The crystal structure of human Navβ3-Ig domain and its implications

Abstract

The mammalian Voltage-gated sodium (Nav) channel is composed of a single α subunit (~ 260 kDa), a multi-pass membrane protein that renders ion selectivity and two or more Navβ subunits (25‒40 kDa), that are Type I single-pass membrane proteins and regulate Navα subunit function. These subunits are assembled on the plasma membrane of electrically-excitable cells as an intrinsic membrane protein complex and help to initiate and propagate the action potential. The four major mammalian Navβ-subunit isoforms, Navβ1‒4 proteins possess an N-terminal extracellular Immunoglobulin (Ig) domain (ECD), a single transmembrane α-helix, and an intracellular C-terminal region (ICD). This thesis is mainly focused on the structural biology aspects of the human Navβ3 subunit. It reports the atomic structure of the Navβ3-Ig domain as determined by X-ray crystallography. Interestingly, the Navβ3-Ig domain is observed as a trimer in the crystal structure. The homo-trimer assembly interface lies at the N-terminus and is constrained by a disulphide bond not normally present in Ig domains. The Navβ3 subunit Ig domain is known to be glycosylated and contains four potential N-linked glycosylation sites. However, the X-ray crystallography was conducted on deglycosylated protein. Using computational modelling, it is shown that glycan addition would not interfere with Navβ3-Ig domain trimerization. Independent evidence gathered using Analytical Ultracentrifugation (crosslinked, glycosylated Navβ3-Ig domain, in vitro), Proximity Ligation Assay (full-length Navβ3, in vivo), Atomic Force Microscopy (isolated full-length Navβ3, in vitro) and Photo-activated Localisation Microscopic experiments (full-length Navβ3, in situ) support the view that the Navβ3 subunit can form trimers when expressed in cells. The biological significance of Navβ3 subunit trimerization is discussed. Strategies to express and purify the Navβ1/β2/β4-Ig domains were made. Wild type Navβ2- and Navβ4-Ig domains exist as monomers and dimers, simultaneously in solution, although crystals that diffracted to the necessary resolution were not produced.