Abstract
This report identifies mitochondrial DNA (mtDNA) as a target and active mediator that links low-level oxidative stress to inflammatory response in pulmonary epithelial cells. Extrusion of mtDNA into the bronchoalveolar lavage fluid occurs as an early event in mice subjected to cigarette smoke injury, concomitantly with the depletion of mtDNA in the lung tissue. In cultured lung epithelial cells, prolonged, low-level oxidative stress damages the mtDNA, without any detectable damage to the nuclear DNA. In turn, cellular depletion of the mtDNA occurs, together with a transient remodeling of cellular bioenergetics and morphology - all without any detectable impairment in overall cell viability. Damaged mtDNA first enters the cytoplasm, where it binds to Z-DNA binding protein 1 (ZBP1) and triggers inflammation via the TANK-binding kinase 1 /interferon regulatory factor 3 signaling pathway. Fragments of the mtDNA are subsequently released into the extracellular space via exosomes. MtDNA-containing exosomes are capable of inducing an inflammatory response in naïve (non-oxidatively stressed) epithelial cells. In vivo, administration of isolated mtDNA into the in lungs of naïve mice induces the production of pro-inflammatory mediators, without histopathologic evidence of tissue injury. We propose that mtDNA-specific damage, and subsequent activation of the ZBP1 pathway, is a mechanism that links prolonged, low-level oxidative stress to autocrine and paracrine inflammation during the early stages of inflammatory lung disease.
Highlights
The airway epithelium forms the first line of defense to bacteria, viruses, allergens, and air pollutants
As early as 30 min after cigarette smoke exposure of mice, significant amounts of Mitochondrial DNA (mtDNA) were detected in the bronchoalveolar lavage fluid (BALF) (Fig. 1A)
This study identifies a role for active and selective cellular extrusion of damaged mitochondrial DNA in response to prolonged, low-level oxidative stress in pulmonary epithelial cells in vitro
Summary
The airway epithelium forms the first line of defense to bacteria, viruses, allergens, and air pollutants. The above-mentioned studies indicate that mtDNA can induce inflammation, these processes were linked to the death of inflammatory/immune cells, where the cellular content is released into the extracellular space[10]. We hypothesized that mtDNA (which has an evolutionary bacterial origin) may serve as a sentinel molecule to link low-level of oxidative damage to inflammation in parenchymal cells. MtDNA is subsequently released to the cytoplasm and triggers inflammation via the activation of Z-DNA binding protein 1 (ZBP1). This process occurs at non-cytotoxic levels of oxidative stress, and does not require a breakdown of the plasma membrane or a loss of cellular viability. Damaged mtDNA is actively extruded from cells via exosomes and is capable of inducing inflammation in naïve pulmonary epithelial cells
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