A Thermodynamic and Structural Study of Myelin Basic Protein in Lipid Membrane Models

doi:10.1529/biophysj.106.103820

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Biophys. J. BioFAST: First Published May 18, 2007. doi:10.1529/biophysj.106.103820
© 2007 by the Biophysical Society.

A more recent version of this article appeared on September 15, 2007.

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MEMBRANES

A Thermodynamic and Structural Study of Myelin Basic Protein in Lipid Membrane Models

Pasquale Rispoli ¹, Riccardo Carzino ¹, Tiziana Svaldo-Lanero ¹, Annalisa Relini ¹, Ornella Cavalleri ¹, Anna Fasano ², M. G. Liuzzu ², Giulia Carlone ³, Paolo Riccio ³, Alessandra Gliozzi ¹ and Ranieri Rolandi ¹^*

¹ University of Genoa
² University of Bari
³ University of Basilicata

^* To whom correspondence should be addressed. E-mail: rolandi{at}unige.it.

Submitted on December 29, 2006
Revised on January 29, 2007
Accepted on 2 May 2007

Abstract
Myelin basic protein (MBP) is a major protein of the myelinmembrane in the central nervous system (CNS). It is believedto play a relevant role in the structure and function of themyelin sheath and is a candidate autoantigen in demyelinatingprocesses such as multiple sclerosis. MBP has many featurestypical of soluble proteins but is capable of strongly interactingwith lipids, probably via a conformation change. Its structurein the lipid membrane as well as the details of its interactionwith the lipid membrane are still to be resolved. In this paperwe study the interaction of MBP with Langmuir films of anionicand neutral phospholipids, used as experimental models of thelipid membrane. By analyzing the equilibrium surface pressure/areaisotherms of these films, we measured the protein partitioncoefficient between the aqueous solution and the lipid membrane,the mixing ratio between protein and lipid, and the area ofthe protein molecules inserted in the lipid film. The penetrationdepth of MBP in the lipid monolayer was evaluated by X-ray reflectivitymeasurements. The mixing ratio and the MBP molecular area decreaseas the surface pressure increases and at high surface pressurethe protein is preferentially located at the lipid/water interfacefor both anionic and neutral lipids. The morphology of MBP adsorbedon lipid films was studied by atomic force microscopy (AFM).MBP forms bean-like structures and induces a lateral compactionof the lipid surface. Scattered MBP particles have also beenobserved. These particles, that are 2.35 nm high, 4.7 nm wideand 13.3 nm long, could be formed by protein-lipid complexes.On the basis of their size they could also be either singleMBP molecules or pairs of c-shaped interpenetrating molecules.

Key Words: AFM, Langmuir film, MBP, X-ray reflectivity, mixing coefficient, molecular area