Abstract
Ground-level ozone is widely acknowledged as one of the primary air pollutants, capable of inducing adverse health effects across multiple human systems, including asthma, cardiovascular events, and central nervous system dysfunction. Epidemiological and toxicological studies indicate that the onset of related systemic diseases is often attributed to ozone-mediated inflammatory responses. However, since O(3) itself lacks antigenic properties to trigger innate immune responses, an intermediary substance induced by ozone exposure likely activates subsequent inflammatory pathways. Multiple ozone exposure studies have identified mitochondrial DNA (mtDNA) as a potential biomarker released during ozone-induced mitochondrial dysfunction. mtDNA may serve as a damage-related molecular pattern that activates innate immune responses, potentially acting as a crucial link between ozone and inflammatory reactions. This review therefore examines the structure and function of mitochondrial DNA, along with potential mediating mechanisms underlying inflammation associated with ozone exposure.