A synthetic system for RNA-responsive pyroptosis based on type III-E CRISPR nuclease-protease.

Pyroptosis plays a crucial role in immune defense against infections and endogenous threats by eliminating harmful cells and modulating the immune response through inflammation. However, the natural activation of pyroptosis involves intricate signaling pathways, posing significant challenges for its artificial manipulation in research and therapies. Here, we present DAMAGE (Death Manipulation Gene), an innovative system that integrates gasdermins within the type III-E CRISPR framework, enabling the specific recognition of target RNA (tgRNA) and triggering pyroptosis. This mechanism allows DAMAGE to selectively identify and eliminate virus-infected, cancerous, and senescent cells, all of which exhibit altered RNA transcriptomes. Additionally, DAMAGE exhibits considerable promise as a platform for mRNA-LNP therapy. Our study highlights the potential of this CRISPR-based system in the controllable induction of pyroptosis, offering an innovative therapeutic strategy for treating RNA-heterogeneous diseases.