SDSL-EPR Study of a C-terminal Segment of Myelin Basic Protein in a Myelin Mimetic Environment

Abstract

Myelin basic protein (MBP) is a peripheral membrane protein and a major component of human central nervous system myelin. It is a multifunctional, highly positively charged, intrinsically disordered protein that undergoes extensive post-translational modifications. Its multifunctionality includes among others, binding of cytoskeletal proteins to a membrane surface and polymerization and bundling of cytoskeletal proteins. These interactions are modulated by interaction of MBP with Ca2+-calmodulin. We report here the use of site-directed spin labeling and continuous wave power saturation electron paramagnetic resonance spectroscopy (SDSL-EPR) to examine the conformation of segment A141-L154 of a recombinant 18.5 kDa murine isoform of MBP in a reconstituted membrane environment. This segment overlaps the primary calmodulin binding region (T147-D158) of MBP and is predicted, on the basis of helical wheel constructs, to form an amphipathic alpha helix. Solution NMR investigations also showed this region to exist as a transient alpha helix in 30% TFE. Our measurements using SDSL-EPR reveal that this region forms an extended helix with a period of ∼3.8 residues per turn and with a tilt angle of ∼4.3 degrees with respect to the plane of the lipid bilayer. The N-terminal end of the helix appears to be buried more deeply in the membrane bilayer than the C-terminal end. The C-terminal region of the segment bears two Lys residues whose side chains interact with the lipid head groups causing this end to be more exposed. The accessibility of the C-terminal region of A141-L154, which forms a part of the primary calmodulin binding segment, could facilitate interaction of this region with cytosolic proteins viz., calmodulin and modulate cytoskeletal binding to the oligodendrocyte plasma membrane.(Supported by CIHR, NSERC and MS Society of Canada)