Toll-like receptor 8 (TLR8), as an important innate immune receptor, can recognize specific ligands, activate intracellular signaling and produce an inflammatory response to kill and eliminate pathogenic microorganisms. Recent studies have resolved the crystal structure of human TLR8 (hTLR8) and two types of ligand binding sites were identified. Among the conserved binding site 1 of hTLR8, the residues interacting with imidazoquinoline derivatives (IQDs) were determined. We previously showed that porcine TLR8 (pTLR8) exhibited species specificity for recognition of the hTLR7 agonist imiquimod (R837). Given the species specificity, the pTLR8 residues interacting with IQDs may be different from hTLR8 counterparts. The present study was aimed to identify the pTLR8 residues interacting with small molecular IQDs. Via molecular docking, the pTLR8 residues interacting with R837 and R848 were predicted. The corresponding mutants were tested for pTLR8 signaling in response to IQDs R837, R848 and CL075, and the results showed that five of nine predicted residues (Y336, K341, K342, F395 and G562) are critical for pTLR8 signaling and these residues are partially different from those reported in hTLR8. Further, we found that the pTLR8 GQKNG motif corresponding to hTLR8 RQSYA exhibited disparity to CL075 stimulation. Our study thus reveals fine TLR8 species specificity which deepens the understanding of TLR8 activation mechanism.
Keywords: Imidazoquinoline; Ligand recognition; Molecular docking; Species specificity; Toll-like receptor 8 (TLR8).
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