Abstract
BACKGROUND: HBsAg can be derived from intrahepatic cccDNA and integrated HBV DNA (iDNA). We examined the iDNA from liver tissues of 24 HBeAg(+) and 32 HBeAg(-) treatment-naive CHB participants. METHODS: Liver tissues were obtained from the North American Hepatitis B Research Network (HBRN). For cccDNA analysis, DNA was heat-denatured and digested by plasmid-safe ATP-dependent DNase to remove rcDNA and iDNA prior to qPCR. For iDNA detection, total DNA was subjected to HBV hybridization-targeted next generation sequencing (HBV-NGS) assay. The HBV-host junction sequences were identified by ChimericSeq. Comparison of HBV cccDNA and iDNA with serum and intrahepatic virological parameters were assessed. RESULTS: Intrahepatic cccDNA, serum HBV DNA, HBV RNA, HBcrAg and qHBsAg were higher among the HBeAg(+) participants. Among the HBeAg(+) samples, 87% had positive intrahepatic HBcAg staining compared to 13% of HBeAg(-) samples (p<0.0001). HBsAg staining, in contrast, was present in over 85% of both HBeAg(+) and (-) livers. 23 (95.8%) HBeAg(+) participants had ≤50% iDNA of total HBV DNA whereas 25 (78.1%) HBeAg(-) participants had >50% iDNA in their livers. The iDNA junction-breakpoint distributions for the HBeAg(+) group were random with 15.9% localized to the DR2-DR1 region. In contrast, 52.4% of the iDNA were clustered at DR2-DR1 region among the HBeAg(-) participants. Microhomology-mediated end joining (MMEJ) patterns of dslDNA HBV integration was more frequent in HBeAg (+) livers. CONCLUSION: Serum RNA and HBcrAg reflect the intrahepatic cccDNA concentrations. HBeAg(-) CHB participants had high levels of intrahepatic iDNA and HBsAg despite lower cccDNA levels suggesting that iDNA is the primary source of HBsAg in HBeAg(-) CHB.