Abstract
Na(+)/H(+) exchanger regulatory factor (NHERF) is an adapter protein that is responsible for organizing a number of cell receptors and channels. NHERF contains two amino-terminal PDZ (postsynaptic density 95/disk-large/zonula occluden-1) domains that bind to the cytoplasmic domains of a number of membrane channels or receptors. The carboxyl terminus of NHERF interacts with the FERM domain (a domain shared by protein 4.1, ezrin, radixin, and moesin) of a family of actin-binding proteins, ezrin-radixin-moesin. NHERF was shown previously to be capable of enhancing the channel activities of cystic fibrosis transmembrane conductance regulator (CFTR). Here we show that binding of the FERM domain of ezrin to NHERF regulates the cooperative binding of NHERF to bring two cytoplasmic tails of CFTR into spatial proximity to each other. We find that ezrin binding activates the second PDZ domain of NHERF to interact with the cytoplasmic tails of CFTR (C-CFTR), so as to form a specific 2:1:1 (C-CFTR)(2).NHERF.ezrin ternary complex. Without ezrin binding, the cytoplasmic tail of CFTR only interacts strongly with the first amino-terminal PDZ domain to form a 1:1 C-CFTR.NHERF complex. Immunoprecipitation and immunoblotting confirm the specific interactions of NHERF with the full-length CFTR and with ezrin in vivo. Because of the concentrated distribution of ezrin and NHERF in the apical membrane regions of epithelial cells and the diverse binding partners for the NHERF PDZ domains, the regulation of NHERF by ezrin may be employed as a general mechanism to assemble channels and receptors in the membrane cytoskeleton.
Highlights
As we show in the following studies, it is the monomeric state of NHERF that is responsible for interacting with the cytoplasmic tail of CFTR and the FERM domain of ezrin
We have demonstrated that binding of the FERM domain of ezrin at the carboxyl terminus of NHERF significantly increases the binding affinity of the NHERF PDZ2 domain for the carboxyl terminus of CFTR
As a result of ezrin binding, a specific ternary complex (C-CFTR)21⁄7NHERF1⁄7ezFERM of 2:1:1 stoichiometry is formed, in which two C-CFTR molecules are anchored to NHERF
Summary
Protein Expression and Purification—The cDNAs encoding the fulllength human NHERF-1 and ezrin were purchased from American Type Culture Collection (ATCC, Manassas, VA). Solution Light Scattering Experiments—Light scattering experiments were performed on a DynaPro Molecular Sizing Instrument with Dynamics V6 data analysis software (Protein Solutions, Inc.). The response curves were obtained by subtracting the background signal, generated from a control cell injected with the same analyte but without ligand coating of the hydrogel matrix to remove the bulk refractive index effects. The BioTrek Protein Delivery Regent (Stratagene) was used to deliver NHERF or the NHERF1⁄7ezFERM complex in BHK cells. The beads were spun and washed three times with 750 l of radioimmune precipitation assay buffer and re-suspended in 50 l of SDS-PAGE sample buffer In another experiment, ϳ10 g of mouse anti-Xpress antibody (Invitrogen) was added to 500 g of cell lysate to pull-down ezFERM. The program DAMMIN [46] was used to reconstruct the low resolution
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