HBV infection drives PSMB5-dependent proteasomal activation in humanized mice and HBV-associated HCC

Abstract

Hepatocellular carcinoma (HCC), the most common primary liver malignancy worldwide, is strongly associated with chronic Hepatitis B Virus (HBV) infection, a significant risk factor. The ubiquitin-proteasome system, central to protein degradation, cellular homeostasis, and cell cycle regulation, has been implicated in the pathogenesis of several cancers, including HCC. Despite this, the specific expression patterns of proteasomal subunits during HBV infection and HBV-induced HCC, as well as the association between mRNA expression of proteasomal subunits and proteasomal activity, remain poorly defined. To address this critical knowledge gap, we analyzed mRNA expression profiles of proteasomal subunits in HBV-infected humanized mouse models to uncover HBV-specific molecular alterations. Our findings revealed that the chymotrypsin-like activity (β5) subunit of the proteasome (PSMB5) is consistently overexpressed following HBV infection. Functional studies demonstrated that β5 deficiency decreases MHC I levels on the cell surface and leads to the accumulation of ubiquitinated proteins, establishing a direct link between β5 overexpression and increased proteasomal activity. Concordantly, HBV-infected patient livers-regardless of HCC status-displayed elevated β5 mRNA/protein levels and enhanced chymotrypsin-like activity. Additionally, analysis of Protein Atlas data revealed that elevated β5 mRNA expression correlates with poor clinical prognosis in HCC patients. In summary, this study highlights how HBV infection induces significant alterations in proteasome function by elevating β5 expression and activity in human and mouse livers. These findings underscore the critical role of proteasomal dysregulation in HBV-associated liver pathology and provide new insights into its involvement in HCC development. Understanding the interplay between HBV infection and proteasome dynamics offers a valuable avenue for the identification of novel therapeutic targets and biomarkers in HCC.