Abstract

Pathogen recognition by Toll-like receptors (TLRs) initiates innate immune responses that are essential for inhibiting pathogen dissemination and for the development of acquired immunity. The TLRs recognize pathogens with their N-terminal ectodomains (ECD), but the molecular basis for this recognition is not known. Recently we reported the x-ray structure for unliganded TLR3-ECD; however, it has proven difficult to obtain a crystal structure of TLR3 with its ligand, dsRNA. We have now located the TLR3 ligand binding site by mutational analysis. More than 50 single-residue mutations have been generated throughout the TLR3-ECD, but only two, H539E and N541A, resulted in the loss of TLR3 activation and ligand binding functions. These mutations locate the dsRNA binding site on the glycan-free, lateral surface of TLR3 toward the C terminus and suggest a model for dsRNA binding and TLR3 activation.

Keywords

TLR3Innate immune systemMDA5Binding siteToll-like receptorBiologyGlycanRNA silencingReceptorLigand (biochemistry)Cell biologyRNABiochemistryGeneGlycoproteinRNA interference

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Publication Info

Year
2006
Type
article
Volume
103
Issue
23
Pages
8792-8797
Citations
217
Access
Closed

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Jessica K. Bell, Janine Askins, Pamela R. Hall et al. (2006). The dsRNA binding site of human Toll-like receptor 3. Proceedings of the National Academy of Sciences , 103 (23) , 8792-8797. https://doi.org/10.1073/pnas.0603245103

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DOI
10.1073/pnas.0603245103