Membrane targeting enhances muramyl dipeptide binding to NOD2 and Arf6-GTPase in mammalian cells

To further understand the mechanisms of muramyl dipeptide (MDP) sensing by NOD2, we evaluated key properties involved in the formation of the Arf6-MDP-NOD2 complex in mammalian cells. We found that the conserved Arf aromatic triad is crucial for binding to MDP-NOD2. Mutation of Arf6 N-myristoylation and NOD2 S-palmitoylation also abrogated the formation of the Arf6-MDP-NOD2 complex. Notably, lipid-modified MDP (L18-MDP) increased Arf6-NOD2 assembly. Our results indicate recruitment of Arf6 may explain enhanced activity of lipidated MDP analogues and membrane targeting may be important in developing next-generation NOD2 agonists.

Automated summary

This study evaluated the key properties involved in the formation of the Arf6-MDP-NOD2 complex in mammalian cells and found that the conserved Arf aromatic triad is crucial for binding to MDP-NOD2. Mutation of Arf6 N-myristoylation and NOD2 S-palmitoylation also disrupted the formation of the complex. Lipid-modified MDP was observed to increase Arf6-NOD2 assembly, suggesting that membrane targeting may be important in developing next-generation NOD2 agonists.