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Edited by Robert T. Sauer, Massachusetts Institute of Technology, Cambridge, MA, and approved November 25, 2013 (received for review July 18, 2013)
Significance
Human IFN-inducible protein-16 (IFI16) is an essential intracellular foreign DNA receptor of innate immunity and also implicated in several autoimmune disorders. However, little is known about molecular mechanisms that underlie its function. We show here that IFI16 cooperatively assembles into filaments on dsDNA. IFI16 thus oligomerizes even in the presence of excess DNA, and it is the non–DNA-binding pyrin domain of IFI16 that drives the filament assembly. These results provide unifying mechanistic explanations for several previous in vivo observations regarding IFI16 and also suggest that assembling filaments on foreign nucleic acids is a broad host defense strategy.
Abstract
Whether host DNA receptors have any capacity to distinguish self from nonself at the molecular level is an outstanding question in the innate immunity of mammals. Here, by using quantitative assays and electron microscopy, we show that cooperatively assembling into filaments on dsDNA may serve as an integral mechanism by which human IFN-inducible protein-16 (IFI16) engages foreign DNA. IFI16 is essential for defense against a number of different pathogens, and its aberrant activity is also implicated in several autoimmune disorders, such as Sjögren syndrome. IFI16 cooperatively binds dsDNA in a length-dependent manner and clusters into distinct protein filaments even in the presence of excess dsDNA. Consequently, the assembled IFI16⋅dsDNA oligomers are clearly different from the conventional noninteracting entities resembling beads on a string. The isolated DNA-binding domains of IFI16 engage dsDNA without forming filaments and with weak affinity, and it is the non–DNA-binding pyrin domain of IFI16 that drives the cooperative filament assembly. The surface residues on the pyrin domain that mediate the cooperative DNA binding are conserved, suggesting that related receptors use a common mechanism. These results suggest that IFI16 clusters into signaling foci in a switch-like manner and that it is capable of using the size of naked dsDNA as a molecular ruler to distinguish self from nonself.
Footnotes
↵1Present address: School of Nursing, University of Maryland, Baltimore, MD 21201.
- ↵2To whom correspondence should be addressed. E-mail: jsohn{at}jhmi.edu.
Author contributions: S.R.M., T.W., and J.S. designed research; S.R.M., T.W., L.M.C., R.M.H., M.J.D., and J.S. performed research; M.J.D. contributed new reagents/analytic tools; S.R.M., T.W., R.M.H., and J.S. analyzed data; and S.R.M., T.W., R.M.H., and J.S. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1313577111/-/DCSupplemental.
Cooperative filament assembly of IFI16
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