Hepatitis B virus and site-specific nucleases: effects of genetic modifications in CRISPR/Cas9 on antiviral activity

Chronic hepatitis B is a severe liver disease caused by persistent infection of hepatitis B virus in human hepatocytes. Chronic hepatitis B is one of the most common diseases in the world. According to recent estimations, more than 250 million people are chronically infected and more than 1 million of people die annually due to consequences of chronic hepatitis B: liver cirrhosis and hepatocellular carcinoma. The key factor of hepatitis B virus persistency is a special form of viral genome called circular covalently closed DNA. Current therapeutics suppress viral replication but have no effect on circular covalently closed DNA as it exists in the nuclei of hepatocytes as a minichromosome and is not accessible for therapeutics. Commonly, viral reactivation occurs after cessation of treatment. Therefore, duration of antiviral treatment is supposed to be indefinitely long. One of the most promising approaches to target circular covalently closed DNA is the technology of site-specific nucleases CRISPR/Cas9 from Streptococcus pyogenes. A short guide RNA recruits an SpCas9 protein to the viral genome and induces generation of DNA double strand breaks. However, there are several limitations of CRISPR/Cas9 hampering translation of this technology into the clinic. First, efficacy of CRISPR/Cas9 needs to be improved. Second, CRISPR/Cas9-mediated off-target mutagenesis represents a menacing problem which has to be addressed. To overcome these limitations, several approaches have been devised to improve CRISPR/Cas9 activity (modification of guide RNAs) and reduce off-target mutagenesis (a Cas9 protein with enhanced specificity, eSpCas9). In this study, we compared antiviral activity of a classic SpCas9 with an eSpCas9 system as well as analyzed effects of gRNAs modification on anti-HBV effects. Here, we demonstrated that SpCas9 has the highest antiviral potency, reducing transcription and replication of HBV over 90%. Hepatitis B virus covalently closed circular DNA declined over 90% post CRISPR/Cas9 transfection. Although it was previously shown that modified guide RNAs increase nucleolytic activity of CRISPR/Cas9, our results indicated that this modification impairs antiviral activity of CRISPR/Cas9. To conclude, CRISPR/Cas9 effectively suppress viral replication and transcription per se. Described modifications do not potentiate antiviral activity of CRISPR/Cas9 system and should not be used for development of future therapeutics. The best strategy to improve CRISPR/Cas9 efficacy is to design new highly effective guide RNAs

Safety and Immunogenicity of Inactivated Whole Virion COVID-19 Vaccine CoviVac in Clinical Trials in 18–60 and 60+ Age Cohorts

We present the results of a randomized, double-blind, placebo-controlled, multi-center clinical trial phase I/II of the tolerability, safety, and immunogenicity of the inactivated whole virion concentrated purified coronavirus vaccine CoviVac in volunteers aged 18–60 and open multi-center comparative phase IIb clinical trial in volunteers aged 60 years and older. The safety of the vaccine was assessed in 400 volunteers in the 18–60 age cohort who received two doses of the vaccine (n = 300) or placebo (n = 100) and in 200 volunteers in 60+ age cohort all of whom received three doses of the vaccine. The studied vaccine has shown good tolerability and safety. No deaths, serious adverse events (AEs), or other significant AEs related to vaccination have been detected. The most common AE in vaccinated participants was pain at the injection site (p p 1:256, the rate of fourfold increase in nAB levels was below 45%; the participants who were seropositive at screening of the 2nd vaccination did not lead to a significant increase in nAB titers. In conclusion, inactivated vaccine CoviVac has shown good tolerability and safety, with over 85% NT seroconversion rates after complete vaccination course in participants who were seronegative at screening in both age groups: 18–60 and 60+. In participants who were seropositive at screening and had nAB titers below 1:256, a single vaccination led to a fourfold increase in nAB levels in 85.2% of cases. These findings indicate that CoviVac can be successfully used both for primary vaccination in a two-dose regimen and for booster vaccination as a single dose in individuals with reduced neutralizing antibody levels