MLKL deficiency protects against low-grade, sterile inflammation in aged mice.
Emma C Tovey CrutchfieldSarah E GarnishJessica DayHolly AndertonShene ChiouAnne HempelCathrine HallKomal M PatelPradnya GangatirkarKatherine R MartinConnie Li Wai SuenAlexandra L GarnhamAndrew J KuehIan P WicksJohn SilkeUeli NachburAndré L SamsonJames G MurphyJoanne M HildebrandPublished in: Cell death and differentiation (2023)
MLKL and RIPK3 are the core signaling proteins of the inflammatory cell death pathway, necroptosis, which is a known mediator and modifier of human disease. Necroptosis has been implicated in the progression of disease in almost every physiological system and recent reports suggest a role for necroptosis in aging. Here, we present the first comprehensive analysis of age-related histopathological and immunological phenotypes in a cohort of Mlkl -/- and Ripk3 -/- mice on a congenic C57BL/6 J genetic background. We show that genetic deletion of Mlkl in female mice interrupts immune system aging, specifically delaying the age-related reduction of circulating lymphocytes. -Seventeen-month-old Mlkl -/- female mice were also protected against age-related chronic sterile inflammation in connective tissue and skeletal muscle relative to wild-type littermate controls, exhibiting a reduced number of immune cell infiltrates in these sites and fewer regenerating myocytes. These observations implicate MLKL in age-related sterile inflammation, suggesting a possible application for long-term anti-necroptotic therapy in humans.