mBio (Apr 2023)
MLKL-Driven Inflammasome Activation and Caspase-8 Mediate Inflammatory Cell Death in Influenza A Virus Infection
Abstract
ABSTRACT Influenza A virus (IAV) triggers multiple programmed cell death pathways, including MLKL-dependent necroptosis, caspase-8-dependent apoptosis, and caspase-1-dependent pyroptosis in myeloid cells. All three pathways share common upstream regulators, namely, ZBP1 and RIPK3. Yet, the molecular mechanism underlying IAV-induced inflammasome activation remains unclear. Here, we demonstrate that MLKL promotes inflammasome activation and IL-1β processing in IAV-infected macrophages. MLKL drives NLRP3 inflammasome activation through potassium efflux. In the absence of the MLKL-inflammasome axis, caspase-8 coordinates the maturation and secretion of IL-1β. MLKL alone is dispensable for host inflammatory responses to IAV in vivo. Taken together, MLKL and caspase-8 serve as redundant mechanisms by which to drive an inflammatory form of cell death in response to an IAV infection. IMPORTANCE Influenza A virus (IAV) induces multiple types of cell death, which play important roles in the host antiviral responses but can also cause unwanted inflammation and tissue damage. In this study, we dissect the interplay of cell death pathways and demonstrate that macrophages utilize redundant mechanisms to drive an inflammatory form of cell death upon IAV infection. MLKL, the executor of necroptosis, promotes inflammasome activation and pyroptotic cell death. When the MLKL-inflammasome axis is inhibited, cells divert to caspase-8-dependent inflammatory cell death. Our findings advance the current understanding of the innate immune response to IAV infection as well as broader contexts involving multifaceted cell death.
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