Ligand-Receptor Interactions in the Membrane of Cultured Cells Monitored by Fluorescence Correlation Spectroscopy (original) (raw)

Abstract

We investigated the specific binding of epidermal growth factor (EGF) to its membranebound receptors in cultured cells. The specificity of the binding was attested by the consistent displacement of bound rhodaminelabeled EGF (RhEGF) following addition of 1000-fold molar excess of unlabeled EGF. The binding specificity of EGF was further confirmed when vascular EGF was unable to displace RhEGF binding, demonstrating no crossreaction. Evidence for the specific interactions was verified by an equilibrium saturation binding experiment. EGF binding to the cell membranes is saturated at nanomolar concentration. The Scatchard plots show a binding process with K of 1.5 x 10[9]M[-1]. The dissociation kinetics follow a single exponential function characteristic for a relatively slow dissociation process with k = 2.9 x 10[-4] s[-1]. The appearance of two binding complexes through the distribution of diffusion times may suggest that these are representatives of two different forms or subtypes of EGF receptors. This study is of pharmaceutical significance as it provides evidence that fluorescence correlation spectroscopy can be used as a rapid technique for studying ligandreceptor interactions in cell cultures. This is a step forward toward largescale drug screening in cell cultures.

Published Online: 2005-06-01

Published in Print: 2001-03-21