• Shock · Jul 2022

    Activation of The Mitochondrial Antiviral Signaling Protein (MAVS) Following Liver Ischemia/Reperfusion and Its Effect on Inflammation and Injury.

    • Menachem Ailenberg, Andras Kapus, Chung Ho Leung, Katalin Szaszi, Philip Williams, Caterina diCiano-Oliveira, John C Marshall, and Ori D Rotstein.
    • Keenan Research Centre for Biomedical Science of St. Michael's Hospital and the Departments of Surgery, St. Michael's Hospital and the University of Toronto.
    • Shock. 2022 Jul 1; 58 (1): 788978-89.

    AbstractResuscitation of trauma patients after hemorrhagic shock causes global I/R, which may contribute to organ dysfunction. Oxidative stress resulting from I/R is known to induce signaling pathways leading to the production of inflammatory molecules culminating in organ dysfunction/injury. Our recent work demonstrated that oxidative stress was able to induce activation of the mitochondrial antiviral signaling protein (MAVS), a protein known to be involved in antiviral immunity, in an in vitro model. We therefore hypothesized that the MAVS pathway might be involved in I/R-induced inflammation and injury. The present studies show that MAVS is activated in vivo by liver I/R and in vitro in RAW 264.7 cells by hypoxia/reoxygenation (H/R). We utilized both in vivo (liver I/R in MAVS knockout mice) and in vitro (MAVS siRNA in RAW 264.7 cells followed by H/R) models to study the role of MAVS activation on downstream events. In vivo , we demonstrated augmented injury and inflammation in MAVS knockout mice compared with wild-type animals; as shown by increased hepatocellular injury, induction of hepatocyte apoptosis augmented plasma TNF-α levels. Further, in vitro silencing of MAVS by specific siRNA in RAW 264.7 and exposure of the cells to H/R caused activation of mitophagy. This may represent a compensatory response to increased liver inflammation. We conclude that activation of MAVS by hypoxia/reoxygenation dampens inflammation, potentially suggesting a novel target for intervention.Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Shock Society.

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