The inability for the internal ribosomal entry site (IRES) of hepatitis C virus (HCV) to be readily studied in the context of viral replication has been circumvented by constructing chimeras such as with poliovirus (PV), in which translation of the genome polyprotein is under control of the HCV IRES. During our attempts to configure the PV/HCV chimera for our drug discovery efforts, we discovered that an adenine- (A) to-guanine (G) change at nt 350 in domain IV of the HCV IRES resulted in a nonviable phenotype. Similarly, a mengovirus (MV)/HCV chimera using the same configuration with a G at nt 350 (G-350) was found to be nonviable. In contrast, a bovine viral diarrhea virus (BVDV)/HCV chimera remained viable with G-350 in the HCV IRES insert. Second-site, resuscitating mutations were identified from the G-350 PV/HCV and MV/HCV viruses after blind passaging. For both viruses, the resuscitating mutations involved destabilization of domain IV in the HCV IRES. The nonviability of G-350 in the picornavirus/HCV chimeric background might be linked to translation efficiency as indicated by analyses with dual reporter and PV/HCV replicon constructs.
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- Cells under stress adapt by slowing down traditional protein synthesis and instead using internal ribosome entry sites (IRES) to ensure crucial proteins are still made.
- The study investigates the secondary structure of the insulin receptor (Insr) 5' untranslated region (5'UTR), revealing key elements important for IRES function in both mouse and viral contexts.
- By developing a model of the Insr 5'UTR and identifying critical segments for function, researchers were able to create a smaller IRES element that maintains effective translation.
Involvement of ribosomal protein L17 and Y-box binding protein 1 in the assembly of hepatitis C virus potentially via their interaction with the 3' untranslated region of the viral genome.
J Virol
July 2024
Department of Microbiology and Immunology, Hamamatsu University School of Medicine, Shizuoka, Japan.
Unlabelled: The 3' untranslated region (3'UTR) of the hepatitis C virus (HCV) RNA genome, which contains a highly conserved 3' region named the 3'X-tail, plays an essential role in RNA replication and promotes viral IRES-dependent translation. Although our previous work has found a cis-acting element for genome encapsidation within 3'X, there is limited information on the involvement of the 3'UTR in particle formation. In this study, proteomic analyses identified host cell proteins that bind to the 3'UTR containing the 3'X region but not to the sequence lacking the 3'X.
View Article and Find Full Text PDFStructure and function of type IV IRES in picornaviruses: a systematic review.
Front Microbiol
May 2024
College of Veterinary Medicine, Qingdao Agricultural University, Qingdao, China.
Article Synopsis
- Picornaviruses are a group of viruses with single-stranded RNA genomes, characterized by a capsid that encases their genetic material and lack an envelope.
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- Type IV IRES, known for its simpler structure similar to hepatitis C virus, is increasingly found in picornaviruses, indicating its importance in viral evolution and prompting a review of its structural and functional roles.
PSPC1 Binds to HCV IRES and Prevents Ribosomal Protein S5 Binding, Inhibiting Viral RNA Translation.
Viruses
May 2024
Department of Microbiology and Cell Biology, Indian Institute of Science, Bangalore 560012, Karnataka, India.
Hepatitis C virus (HCV) infects the human liver, and its chronic infection is one of the major causes of Hepatocellular carcinoma. Translation of HCV RNA is mediated by an Internal Ribosome Entry Site (IRES) element located in the 5'UTR of viral RNA. Several RNA Binding proteins of the host interact with the HCV IRES and modulate its function.
View Article and Find Full Text PDFStructure-based virtual screening of unbiased and RNA-focused libraries to identify new ligands for the HCV IRES model system.
RSC Med Chem
May 2024
Institute of Pharmaceutical and Biomedical Sciences, Johannes Gutenberg-University Staudingerweg 5 55128 Mainz Germany
Targeting RNA including viral RNAs with small molecules is an emerging field. The hepatitis C virus internal ribosome entry site (HCV IRES) is a potential target for translation inhibitor development to raise drug resistance mutation preparedness. Using RNA-focused and unbiased molecule libraries, a structure-based virtual screening (VS) by molecular docking and pharmacophore analysis was performed against the HCV IRES subdomain IIa.
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