Litcius/Paper detail

Evolution-inspired redesign of the LPS receptor caspase-4 into an interleukin-1β–converting enzyme

Pascal Devant, Anh Cao, Jonathan C. Kagan

2021Science Immunology46 citationsDOIOpen Access PDF

Abstract

Innate immune signaling pathways comprise multiple proteins that promote inflammation. This multistep means of information transfer suggests that complexity is a prerequisite for pathway design. Herein, we test this hypothesis by studying caspases that regulate inflammasome-dependent inflammation. Several caspases differ in their ability to recognize bacterial LPS and cleave interleukin-1β (IL-1β). No caspase is known to contain both activities, yet distinct caspases with complementary activities bookend an LPS-induced pathway to IL-1β cleavage. Using caspase-1/4 hybrid proteins present in canines as a guide, we identified molecular determinants of IL-1β cleavage specificity within caspase-1. This knowledge enabled the redesign of human caspase-4 to operate as a one-protein signaling pathway, which intrinsically links LPS detection to IL-1β cleavage and release, independent of inflammasomes. We identified caspase-4 homologues in multiple carnivorans which display the activities of redesigned human caspase-4. These findings illustrate natural signaling pathway diversity and highlight how multistep innate immune pathways can be condensed into a single protein.

Topics & Concepts

EnzymeCaspase 1ReceptorInterleukin 6BiologyChemistryImmunologyComputational biologyBiochemistryInflammationInflammasomeInflammasome and immune disordersImmune Response and InflammationImmune Cell Function and Interaction