Abstract
The functions of the annexin family of proteins involve binding to Ca2+, lipid membranes, other proteins, and RNA, and the annexins share a common folded core structure at the C terminus. Annexin A11 (AnxA11) has a long N-terminal region, which is predicted to be disordered, binds RNA, and forms membraneless organelles involved in neuronal transport. Mutations in AnxA11 have been linked to amyotrophic lateral sclerosis (ALS). We studied the structure and stability of AnxA11 and identified a short stabilising segment in the N-terminal end of the folded core, which links domains I and IV. The crystal structure of the AnxA11 core highlights main-chain hydrogen bonding interactions formed through this bridging segment, which are likely conserved in most annexins. The structure was also used to study the currently known ALS mutations in AnxA11. Three of these mutations correspond to buried Arg residues highly conserved in the annexin family, indicating central roles in annexin folding. The structural data provide starting points for detailed structure–function studies of both full-length AnxA11 and the disease variants being identified in ALS.
Highlights
The annexin (Anx) family of Ca2+-binding proteins is widely distributed in eukaryotes, with twelve Anxs found in vertebrates [1,2,3]
The crystal structure of the Annexin A11 (AnxA11) core highlights main-chain hydrogen bonding interactions formed through this bridging segment, which are likely conserved in most annexins
We studied recombinant rat AnxA11, which is nearly identical to the human AnxA11 (Figure 1A)
Summary
The annexin (Anx) family of Ca2+-binding proteins is widely distributed in eukaryotes, with twelve Anxs found in vertebrates [1,2,3]. All Anxs share multiple structural elements, most notably an evolutionarily conserved C-terminal Anx core. This core consists of four similar domains, each comprised of ~70 amino acids arranged into five α helices, termed A–E [1,4]. The only exception is AnxA6, which contains eight domains, most likely due to a fusion of duplicated anxA5 and anxA10 genes [5]. The five helices within each domain are connected via short loops, forming a right-handed superhelix. The loops connecting helix A to helix B and helix D to helix E contain the Ca2+ binding sites [1,6]
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