1. Cyclic dinucleotide detection by RECON controls innate immune responses
- Author
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Adelle McFarland, Shukun Luo, Fariha Ahmed-Qadri, Elizabeth F. Thayer, Hannah Tabakh, Liang Tong, and Joshua J. Woodward
- Subjects
Immunology ,Immunology and Allergy - Abstract
Host cells have evolved a sophisticated arsenal of germ-line encoded pattern recognition receptors that detect a vast array of microorganisms in distinct tissues and cellular compartments. Cytoplasmic sensors monitor for microbes that gain access to the host cell cytosol following breach of the plasma membrane or intracellular invasion. This sensing is achieved through detection of invariant molecular patterns associated with microorganisms or cell stress responses that indicate the presence of a pathogen. Cyclic dinucleotides (cdNs) of both bacterial and host origin have emerged as important molecules that are sensed during infection. Details about the receptors cdNs engage in host cells and the responses those interactions elicit are just coming to light. We have recently discovered the first bacterial cdN-specific pattern recognition receptor, the oxidoreductase RECON. Our work on this receptor has revealed its central role in directing innate immune responses when engaged by bacterial cdNs. These findings reveal a new pattern recognition receptor specific for bacterial cdNs that orchestrates cytosolic immune surveillance by shaping downstream inflammatory gene activation.
- Published
- 2016
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