Stanley M. Lemon scite author profile

MicroRNAs are small RNA molecules that regulate messenger RNA (mRNA) expression. MicroRNA 122 (miR-122) is specifically expressed and highly abundant in the human liver. We show that the sequestration of miR-122 in liver cells results in marked loss of autonomously replicating hepatitis C viral RNAs. A genetic interaction between miR-122 and the 5' noncoding region of the viral genome was revealed by mutational analyses of the predicted microRNA binding site and ectopic expression of miR-122 molecules containing compensatory mutations. Studies with replication-defective RNAs suggested that miR-122 did not detectably affect mRNA translation or RNA stability. Therefore, miR-122 is likely to facilitate replication of the viral RNA, suggesting that miR-122 may present a target for antiviral intervention.

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A pathogenic picornavirus acquires an envelope by hijacking cellular membranes

Feng¹,

Hensley²,

McKnight³

et al. 2013

Nature

647

897

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Animal viruses are broadly categorized structurally by the presence or absence of an envelope composed of a lipid-bilayer membrane1, attributes that profoundly affect stability, transmission, and immune recognition. Among those lacking an envelope, the Picornaviridae are a large and diverse family of positive-strand RNA viruses that includes hepatitis A virus (HAV), an ancient human pathogen that remains a common cause of enterically-transmitted hepatitis2–4. HAV infects in a stealth-like manner and replicates efficiently in the liver5. Virus-specific antibodies appear only after 3–4 weeks of infection, and typically herald its resolution3,4. Although unexplained mechanistically, both anti-HAV antibody and inactivated whole-virus vaccines prevent disease when administered as late as 2 weeks after exposure6, when virus replication is well established in the liver5. Here, we show that HAV released from cells is cloaked in host-derived membranes, thereby protecting the virion from antibody-mediated neutralization. These enveloped viruses (“eHAV”) resemble exosomes7, small vesicles that are increasingly recognized to play important roles in intercellular communications. They are fully infectious, sensitive to chloroform extraction, and circulate in the blood of infected humans. Their biogenesis is dependent upon host proteins associated with endosomal-sorting complexes required for transport (ESCRT)8, VPS4B and ALIX. While the hijacking of membranes by HAV facilitates escape from neutralizing antibodies and likely promotes virus spread within the liver, anti-capsid antibodies restrict replication following infection with eHAV, suggesting a possible explanation for post-exposure prophylaxis. Membrane hijacking by HAV blurs the classic distinction between “enveloped” and “nonenveloped” viruses, and has broad implications for mechanisms of viral egress from infected cells as well as host immune responses.

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Immune evasion by hepatitis C virus NS3/4A protease-mediated cleavage of the Toll-like receptor 3 adaptor protein TRIF

Foy

Ferreon

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

982

792

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Toll-like receptors (TLRs) bind pathogen-specific ligands early in infection, initiating signaling pathways that lead to expression of multiple protective cellular genes. Many viruses have evolved strategies that block the effector mechanisms induced through these signaling pathways, but viral interference with critical proximal receptor interactions has not been described. We show here that the NS3͞4A serine protease of hepatitis C virus (HCV), a virus notorious for its ability to establish persistent intrahepatic infection, causes specific proteolysis of Toll-IL-1 receptor domaincontaining adaptor inducing IFN-␤ (TRIF or TICAM-1), an adaptor protein linking TLR3 to kinases responsible for activating IFN regulatory factor 3 (IRF-3) and NF-B, transcription factors controlling a multiplicity of antiviral defenses. NS3͞4A-mediated cleavage of TRIF reduces its abundance and inhibits polyI:C-activated signaling through the TLR3 pathway before its bifurcation to IRF-3 and NF-B. This uniquely broad mechanism of immune evasion potentially limits expression of multiple host defense genes, thereby promoting persistent infections with this medically important virus.innate immunity ͉ IFN ͉ IFN regulatory factor 3 ͉ NF-B ͉ protease inhibitor

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Stanley M. Lemon

Modulation of Hepatitis C Virus RNA Abundance by a Liver-Specific MicroRNA

A pathogenic picornavirus acquires an envelope by hijacking cellular membranes

Immune evasion by hepatitis C virus NS3/4A protease-mediated cleavage of the Toll-like receptor 3 adaptor protein TRIF

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