Molecular Design Principles Underlying β-strand Swapping in the Adhesive Dimerization of Cadherins

Overview

Journal Nat Struct Mol Biol

Specialties Cell Biology
Molecular Biology

Date 2011 May 17

PMID 21572446

Citations 51

Authors

Jeremie Vendome

Shoshana Posy

Xiangshu Jin

Fabiana Bahna

Goran Ahlsen

Lawrence Shapiro

Barry Honig

Affiliations

Soon will be listed here.

Abstract

Cell adhesion by classical cadherins is mediated by dimerization of their EC1 domains through the 'swapping' of N-terminal β-strands. We use molecular simulations, measurements of binding affinities and X-ray crystallography to provide a detailed picture of the structural and energetic factors that control the adhesive dimerization of cadherins. We show that strand swapping in EC1 is driven by conformational strain in cadherin monomers that arises from the anchoring of their short N-terminal strand at one end by the conserved Trp2 and at the other by ligation to Ca(2+) ions. We also demonstrate that a conserved proline-proline motif functions to avoid the formation of an overly tight interface where affinity differences between different cadherins, crucial at the cellular level, are lost. We use these findings to design site-directed mutations that transform a monomeric EC2-EC3 domain cadherin construct into a strand-swapped dimer.

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