Enrichment reveals extensive integration of hepatitis B virus DNA in hepatitis delta-infected patients.

ABSTRACT

INTRODUCTION: Hepatitis B virus (HBV) DNA may become integrated into the human genome of infected human hepatocytes. Expression of integrations can produce the surface antigen (HBsAg) that is required for synthesis of hepatitis D virus (HDV) particles and the abundant subviral particles in the blood of HBV- and HDV-infected subjects. Knowledge about the extent and variation of HBV integrations and impact on chronic HDV is still limited. METHODS: We investigated 50 pieces of liver explant tissue from five patients with hepatitis D-induced cirrhosis, using a deep sequencing strategy targeting HBV RNA. RESULTS: We found that integrations were abundant and highly expressed, however with large variation in number of integration derived (HBV/human chimeric) reads, both between and within patients. The median number of unique integrations for each patient correlated with serum levels of both HBsAg. Still, most of the HBV reads represented a few predominant integrations. CONCLUSIONS: The results suggest that HBV DNA integrates in a large proportion of hepatocytes, and that the HBsAg output from these integrations vary >100-fold depending on clone size and expression rate. A small part of the integrations seems to determine the serum levels of HBsAg and HDV RNA in HBV/HDV co-infected patients with liver cirrhosis.