A short HBV RNA region induces RNR-R2 expression in non-cycling cells and in primary human hepatocytes

Hepatitis B virus infects non-dividing cells in which dNTPs are scarce. HBV replication requires dNTPs. To cope with this constraint the virus induces the DNA damage response (DDR) pathway culminating in RNR-R2 expression and the generation of an active RNR holoenzyme, the key regulator of dNTP levels. Previously we reported that the HBx open reading frame (ORF) triggers this pathway. Unexpectedly however, we report here that the production of HBx protein is not essential. We found that a small region of 125 bases within the HBx transcript is sufficient to induce RNR-R2 expression in growth arrested HepG2 cells and in primary human hepatocytes (PHH). The observed HBx embedded regulatory element is named ERE. We demonstrate that ERE is functional as a positive strand RNA polymerase-II transcript. Remarkably, ERE is sufficient to induce the Chk1-E2F1-RNR-R2 DDR pathway, previously reported to be activated by HBV. Furthermore, we found that ERE activates ATR but not ATM in eliciting this DDR pathway in upregulating RNR-R2. These findings demonstrate the multitasking role of HBV transcripts in mediating virus-host cell interaction, a mechanism that explains how such a small genome effectively serves such a pervasive virus.