Abstract
The relationship between epidermal growth factor receptor (EGF-R) protein tyrosine kinase activation and ligand-induced receptor dimerization was investigated using several bivalent anti-EGF-R antibodies directed against various receptor epitopes. In A431 membrane preparations and permeabilized cells, all antibodies were able to activate the EGF-R tyrosine kinase, as measured by EGF-R autophosphorylation and phosphorylation of other substrates on tyrosine residues. EGF-R tyrosine kinase activation correlated strongly with the induction of EGF-R dimerization. (i) Both processes specifically occurred in a narrow antibody concentration range; (ii) both processes required the presence of detergent; and (iii) both processes depended on antibody bivalence since monovalent Fab fragments were inactive yet regained full activity after cross-linking by a second bivalent antibody. These data demonstrate that antibody bivalence is essential and sufficient for EGF-R activation and that activation occurs regardless of the EGF-R epitope recognized. Finally, EGF-R dimerization was shown not to depend on receptor autophosphorylation since it still occurred in the absence of ATP. Also, partial inhibition of the tyrosine kinase activity by the specific EGF-R tyrosine kinase inhibitor tyrphostin AG 213 did not affect formation of EGF-R dimers. Taken together these results demonstrate that induction of EGF-R dimerization is sufficient and in case of antibody action, essential, for activation of the EGF-R tyrosine kinase and thus provide strong support for an intermolecular mechanism of EGF-R tyrosine kinase activation.
Highlights
The relationship between epidermal growth factor tion of several protein substrates including the epidermal growth factor receptor (EGF-R) itself receptor (EGF-R) protein tyrosine kinase activation (2)
According to the intramolecular activation model, EGF binding leads taoconformational changein the presence of detergent; and (iii)both processes de- the extracellular EGF-R domawinhich is transmitted through pended on antibody bivalence since monovalent Fab the hydrophobic transmembrane stretch to the cytoplasmic fragments were inactive yet regained full activitytyarofsteinre kinase domain, resulting in activatioonf the EGF-R
EGF-R Autophosphorylutionand Exogenous Substrate Phosphoryla previous study we have demonstrated that in the presence of detergent, anti-EGF-R antibody2E9, directed against the extracellular domain, and antiserum 281-7, directed against the intracellular domainof the EGF-R, were able to activate the EGF-R tyrosine kinase in membrane preparations and ation Measurements in Membrane Preparation.-Analysis of phos- whole cells (30)
Summary
Antibody 528 (2 pg) or antiserum 281-7 (10 pl) bound to protein A- Antibody-induced EGF-R Autophosphorylation in Cells-In. Upon omission of Ca2+ from the permeabilization buffer measured by countingradioactivity in the excised EGF-R the 35-kDa protein was no longerobserved (notshown), monomer- and dimer-containing gel bands, about 3% of the suggesting that this is the Ca2+-dependent EGF-R substrate radioactivitywaspresent in theEGF-Rdimer fraction in lipocortin I/calpactin I1 (35-37) These observations demon- untreated membranes whereas both EGF and 2E9 treatment stratethatalso for antibody-mediatedstimulation of the resulted in an enhancement up to 15%. After 3-10?; SDS-PAGE and autoradiography, EGF-R monomer ( M b , dimer ( I ) ) - ,and background ( i n hetween)-containinpgel bandswere excised, and radioactivitywas quanof phosphorylation with EDTA, EDAC was added for 1.5 min a t 30 "C. no 2E9-induced receptor dimerization is observed when detergent is omitted from the phosphorylation mix This observation confirms the disability of the anti-EGF-R antibodies to stimulate the tyrosine kinase in the absence of detergent (30) and corroborates a role for titated by liquid scintillation.
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