A remarkable case of conserved domain swapping in the COMMD family of proteins

The eukaryotic COMMD family of proteins are core subunits of the Commander protein complex, with a central role in endosomal membrane trafficking and signalling. Previous crystal and cryoEM structures show that COMMD and COMMD-like proteins form homo-oligomeric and hetero-decameric assemblies with a central ring structure formed by their small C-terminal COMM domains. Their -helical N-terminal (HN) domains decorate each side of these rings, and in the eukaryotic Commander complex engage the coiled-coil proteins CCDC22 and CCDC93. Here, we have determined new crystal structures of the isolated HN domains of human Commd4, Commd9 and Commd10, and find that all three proteins form domain swapped structures with a remarkably consistent topology. This occurs via a conformational change in a hinge-loop between helices 2 and 3, leading to exchange of helices 3 to 6 between protomers. The hinge-loops of Commd9 and Commd10 possess several serine and threonine residues that can be phosphorylated, and we find that specific phospho-mimicking mutations in Commd10 can promote or inhibit domain swapping. Whether the unique COMMD HN domains play any roles beyond assembly with CCDC proteins is unclear, but this work suggests a common conformational switch exists with a potential to regulate their function.