Conclusions
AdMSC-Exos can effectively donate mitochondria component improved macrophages mitochondrial integrity and oxidative phosphorylation level, leading to the resumption of metabolic and immune homeostasis of airway macrophages and mitigating lung inflammatory pathology.
Methods
C57BL/6 mice were orotracheally instilled with LPS (1 mg/kg). AdMSC-Exos were administered via the tail vein 4 h after LPS inhalation. Flow cytometry, H&E, Quantitative Real-Time PCR, immunofluorescence (IF), confocal microscopy imaging was conducted to investigate lung tissue inflammation and macrophage mitochondrial function. And further observe the transfer of exosomes and the effect on mitochondrial function of MH-S cells through in vitro experiments.
Results
AdMSC-Exos can transfer the stem cell-derived mitochondria components to alveolar macrophages in a dose-dependent manner. Likely through complementing the damaged mitochondria, AdMSC-Exos exhibited the ability to elevate the level of mtDNA, mitochondrial membrane potential (MMP), OXPHOS activity and ATP generation, while reliving mROS stress in LPS-challenged macrophages. Restoring mitochondrial integrity via AdMSC-Exos treatment enabled macrophages shifting to anti-inflammatory phenotype, as featured with the down-regulation of IL-1β, TNF-α and iNOS secretion and increase in production of anti-inflammatory cytokines IL-10 and Arg-1. As we depleted alveolar macrophages using clodronate liposomes, the protective role for AdMSC-Exos was largely abrogated. Conclusions: AdMSC-Exos can effectively donate mitochondria component improved macrophages mitochondrial integrity and oxidative phosphorylation level, leading to the resumption of metabolic and immune homeostasis of airway macrophages and mitigating lung inflammatory pathology.