Amiodarone, Unlike Dronedarone, Activates Inflammasomes via Its Reactive Metabolites: Implications for Amiodarone Adverse Reactions.

Amiodarone is a benzofuran derivative used to treat arrhythmias, but its use is limited by adverse reactions. There is evidence that some of the severe adverse reactions such as liver injury and interstitial lung disease are immune-mediated; however, details of the mechanism have not been elucidated. We tested the ability of amiodarone to induce the release of danger-associated molecular patterns (DAMPs) that activate inflammasomes. Human hepatocarcinoma functional liver cell-4 (FLC-4) cells were used for drug bioactivation, and the detection of inflammasome activation was performed with the human macrophage cell line, THP-1 cells. Amiodarone is known to be oxidized to reactive quinone metabolites. The supernatant from the incubation of amiodarone with FLC-4 cells for 7 days increased caspase-1 activity and production of IL-1ß by THP-1 cells. In the supernatant of FLC-4 cells with amiodarone, the heat shock protein (HSP) 40 was significantly increased. Addition of a cytochrome P450 inhibitor to the FLC-4 cells prevented the release of HSP40 from the FLC-4 cells and activation of THP-1 inflammasomes by the FLC-4 supernatant. These results suggested that the reactive quinone metabolites of amiodarone can cause the release of DAMPs from hepatocytes which can activate inflammasomes. Dronedarone, a safer analog of amiodarone, did not activate inflammasomes. Inflammasome activation may be an important step in the activation of the immune system by amiodarone, which in some patients, can cause immune-related adverse events. In addition, our data suggest that drugs that block the effects or the formation of IL-1β would provide better treatment of amiodarone-induced immune-related adverse reactions.