Mechanical unfolding of single filamin A (ABP-280) molecules detected by atomic force microscopy

Filamin A (ABP-280), which is an actin-binding protein of 560 kDa as a dimer, can, together with actin filaments, produce an isotropic cross-linked three-dimensional network (actin/filamin A gel) that plays an important role in mechanical responses of cells in processes such as maintenance of membrane stability and translational locomotion. in this study we investigated the mechanical properties of single filamin A molecules using atomic force microscopy, In force-extension curves, we observed sawtooth patterns corresponding to the unfolding of individual immunoglobulin (Ig)-fold domains of filamin A. At a pulling speed of 0.37 mum/s, the unfolding interval was sharply distributed around 30 mn, while the unfolding force ranged from 50 to 220 pN. This wide distribution of the unfolding force can be explained by variation in values of activation energy and the width of activation barrier of 24 Ig-fold domains of the filamin A at the unfolding transition. This unfolding can endow filamin A with great extensibility, The refolding of the unfolded chain of filamin A occurred when the force applied to the protein was reduced to near zero, indicating that its unfolding is reversible, Rased on these results, we discuss here the physiological implications of the mechanical properties of single filamin A molecules, (C) 2001 Federation of European Biochemical Societies. Published by Elsevier Science E.V. All rights reserved.