Sappanone A enhances hepatocyte proliferation in lipopolysaccharide-induced acute liver injury in mice by promoting injured hepatocyte apoptosis and regulating macrophage polarization.

OBJECTIVES

Lipopolysaccharide (LPS), also known as endotoxin, is the main toxic component of the cell wall of gram negative bacteria, which is released after bacterial death and widely exists in the living environment. Human exposure to endotoxin may cause sepsis. The occurrence of septic liver injury is a prominent factor contributing to mortality in patients with sepsis. The purpose of this study is to explore the role of Sappanone A (SA), a homoisoflavonoid isolated from the heartwood of Caesalpinia sappan Linn., in LPS-induced acute liver injury (ALI).

METHODS

An LPS-induced ALI mouse model was used to evaluate the effects of SA on septic ALI, and murine cells were treated with LPS to explore the mechanisms underlying SA-provided effects.

RESULTS

Treating SA substantially improved LPS-induced ALI. We also performed in silico prediction and RNA-seq analysis to elucidate SA's potential mechanisms of action. The terms generated by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment of predicted target proteins of SA include inflammation, oxidative stress, and apoptosis; protein-protein interaction network (PPI) analysis indicated that fas binding protein 1 (Fbf1) has the strongest correlation with SA. Consistently, RNA-seq analysis displayed that SA administration regulates cell apoptosis and inflammatory responses, which was further confirmed by checking related markers in livers of mice and murine cells challenged with LPS. Of note, SA significantly decreased the expression of Fbf1 in mouse livers, and promoted apoptosis of injured hepatocytes and hepatocyte proliferation, which were substantially abolished by Fbf1 knockdown in AML12 cells. Besides, SA could increase M2 phenotype polarization but inhibit M1 macrophage polarization in LPS-induced ALI in mice.

CONCLUSION

SA enhances hepatocyte proliferation and liver repair in LPS-induced ALI in mcie by promoting injured hepatocyte apoptosis through Fbf1 inhibition and regulating macrophage polarization.