Ashish K Sharma1, Morgan D Salmon1, Guanyi Lu1, Gang Su1, Nicolas H Pope1, Joseph R Smith1, Mark L Weiss1, Gilbert R Upchurch2. 1. From the Department of Surgery, University of Virginia, Charlottesville (A.K.S., M.D.S., G.L., G.S., N.H.P., G.R.U.); and Department of Anatomy and Physiology, Kansas State University, Manhattan (J.R.S., M.L.W.). 2. From the Department of Surgery, University of Virginia, Charlottesville (A.K.S., M.D.S., G.L., G.S., N.H.P., G.R.U.); and Department of Anatomy and Physiology, Kansas State University, Manhattan (J.R.S., M.L.W.). gru6n@virginia.edu.
Abstract
OBJECTIVE: Abdominal aortic aneurysm (AAA) formation is characterized by inflammation, smooth muscle activation, and matrix degradation. This study tests the hypothesis that macrophage-produced high mobility group box 1 (HMGB1) production is dependent on nicotinamide adenine dinucleotide phosphate oxidase (Nox2), which leads to increase in interleukin (IL)-17 production resulting in AAA formation and that treatment with human mesenchymal stem cells (MSCs) can attenuate this process thereby inhibiting AAA formation. APPROACH AND RESULTS: Human aortic tissue demonstrated a significant increase in HMGB1 expression in AAA patients when compared with controls. An elastase-perfusion model of AAA demonstrated a significant increase in HMGB1 production in C57BL/6 (wild-type [WT]) mice, which was attenuated by MSC treatment. Furthermore, anti-HMGB1 antibody treatment of WT mice attenuated AAA formation, IL-17 production, and immune cell infiltration when compared with elastase-perfused WT mice on day 14. Elastase-perfused Nox2(-/y) mice demonstrated a significant attenuation of HMGB1 and IL-17 production, cellular infiltration, matrix metalloproteinase activity, and AAA formation when compared with WT mice on day 14. In vitro studies showed that elastase-treated macrophages from WT mice, but not from Nox2(-/y) mice, produced HMGB1, which was attenuated by MSC treatment. The production of macrophage-dependent HMGB1 involved Nox2 activation and superoxide anion production, which was mitigated by MSC treatment. CONCLUSIONS: These results demonstrate that macrophage-produced HMGB1 leads to aortic inflammation and acts as a trigger for CD4(+) T-cell-produced IL-17 during AAA formation. HMGB1 release is dependent on Nox2 activation, which can be inhibited by MSCs leading to attenuation of proinflammatory cytokines, especially IL-17, and protection against AAA formation.
OBJECTIVE:Abdominal aortic aneurysm (AAA) formation is characterized by inflammation, smooth muscle activation, and matrix degradation. This study tests the hypothesis that macrophage-produced high mobility group box 1 (HMGB1) production is dependent on nicotinamide adenine dinucleotide phosphate oxidase (Nox2), which leads to increase in interleukin (IL)-17 production resulting in AAA formation and that treatment with human mesenchymal stem cells (MSCs) can attenuate this process thereby inhibiting AAA formation. APPROACH AND RESULTS:Human aortic tissue demonstrated a significant increase in HMGB1 expression in AAApatients when compared with controls. An elastase-perfusion model of AAA demonstrated a significant increase in HMGB1 production in C57BL/6 (wild-type [WT]) mice, which was attenuated by MSC treatment. Furthermore, anti-HMGB1 antibody treatment of WT mice attenuated AAA formation, IL-17 production, and immune cell infiltration when compared with elastase-perfused WT mice on day 14. Elastase-perfused Nox2(-/y) mice demonstrated a significant attenuation of HMGB1 and IL-17 production, cellular infiltration, matrix metalloproteinase activity, and AAA formation when compared with WT mice on day 14. In vitro studies showed that elastase-treated macrophages from WT mice, but not from Nox2(-/y) mice, produced HMGB1, which was attenuated by MSC treatment. The production of macrophage-dependent HMGB1 involved Nox2 activation and superoxide anion production, which was mitigated by MSC treatment. CONCLUSIONS: These results demonstrate that macrophage-produced HMGB1 leads to aortic inflammation and acts as a trigger for CD4(+) T-cell-produced IL-17 during AAA formation. HMGB1 release is dependent on Nox2 activation, which can be inhibited by MSCs leading to attenuation of proinflammatory cytokines, especially IL-17, and protection against AAA formation.
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