Disruption of IL-18 signaling via engineered IL-18BP biologics alleviates experimental cholestatic liver disease.

Primary sclerosing cholangitis (PSC) is a chronic cholestatic liver disease characterized by progressive inflammation and fibrosis around intrahepatic and extrahepatic bile ducts leading to severe hepatic cirrhosis and high mortality. Although there is an urgent clinical unmet need for PSC, no effective medical therapy has been developed to delay the disease progression until today. IL-18 binding protein (IL-18BP) is well-known to be a natural negative feedback regulator for IL-18, and we have developed a recombinant long-acting IL-18BP referred to as APB-R3 as a therapeutic agent to treat IL-18-related inflammatory diseases. Here, we aimed to study whether disrupted IL-18 signaling by APB-R3 treatment can inhibit PSC injuries in the experimental DDC diet-induced PSC rodent model. First, we found that the amounts of free IL-18 are augmented under PSC condition with increased expression of biliary IL-18 receptors. Administration of APB-R3 effectively attenuated key diagnostic parameters of PSC such as plasma ALP and GGT levels as well as bile acids levels. We also observed that blockade of IL-18 suppressed ductular reactive and proliferative phenotypes of cholangiocytes. Additionally, APB-R3 significantly ameliorated DDC diet-induced periductal fibrosis and transcriptional expressions of pro-fibrotic marker genes. Enhanced senescence associated secretory phenotype (SASP) markers in cholestatic liver disease were diminished by APB-R3 treatment. Our findings clearly demonstrate that the administration of IL-18BP biologics, APB-R3, effectively alleviates DDC diet-induced biliary injuries in rodent PSC model, implying APB-R3 can be a promising therapeutic reagent which warrants clinical human trials as new therapeutic options.