Bradford O. Fanger scite author profile

The binding of epidermal growth factor (EGF) to its plasma membrane receptor results in the stimulation of a tyrosyl residue-specific protein kinase, which has been shown to be part of the receptor. The mechanism by which EGF binding give rise to the stimulation of kinase activity is not understood in detail; however, a number of recent studies have implicated receptor dimerization or oligomerization in this process. We prepared Triton X-100 extracts of A431 cells in which the concentration of EGF receptors was on the order of 10(-7) M. When samples of the extracts were incubated with or without EGF and then treated with the high-yield cross-linking reagent bis(sulfosuccinimidyl)suberate (BS3), covalent receptor dimers could be detected in high yield in samples that had been treated with both EGF and BS3, whereas only monomeric receptor was detected in untreated samples or in samples that had been treated with either EGF or BS3. The yield of receptor dimers trapped by cross-linking correlated with the stimulation of autophosphorylation by EGF and with the concentration of EGF present. EGF-induced receptor dimers were also efficiently cross-linked in highly purified receptor preparations, suggesting that EGF-induced dimerization is a process intrinsic to the receptor, requiring no additional accessory proteins.

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Adaptation of the Bradford protein assay to membrane-bound proteins by solubilizing in glucopyranoside detergents

Fanger

1987

Analytical Biochemistry

108

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Structure and properties of the cellular receptor for transforming growth factor type beta

Fanger¹,

Wakefield²,

Sporn³

1986

Biochemistry

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Swiss 3T3 cells respond to picomolar concentrations of type beta transforming growth factor (TGF-beta) with a dose-dependent increase in the formation of colonies in soft agar, a decrease in the growth of cells in monolayer culture, and changes in morphology. This indicates that these cells have functional TGF-beta receptors able to mediate a biological response. Binding analysis revealed a single class of TGF-beta binding sites (80 000 per cell) with a Kd approximately 50 pM. Receptors were affinity-labeled by covalent attachment to 125I-TGF-beta with bis(sulfosuccinimidyl) suberate (BS3). The complexes formed were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis in the presence of 100 mM dithiothreitol and migrated as Mr approximately 180 000 complexes in 3-10% linear gradient gels. The apparent size of these complexes was larger in gels with a higher percentage of acrylamide. The labeling of the 125I-TGF-beta-receptor complexes was inhibited by the presence of excess unlabeled TGF-beta but was unaffected by other growth factors. These complexes could be formed by cross-linking whole cells, intact membranes, or solubilized membranes, demonstrating that the TGF-beta receptor is located on the plasma membrane and can be solubilized without destruction of its ability to bind TGF-beta. A larger Mr approximately 360 000 complex was present in 3-10% linear gradient gels without reduction or after extensive cross-linking, suggesting that the receptor consists of two subunits of similar size attached by disulfide bonds. Since BS3 is membrane-impermeable, at least a portion of both subunits is located on the outer surface of the plasma membrane.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cross-linking of epidermal growth factor receptors in intact cells: detection of initial stages of receptor clustering and determination of molecular weight of high-affinity receptors

Fanger¹,

Austin²,

Earp³

et al. 1986

Biochemistry

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A method was developed to label epidermal growth factor (EGF) receptors with 125I-EGF in whole cells using chemical cross-linking reagents. Polyacrylamide gel electrophoresis resolved an Mr approximately 180,000 EGF-receptor complex and larger Mr greater than or equal to 360,000 aggregates. The formation of the larger complexes was time and temperature dependent and appeared to represent the initial events of EGF receptor clustering. Alteration of the ratio of 125I-EGF-labeled high- (Kd approximately 0.16 nM) and low- (Kd approximately 1.5 nM) affinity complexes by competition with unlabeled EGF or by induction of additional high-affinity sites with dexamethasone suggested that both sites were represented by the Mr approximately 180,000 125I-EGF-receptor complexes. Digestion of cells before cross-linking detected a small population of trypsin-resistant Mr approximately 180,000 receptors, which could represent previously described cryptic and/or high-affinity receptors. Few of the Mr approximately 360,000 receptors were trypsin resistant. Glucocorticoid induction of high-affinity EGF receptors failed to induce detectable changes in the microclustering of EGF receptors but did result in a 50% increase in EGF-induced receptor phosphorylation in HeLa S3 cell membranes at 4 degrees C. Thus, glucocorticoids increase high-affinity EGF binding sites, EGF-induced receptor phosphorylation, and cell growth.

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