Abstract
Abstract Sepsis is a life-threatening disease caused by the immune system’s response to infection that results in excessive inflammation, organ damage and often death. In fact, sepsis is the leading cause of death in intensive care units and is responsible for more than 250,000 deaths every year in the USA. Activation of inflammatory caspases, such as caspase-11 by lipopolysaccharide (LPS) from Gram-negative bacteria, is a key mechanism of innate immune defense against infection. Intracellular sensing of LPS by caspase-11 results in pyroptosis, maturation of caspase-1, IL-1β and IL-18 and unconventional secretion of intracellular proteins that lack a leader sequence for conventional secretion via endoplasmic reticulum-Golgi route. These proteins can act as alarmins or damage associated molecular patterns (DAMPs) to regulate the inflammatory response and therefore play an important role during infectious diseases. However, caspase-11-dependent release of alarmins and DAMPs following noncanonical inflammasome activation is poorly characterized. Using a proteomics approach involving ProteomeLab’s PF2D fractionation system followed by mass spectrometry, we have profiled several new alarmins released in a caspase-11 dependent manner following Gram-negative bacterial infection. By employing various mutant mice and cells, we have defined the molecular and cellular mechanisms underlying the release of a candidate alarmin as a consequence of noncanonical inflammasome activation in vitro and in vivo. Importantly, our in vivo studies demonstrate a critical role for this alarmin in LPS shock. Overall, these findings provide new insights into potential biomarkers and therapeutic targets for blocking the lethal inflammation in sepsis.
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