Patient acceptability of, and attitudes towards, hepatitis B cure research - A scoping review and identification of knowledge gaps

Expanding treatment indications in chronic hepatitis B: Should we treat all patients?

Nucleos(t)ide analogues (NUCs) are first-line agents for chronic hepatitis B (CHB). Current guidelines provide recommendations for NUC initiation, yet the guidelines are complex and restrictive. Accumulating data on hepatitis B virus (HBV) replication and HBV integration suggests that there are no real quiescent disease phases in CHB, and treatment-ineligible patients in current guidelines still have substantial risks of cirrhosis and hepatocellular carcinoma. Expanding CHB treatment indications can effectively reduce the risks of liver-related complications. Furthermore, treatment indication expansion can be cost-effective, and can simplify care pathways to remove treatment barriers. Potential caveats for treatment expansion include risks of non-compliance, long-term side effects from NUCs, and poor patient acceptability. Nonetheless, these caveats are not insurmountable, and the benefits of treatment expansion outweigh the disadvantages. There is consensus among hepatologists in supporting treatment indication expansion, although expert panels have varying recommendations on treatment strategies. A treat-all approach, which involves treating all CHB patients, has also been proposed. A treat-all strategy is straightforward, and should yield the greatest benefits from a population health perspective. However, the feasibility of new treatment strategies, especially the treat-all approach, is influenced by multiple factors including local epidemiology, healthcare resource availability, and socioeconomic factors. A one-size-fits-all approach is not optimal, and treatment expansion strategies that are tailored based on local data should yield the greatest impact toward hepatitis elimination.

TRPV4 promotes HBV replication and capsid assembly via methylation modification of H3K4 and HBc ubiquitin

Hepatitis B virus (HBV) infection poses a significant burden on global public health. Unfortunately, current treatments cannot fully alleviate this burden as they have limited effect on the transcriptional activity of the tenacious covalently closed circular DNA (cccDNA) responsible for viral persistence. Consequently, the HBV life cycle should be further investigated to develop new anti-HBV pharmaceutical targets. Our previous study discovered that the host gene TMEM203 hinders HBV replication by participating in calcium ion regulation. The involvement of intracellular calcium in HBV replication has also been confirmed. In this study, we found that transient receptor potential vanilloid 4 (TRPV4) notably enhances HBV reproduction by investigating the effects of several calcium ion-related molecules on HBV replication. The in-depth study showed that TRPV4 promotes hepatitis B core/capsid protein (HBc) protein stability through the ubiquitination pathway and then promotes the nucleocapsid assembly. HBc binds to cccDNA and reduces the nucleosome spacing of the cccDNA-histones complex, which may regulate HBV transcription by altering the nucleosome arrangement of the HBV genome. Moreover, our results showed that TRPV4 promotes cccDNA-dependent transcription by accelerating the methylation modification of H3K4. In conclusion, TRPV4 could interact with HBV core protein and regulate HBV during transcription and replication. These data suggest that TRPV4 exerts multifaceted HBV-related synergistic factors and may serve as a therapeutic target for CHB.