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Journal ArticleDOI

Expression of Duplex shRNAs through a Lentiviral Vector against Cellular and Viral Genes Inflicts Sustained Inhibition of Hepatitis C Virus Replication

01 Jan 2018-Intervirology (Intervirology)-Vol. 61, Iss: 2, pp 79-91
TL;DR: A lentiviral vector-based delivery system is a “single-shot” therapeutic strategy that can express duplex shRNA for long-term synergistic inhibition of HCV and qualify as a promising therapeutic approach for sustained inhibition ofHCV replication.
Abstract: Background: The RNAi-based transient therapeutic approach has been well explored for its potential against the hepatitis V virus (HCV). However, to achieve a sustained virological response, a consistent presence of siRNA is needed and it can be achieved by constitutively expressing shRNAs. In this context, the lentiviral vector has emerged as an attractive tool for shRNA delivery against HCV. Methods: We monitored HCV inhibition after single and multiple rounds of siRNA treatments against La autoantigen and HCV-NS5B in Huh-7.5 cells infected with the FL-J6/JFH chimeric HCV strain. A bicistronic self-inactivating third-generation lentiviral vector expressing shRNA under U6 and H1 promoters was constructed. To ascertain the long-term HCV inhibition, cells were transduced with lentiviral vectors and HCV inhibition was monitored by RT-PCR and Western blotting at regular intervals. Results: We observed transient antiviral activity after a single round of siRNA treatment, and consecutive rounds of treatments with siRNA demonstrated a sustained HCV inhibition. Delivery of duplex shRNA expressing lentiviral vectors provided constant expression of shRNA leading to synergistic and sustained HCV inhibition. Conclusion: A lentiviral vector-based delivery system is a “single-shot” therapeutic strategy. It can express duplex shRNA for long-term synergistic inhibition of HCV and qualify as a promising therapeutic approach for sustained inhibition of HCV replication.
Citations
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Journal ArticleDOI
TL;DR: RNAi effectors (e.g., siRNA, shRNA, and miRNA) can efficiently trigger the silencing of specific genes, and its genomic alteration functions allowed to pursue clinical trials in distinct areas, including infectious diseases, neurodegenerative disorders, and cancer as discussed by the authors.
Abstract: RNAi effectors (e.g., siRNA, shRNA, and miRNA) can efficiently trigger the silencing of specific genes, and its genomic alteration functions allowed to pursue clinical trials in distinct areas, including infectious diseases, neurodegenerative disorders, and cancer. Moreover, regarding cancer immunotherapy, RNAi therapeutics showed potential immunomodulatory ability by downregulating suppressive receptors such as PD-1 and CTLA-4, which restrict immune cell function and present challenges in cancer immunotherapy. Therefore, compared with extracellular targeting by antibodies, RNAi-mediated, cell-intrinsic disruption of inhibitory pathways in immune cells can promote an increased antitumor immune response. Along with nonviral vectors, DNA-based RNAi strategies might be a more promising method for immunomodulation to silence multiple inhibitory pathways in T cells than immune checkpoint blockade antibodies. Thus, in this review, we discuss diverse RNAi implementation strategies, with recent viral and non-viral mediated RNAi synergism to immunotherapy that augments the antitumor immunity. Finally, we provide the current progress of RNAi in clinical pipeline.

9 citations

References
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Journal ArticleDOI
TL;DR: The study results confirm that the viral rebound that often occurred a few weeks after treatment is due to emergence of a virus whose genome is mutated in the sequences targeted by the RNAs, and demonstrate an RNA interference (RNAi) mechanism of action.
Abstract: We have recently shown that a cocktail of two short synthetic hairpin RNAs (sshRNAs), targeting the internal ribosome entry site of hepatitis C virus (HCV) formulated with lipid nanoparticles, was able to suppress viral replication in chimeric mice infected with HCV GT1a by up to 2.5 log10 (H. Ma et al., Gastroenterology 146:63–66.e5, http://dx.doi.org/10.1053/j.gastro.2013.09.049) Viral load remained about 1 log10 below pretreatment levels 21 days after the end of dosing. We have now sequenced the HCV viral RNA amplified from serum of treated mice after the 21-day follow-up period. Viral RNA from the HCV sshRNA-treated groups was altered in sequences complementary to the sshRNAs and nowhere else in the 500-nucleotide sequenced region, while the viruses from the control group that received an irrelevant sshRNA had no mutations in that region. The ability of the most commonly selected mutations to confer resistance to the sshRNAs was confirmed in vitro by introducing those mutations into HCV-luciferase reporters. The mutations most frequently selected by sshRNA treatment within the sshRNA target sequence occurred at the most polymorphic residues, as identified from an analysis of available clinical isolates. These results demonstrate a direct antiviral activity with effective HCV suppression, demonstrate the added selective pressure of combination therapy, and confirm an RNA interference (RNAi) mechanism of action. IMPORTANCE This study presents a detailed analysis of the impact of treating a hepatitis C virus (HCV)-infected animal with synthetic hairpin-shaped RNAs that can degrade the virus's RNA genome. These RNAs can reduce the viral load in these animals by over 99% after 1 to 2 injections. The study results confirm that the viral rebound that often occurred a few weeks after treatment is due to emergence of a virus whose genome is mutated in the sequences targeted by the RNAs. The use of two RNA inhibitors, which is more effective than use of either one by itself, requires that any resistant virus have mutations in the targets sites of both agents, a higher hurdle, if the virus is to retain the ability to replicate efficiently. These results demonstrate a direct antiviral activity with effective HCV suppression, demonstrate the added selective pressure of combination therapy, and confirm an RNAi mechanism of action.

12 citations

Journal ArticleDOI
TL;DR: It is indicated that siRNA is a potential therapeutic tool for inhibiting HCV replication and simultaneously targeting multiple viral steps with the combination of siRNAs is more effective than silencing a single target.
Abstract: Hepatitis C virus is major cause of chronic liver diseases such as chronic hepatitis, liver cirrhosis, and hepatocellular carcinoma. Presently available direct-acting antiviral drugs have improved success rate; however, high cost limits their utilization, especially in developing countries like India. In the present study, we evaluated anti-HCV potential of several siRNAs targeted against the HCV RNA-dependent RNA polymerase NS5B and cellular factors, La autoantigen, PSMA7, and human VAMP-associated protein to intercept different steps of viral life cycle. The target genes were downregulated individually as well as in combinations and their impact on viral replication was evaluated. Individual downregulation of La autoantigen, PSMA7, hVAP-A, and NS5B resulted in inhibition of HCV replication by about 67.2%, 50.7%, 39%, and 52%, respectively. However, antiviral effect was more pronounced when multiple genes were downregulated simultaneously. Combinations of siRNAs against La autoantigen with NS5B or hVAP-A resulted in greater inhibition in HCV replication. Our findings indicate that siRNA is a potential therapeutic tool for inhibiting HCV replication and simultaneously targeting multiple viral steps with the combination of siRNAs is more effective than silencing a single target.

10 citations

Journal ArticleDOI
TL;DR: The data suggest that HCV specific E2 and host CD81 antibodies reduce HCVpp entry and full length viral particle and combination of host andHCV specific antibodies showed synergistic effect in reducing the viral titer.
Abstract: Background HCV causes acute and chronic hepatitis which can eventually lead to permanent liver damage hepatocellular carcinoma and death. HCV glycoproteins play an important role in HCV entry by binding with CD81 receptors. Hence inhibition of virus at entry step is an important target to identify antiviral drugs against HCV.

8 citations

Journal ArticleDOI
06 Aug 2010-Viruses
TL;DR: The impact ofRNAi in understanding HCV biology, the progress in design of RNAi-based therapeutics for HCV, and remaining obstacles are explored.
Abstract: The discovery and characterization of the RNA interference (RNAi) pathway has been one of the most important scientific developments of the last 12 years. RNAi is a cellular pathway wherein small RNAs control the expression of genes by either degrading homologous RNAs or preventing the translation of RNAs with partial homology. It has impacted basic biology on two major fronts. The first is the discovery of microRNAs (miRNAs), which regulate almost every cellular process and are required for some viral infections, including hepatitis C virus (HCV). The second front is the use of small interfering RNAs (siRNAs) as the first robust tool for mammalian cellular genetics. This has led to the identification of hundreds of cellular genes that are important for HCV infection. There is now a major push to adapt RNAi technology to the clinic. In this review, we explore the impact of RNAi in understanding HCV biology, the progress in design of RNAi-based therapeutics for HCV, and remaining obstacles.

7 citations

Journal ArticleDOI
TL;DR: The ability to deliver anti-HCV short hairpin RNAs to uninfected livers before transplantation and subsequent exposure to HCV offers hope for the possibility of preventing the currently inevitable subsequent infection of liver grafts with HCV.
Abstract: Recurrent hepatitis C virus (HCV) infection is the most common cause of graft loss and patient death after transplantation for HCV cirrhosis. Transplant surgeons have access to uninfected explanted livers before transplantation and an opportunity to deliver RNA interference-based protective gene therapy to uninfected grafts. Conserved HCV sequences were used to design short interfering RNAs and test their ability to knockdown HCV transcript expression in an in vitro model, both by transfection and when delivered via an adeno-associated viral vector. In a rodent model of liver transplantation, portal venous perfusion of explanted grafts with an adeno-associated viral vector before transplantation produced detectable short hairpin RNA transcript expression after transplantation. The ability to deliver anti-HCV short hairpin RNAs to uninfected livers before transplantation and subsequent exposure to HCV offers hope for the possibility of preventing the currently inevitable subsequent infection of liver grafts with HCV.

6 citations