Bacterial RNA and small antiviral compounds activate caspase-1 through cryopyrin/Nalp3

Abstract

The inflammasome is a complex of proteins involved in the activation of the innate immune system, an evolutionarily ancient antimicrobial defence found in most multicelled animals. When activated the inflammasome sets in motion a cascade of events that leads to the production of active molecules including interleukins. Three papers in this issue report the identification of endogenous danger signals and bacterial components that activate inflammasomes containing cryopyrin (also known as NALP3). Mariathasan et al. show that cryopyrin activates the inflammasome in response to bacterial toxins and to ATP. Kanneganti et al. show that cryopyrin is activated by bacterial RNA and by the immune response modifiers R837 and R848. And Martinon et al. show that gout-associated uric acid crystals have a similar effect. In sum these results show that cryopyrin has a vital role in host antibacterial defences and may act as a sensor of cellular stress. In addition, this work provides insight into the mechanisms of autoinflammatory disorders in which abnormalities in the innate immune system have been implicated. Missense mutations in the CIAS1 gene cause three autoinflammatory disorders: familial cold autoinflammatory syndrome, Muckle–Wells syndrome and neonatal-onset multiple-system inflammatory disease1. Cryopyrin (also called Nalp3), the product of CIAS1, is a member of the NOD-LRR protein family that has been linked to the activation of intracellular host defence signalling pathways2,3. Cryopyrin forms a multi-protein complex termed ‘the inflammasome’, which contains the apoptosis-associated speck-like protein (ASC) and caspase-1, and promotes caspase-1 activation and processing of pro-interleukin (IL)-1β (ref. 4). Here we show the effect of cryopyrin deficiency on inflammasome function and immune responses. Cryopyrin and ASC are essential for caspase-1 activation and IL-1β and IL-18 production in response to bacterial RNA and the imidazoquinoline compounds R837 and R848. In contrast, secretion of tumour-necrosis factor-α and IL-6, as well as activation of NF-κB and mitogen-activated protein kinases (MAPKs) were unaffected by cryopyrin deficiency. Furthermore, we show that Toll-like receptors and cryopyrin control the secretion of IL-1β and IL-18 through different intracellular pathways. These results reveal a critical role for cryopyrin in host defence through bacterial RNA-mediated activation of caspase-1, and provide insights regarding the pathogenesis of autoinflammatory syndromes.