Diammonium glycyrrhizinate ameliorates portal hypertension by regulating portal macrophage oxidation and superoxide dismutase 3

Portal hypertension (PHT) is a complication of liver diseases. Increased intrahepatic vascular resistance is attributed to reduced bioavailability of vasodilator substances. The macrophage activation and superoxide dismutase 3 (SOD3) involve in the pathogenesis of PHT. Diammonium glycyrrhizinate (DG) is the salt form of glycyrrhizin derived from Radix glycyrrhizae, exerting anti-oxidant activities and be beneficial for liver injury. Here, we aimed to investigate effects of DG on PHT and explore its underlying mechanisms on regulation of macrophages and SOD3. The carbon tetrachloride induced PHT rats received administration of liposome-encapsulated clodronate for hepatic macrophage depletion, or PBS liposomes for matched control. DG (25 mg/kg) or vehicle was gavaged. Portal pressure in vivo, and serum biomarkers of macrophage activation were measured. The nitric oxide (NO) and prostacyclin (PGI2) bioavailability was evaluated in the isolated portal perfused rat livers. Liver tissues were collected to evaluate cirrhosis, macrophage oxidation, and SOD3 activity. Depletion of hepatic macrophages decreased portal pressure, increased bioavailability of NO and PGI2, and restored SOD3 activity. DG effectively decreased portal pressure, relieved cirrhosis, inhibited macrophage activation. DG increased bioavailability of NO and PGI2 to relax portal veins. DG relieved portal macrophage oxidation through decreasing nicotinamide adenine dinucleotide phosphate oxidase 2 and inducible NO synthase expressions, elevated SOD3 activities and increased SOD3 expressions at portal triads. These findings indicated that DG restored SOD3 activity, against portal macrophage oxidation, protected bioavailability of NO and PGI2, thereby reduced portal pressure. It suggested a potential use of DG for PHT treatment.