RNA interference (RNAi) was reported to block hepatitis B virus (HBV) gene expression and replication in vitro and in vivo. However, it remains a technical challenge for RNAibased therapy to achieve long-term and complete inhibition effects in chronic HBV infection, which presumably requires more extensive and uniform transduction of the whole infected hepatocytes. To increase the in vivo transfection efficiency in liver, we used a double-stranded adenoassociated virus 8-pseudotyped vector (dsAAV2/8) to deliver shRNA. HBV transgenic mice were used as an animal model to evaluate the inhibition effects of the RNAi-based gene therapy. A single administration of dsAAV2/8 vector, carrying HBV-specific shRNA, effectively suppressed the steady level of HBV protein, mRNA and replicative DNA in liver of HBV transgenic mice, leading to up to 2-3 log 10 decrease in HBV load in the circulation. Significant HBV suppression sustained for at least 120 days after vector administration. The therapeutic effect of shRNA was target sequence dependent and did not involve activation of interferon. These results underscore the potential for developing RNAi-based therapy by dsAAV2/8 vector to treat HBV chronic infection, and possibly other persistent liver infections as well.
We previously reported that mutations in the -opioid receptor (MOR), S196L or S196A, rendered MOR responsive to the opioid antagonist naloxone without altering the agonist phenotype. Subsequently, a mouse strain carrying the S196A mutation exhibited in vivo naloxone antinociceptive activity without the development of tolerance. In this study we investigated the possibility of combining the in vivo site-directed delivery of MORS196A and systemic naloxone administration as a paradigm for pain management. Double-stranded adenoassociated virus type 2 (dsAAV2) was used to deliver MORS196A-EGFP by injecting the virus into the spinal cord (S2/S3) dorsal horn region of ICR mice. MORS196A-EGFP fluorescence colocalized with some calcitonin gene-related peptide and neuron-specific protein immunoreactivity in the superficial layers of the dorsal horn 1 week after injection and lasted for at least 6 months. In mice injected with the mutant receptor, morphine induced similar antinociceptive responses and tolerance development or precipitated withdrawal symptoms and reward effects, similar to those in the control mice (saline injected into the spinal cord). Conversely, in the dsAAV2-injected mice, naloxone produced antinociceptive effects at the spinal level but not at the supraspinal level, whereas naloxone had no measurable effect on the control mice. Furthermore, the chronic administration of naloxone to mice injected with dsAAV2-MORS196A-EGFP did not induce tolerance, dependence, or reward responses. Thus, our current approach to activate a mutant receptor, but not the endogenous receptor, with an opioid antagonist represents an alternative to the use of traditional opioid agonists for pain management.morphine ͉ -opioid receptor ͉ naloxone
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