Role of Actin-binding Protein in Insertion of Adhesion Receptors into the Membrane

Sylvie C Meyer,David A Sanan,Joan E.B Fox

doi:10.1074/jbc.273.5.3013

Abstract

The goal of this study was to determine whether actin-binding protein (ABP) regulates membrane composition. ABP-deficient and ABP-containing cells were transfected with the cDNAs coding for glycoprotein (GP) Ib-IX, a platelet receptor that interacts with ABP. Most of the GP Ib-IX remained inside the ABP-deficient cells. When ABP was present, functional GP Ib-IX was inserted into the membrane. GP Ib-IX lacking the domain that interacts with ABP also showed increased membrane insertion in ABP-expressing cells. Furthermore, a fragment of ABP that lacks the dimerization and GP Ib-IX-binding sites restored the spreading of the cells and increased the amount of GP Ib-IX in the membrane. Finally, expression of ABP also increased endogenous beta1 integrin in the membrane. These results indicate that 1) ABP maintains the properties of the cell such that adhesion receptors can be efficiently expressed in the membrane; 2) increased receptor expression is accompanied by increased ability of the cell to spread; and 3) ABP exerts its effect by a mechanism that does not appear to involve direct cross-linking of actin filaments or direct interaction with receptors.

Highlights

The goal of this study was to determine whether actinbinding protein (ABP) regulates membrane composition
Expression of actin-binding protein (ABP) increased endogenous ␤1 integrin in the membrane. These results indicate that 1) ABP maintains the properties of the cell such that adhesion receptors can be efficiently expressed in the membrane; 2) increased receptor expression is accompanied by increased ability of the cell to spread; and 3) ABP exerts its effect by a mechanism that does not appear to involve direct cross-linking of actin filaments or direct interaction with receptors
Because ABP is known to be a component of a specialized part of the cytoskeleton that is in close apposition to the membrane and associates with specific membrane glycoproteins (4 –12), we wondered whether the reason that ABP-deficient cells are unable to extend normal projections might be because ABP is normally involved in regulating membrane properties

Summary

Introduction

The goal of this study was to determine whether actinbinding protein (ABP) regulates membrane composition. GP Ib-IX lacking the domain that interacts with ABP showed increased membrane insertion in ABP-expressing cells. The best characterized interaction of ABP with a membrane protein is with GP Ib-IX (4 –10), the platelet von Willebrand factor receptor that mediates the initial attachment of platelets at a site of injury [14, 15]. This receptor consists of three transmembrane subunits (GP Ib␣, GP Ib␤, and GP IX) [16]. We examined the role of ABP in regulating expression of this receptor

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