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Monocyte exocytosis of mitochondrial danger-associated molecular patterns in sepsis suppresses neutrophil chemotaxis

Barbora Konečná, Jin Bong Park, Woon-Yong Kwon, Barbora Vlková, Quan‐Zhi Zhang, Wei Huang, Hyo In Kim, Michael B. Yaffe, Leo E. Otterbein, Kiyoshi Itagaki, Carl J. Hauser

2020The Journal of Trauma: Injury, Infection, and Critical Care30 citationsDOI

Abstract

BACKGROUND: Trauma and sepsis both increase the risk for secondary infections. Injury mobilizes mitochondrial (MT) danger-associated molecular patterns (mtDAMPs) directly from cellular necrosis. It is unknown, however, whether sepsis can cause active MT release and whether mtDAMPs released by sepsis might affect innate immunity. METHODS: Mitochondrial release from human monocytes (Mo) was studied after LPS stimulation using electron microscopy and using fluorescent video-microscopy of adherent Mo using Mito-Tracker Green (MTG) dye. Release of MTG+ microparticles was studied using flow cytometry after bacterial stimulation by size exclusion chromatography of supernatants with polymerase chain reaction (PCR) for mitochondrial DNA (mtDNA). Human neutrophil (PMN), chemotaxis, and respiratory burst were studied after PMN incubation with mtDNA. RESULTS: LPS caused Mo to release mtDAMPs. Electron microscopy showed microparticles containing MT. mtDNA was present both in microvesicles and exosomes as shown by PCR of the relevant size exclusion chromatography bands. In functional studies, PMN incubation with mtDNA suppressed chemotaxis in a dose-dependent manner, which was reversed by chloroquine, suggesting an endosomal, toll-like receptor-9-dependent mechanism. In contrast, PMN respiratory burst was unaffected by mtDNA. CONCLUSION: In addition to passive release of mtDAMPs by traumatic cellular disruption, inflammatory and infectious stimuli cause active mtDAMP release via microparticles. mtDNA thus released can have effects on PMN that may suppress antimicrobial function. mtDAMP-mediated "feed-forward" mechanisms may modulate immune responses and potentially be generalizable to other forms of inflammation. Where they cause immune dysfunction the effects can be mitigated if the pathways by which the mtDAMPs act are defined. In this case, the endosomal inhibitor chloroquine is benign and well tolerated. Thus, it may warrant study as a prophylactic antiinfective after injury or prior sepsis.

Topics & Concepts

ChemotaxisBiologyLipopolysaccharideSepsisInnate immune systemRespiratory burstZymosanFlow cytometryMicrovesiclesImmune systemPhagocytosisMitochondrionImmunologyCell biologyMolecular biologyReceptorBiochemistryGeneIn vitromicroRNANeutrophil, Myeloperoxidase and Oxidative MechanismsExtracellular vesicles in diseaseImmune Response and Inflammation
Monocyte exocytosis of mitochondrial danger-associated molecular patterns in sepsis suppresses neutrophil chemotaxis | Litcius