Nationwide comprehensive genomic profiling defines the genomic landscape of hepatocellular carcinoma across etiologies

Hepatocellular carcinoma (HCC) arises from various etiologies, including viral hepatitis and non-viral liver diseases. Although comprehensive genomic profiling (CGP) is increasingly applied in oncology, the influence of disease etiology on the genomic landscape of HCC and biomarker applicability remains insufficiently characterized. CGP data from 551 patients with HCC, registered in the National Center for Cancer Genomics and Advanced Therapeutics (C-CAT) database, were analyzed after excluding cases with undefined etiology. We characterized the mutational landscape, compared mutation frequencies among HBV-, HCV-, and non-viral, non-cholestatic (nBnC)–related HCC, assessed the association between homologous recombination repair (HRR)-related gene alterations and tumor mutation burden (TMB), and evaluated the detection rates of actionable mutations in tissue- versus liquid-based CGP. Telomerase reverse transcriptase splice site mutations were the most common genomic alteration and were consistently observed across all etiologic groups. Although mutations in AXIN1 and DDR2 genes showed modest enrichment in HCV- and HBV-related HCC, respectively, the overall mutational profiles remained largely conserved across etiologies. TMB was significantly lower in nBnC-HCC compared to HCV-related HCC but showed no association with HRR-related mutations. The detection rates of targetable mutations were similar between tissue and liquid biopsies; however, only a small proportion of patients received matched therapies. Real-world data indicate a conserved genomic architecture in HCC regardless of etiology, supporting unified therapeutic approaches. The absence of a relationship between HRR alterations and TMB suggests distinct biological mechanisms. Liquid biopsy remains a reliable option when tissues are unavailable in managing patients with HCC.