The innate immune system comprises several classes of pattern recognition receptors, including Toll- like receptors (TLRs) and NOD-like receptors (NLRs). A set of NLR family members form a multi-protein complex termed 'the inflammasome', which contains the adaptor protein ASC and caspase-1, and promotes caspase-1 activation and maturation of IL-1? and IL-18, the secretion of which leads to a potent inflammatory response. Caspase-1 is the prototypical member of the inflammatory caspases and is a key target in several inflammatory, infectious and autoimmune diseases. Studies show that caspase-1-deficient mice are resistant to the toxic effects of lipopolysaccharide, Escherichia coli-induced shock, and apoptotic cell death. Interestingly, IL-1? and IL-18, the two major downstream target molecules of caspase-1 are not involved suggesting that some other downstream targets of caspase-1 are important. Additionally, our studies show that the commonly used lines of caspase-1-deficient mice are also deficient in caspase-11 suggesting that the inflammatory functions attributed to caspase-1 could be the combined actions of both caspase-1 and caspase-11. This proposal will address the central hypothesis that NLR/caspase-1 and caspase-11 signaling axis plays a crucial role in innate immunity to microbial pathogens. We identified several important caspase-1 substrates in a proteome-wide screen and our preliminary data suggest a key role for a set of these substrates in inflammation and sepsis induction. Overall, this study will elucidate the roles of caspase-1 and caspase-11 and their effector mechanisms in innate immunity and inflammation and will help identify the molecular and cellular mechanisms regulating innate immunity and inflammation, thus leading to novel therapeutic targets for inflammatory and infectious diseases.

Public Health Relevance

Recognition of microbial infection by the innate immune system results in acute inflammatory responses that help to eliminate the invading pathogens. This research focuses on understanding the role of key cellular proteins in the complex molecular and cellular inflammatory mechanisms. The outcomes of the proposed studies will reveal new elements of NLR/caspase-1 cascade function and the signaling pathways in inflammation and thus will help in the discovery of effective therapeutics to treat inflammation associated diseases.

National Institute of Health (NIH)
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Innate Immunity and Inflammation (III)
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Palker, Thomas J
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St. Jude Children's Research Hospital
United States
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