protein in solubilized OC15 EC cells is readily detectable, although intact EC cells do not bind or respond to EGF by all other tests. The results suggest that cryptic EGF receptors are present in EC stem cells, a finding with implications in development.     

Inability of anti-epidermal growth factor receptor monoclonal antibody to block "autocrine" growth stimulation in transforming growth factor-secreting melanoma cells

Mouse monoclonal antibodies to the human epidermal growth factor (EGF) receptor were raised by immunizing with plasma membrane vesicles prepared from A431 cells. This paper describes the characterization of one of the IgG anti-receptor monoclonal antibodies generated and its use to probe the role of transforming growth factor (TGF) in the autonomous growth of a melanoma cell line in culture. This antibody blocks: 1) the binding of 125I-EGF to the A431 EGF receptor; 2) the EGF stimulation of the EGF-dependent protein kinase in vitro; and 3) human fibroblast DNA synthesis and proliferation in culture. It can precipitate the EGF receptor from metabolically labeled A431 cells and human fibroblasts and these receptors have indistinguishable peptide maps. No EGF receptor could be detected by immunoprecipitation after fibroblasts were treated with EGF or conditioned medium from the melanoma cells which secrete EGF-like TGF (alpha TGF). The antibody itself did not down-regulate the receptor but could block down-regulation caused by EGF and alpha TGF. Despite its ability to block EGF-stimulated growth and down-regulation in fibroblasts, the antibody was unable to block the growth and soft agar colony formation of alpha TGF-secreting melanoma cells, nor could the antibody detect EGF receptor in these cells under the conditions developed to prevent down-regulation and lysosomal degradation of the EGF receptor. These studies suggest that these melanoma cells do not have the intact EGF receptor and that the secretion of alpha TGF by these cells plays no role in their growth in culture. The absence of receptor cannot be explained by down-regulation by secreted alpha TGF.