<span class="word">Protective <span class="word">and <span class="word"><span class="changedDisabled">Detrimental <span class="word"><span class="changedDisabled">Roles <span class="word">of <span class="word">NLRP6 <span class="word">in <span class="word"><span class="changedDisabled">Infection <span class="word">and <span class="word"><span class="changedDisabled">Cancer

NLRP6 is a member of the NOD-like receptor family that was initially characterized as an inflammasome-forming sensor in the intestine. However, accumulating evidence over the past decade has revealed that the functions of NLRP6 extend far beyond this canonical role. NLRP6 operates in a wide range of tissues, including the intestine, liver, lung, and immune system, where it exerts context-dependent effects that can be either protective or detrimental. In the intestine, NLRP6 is most consistently associated with host protection, contributing to antiviral defense, epithelial barrier integrity, and the maintenance of microbial and metabolic homeostasis through both inflammasome-dependent and -independent mechanisms. In contrast, in systemic infection models and in certain inflammatory settings, NLRP6 can also promote pathology by suppressing NF-κB signaling, inducing IL-18–mediated lymphocyte death, or enhancing inflammatory cell death pathways. Moreover, studies using both conventional and tissue-specific knockout models have highlighted the importance of the gut–organ axis, particularly the gut–liver axis, in shaping NLRP6-dependent disease outcomes. Here, we summarize recent advances in understanding the upstream regulation, downstream signaling, and tissue-specific functions of NLRP6.