Abstract:
Nucleic acid-sensing Toll-like receptors (TLRs) are subject to complex regulation to facilitate recognition of microbial DNA and RNA while limiting recognition of self-nucleic acids1. Failure to properly regulate nucleic acid-sensing TLRs can lead to autoimmune and autoinflammatory disease2-6. Intracellular localization of these receptors is thought to be critical for self vs. non-self discrimination7, yet the molecular mechanisms that reinforce compartmentalized activation of intracellular TLRs remain poorly understood. Here we describe a new mechanism that prevents TLR9 activation from locations other than endosomes. This control is achieved through the regulated release of TLR9 from its trafficking chaperone Unc93b1, which only occurs within endosomes and is required for ligand binding and signal transduction. Mutations in Unc93b1 that increase affinity for TLR9 impair release and result in defective signaling. The release is specific to TLR9, as TLR7 does not dissociate from Unc93b1 in endosomes. This work defines a novel checkpoint that reinforces self vs. non-self discrimination by TLR9 and provides a mechanism by which TLR9 and TLR7 activation can be distinctly regulated.