Jungwook Hwang scite author profile

Molecular patterns in pathogenic RNAs can be recognized by the innate immune system, and a component of this response is the interferon-induced enzyme RNA-activated protein kinase (PKR). The major activators of PKR have been proposed to be long double-stranded RNAs. We report that RNAs with very limited secondary structures activate PKR in a 5'-triphosphate-dependent fashion in vitro and in vivo. Activation of PKR by 5'-triphosphate RNA is independent of RIG-I and is enhanced by treatment with type 1 interferon (IFN-alpha). Surveillance of molecular features at the 5' end of transcripts by PKR presents a means of allowing pathogenic RNA to be distinguished from self-RNA. The evidence presented here suggests that this form of RNA-based discrimination may be a critical step in mounting an early immune response.

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Hepatitis C Virus Nonstructural Protein 5A (NS5A) Is an RNA-binding Protein

Huang

Hwang

Sharma

et al. 2005

Journal of Biological Chemistry

231

230

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Hepatitis C virus (HCV) nonstructural protein 5A (NS5A) has been shown to antagonize numerous cellular pathways, including the antiviral interferon-␣ response. However, the capacity of this protein to interact with the viral polymerase suggests a more direct role for NS5A in genome replication. In this study, we employed two bacterially expressed, soluble derivatives of NS5A to probe for novel functions of this protein. We find that NS5A has the capacity to bind to the 3-ends of HCV plus and minus strand RNAs. The high affinity binding site for NS5A in the 3-end of plus strand RNA maps to the polypyrimidine tract, an element known to be essential for genome replication and infectivity. NS5A has a preference for single-stranded RNA containing stretches of uridine or guanosine. Values for the equilibrium dissociation constants for high affinity binding sites were in the 10 nM range. Two-dimensional gel electrophoresis followed by Western blotting revealed the presence of unphosphorylated NS5A in Huh-7 cells stably expressing the subgenomic replicon. Moreover, RNA immunoprecipitation and NS5A pull-down experiments showed the capacity of replicon-derived NS5A to bind to synthetic RNA and the HCV genome, respectively. Deletion of all of the casein kinase II phosphorylation sites in NS5A supported stable replication of a subgenomic replicon in Huh-7. However, this derivative could not be labeled with inorganic phosphate, suggesting that extensive phosphorylation of NS5A is not required for the replication functions of NS5A. The discovery that NS5A is an RNA-binding protein defines a new functional target for development of agents to treat HCV infection and a new structural class of RNA-binding proteins.

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Nonsense-mediated mRNA decay (NMD) in animal embryogenesis: to die or not to die, that is the question

Hwang

Maquat

2011

Current Opinion in Genetics & Development

119

120

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SUMMARY Nonsense-mediated mRNA decay (NMD) is a well-studied cellular quality-control pathway. It decreases the half-lives of eukaryotic mRNAs that aberrantly contain premature termination codons and additionally regulates an estimated 10–20% of normal transcripts. NMD factors play crucial roles during embryogenesis in many animals. Here, we review data indicating that NMD factors are required for proper embryogenesis by discussing the abnormal developmental phenotypes that result when the abundance of individual NMD factors is either downregulated or completely eliminated. We conclude that while NMD per se affects the embryogenesis of all animals, it is required to avoid embryonic lethality in only some animals. The critical roles of many NMD factors in other metabolic pathways undoubtedly also contribute to embryonic development if not viability.

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UPF1 Association with the Cap-Binding Protein, CBP80, Promotes Nonsense-Mediated mRNA Decay at Two Distinct Steps

et al. 2010

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SUMMARY Nonsense-mediated mRNA decay (NMD) is an mRNA surveillance mechanism that in mammals generally occurs upon recognition of a premature termination codon (PTC) during a pioneer round of translation. This round involves newly synthesized mRNA that is bound at its 5’ end by the cap-binding protein (CBP) heterodimer CBP80-CBP20. Here, we show that precluding the binding of the NMD factor UPF1 to CBP80 inhibits NMD at two steps: the association of SMG1 and UPF1 with the two eukaryotic release factors (eRFs) during SURF complex formation at a PTC, and the subsequent association of SMG1 and UPF1 with an exon-junction complex. We also demonstrate that UPF1 binds PTC-containing mRNA more efficiently than the corresponding PTC-free mRNA in a way that is promoted by the UPF1-CBP80 interaction. A unifying model proposes a choreographed series of protein-protein interactions occurring on an NMD target.

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Jungwook Hwang

5'-Triphosphate-Dependent Activation of PKR by RNAs with Short Stem-Loops

Hepatitis C Virus Nonstructural Protein 5A (NS5A) Is an RNA-binding Protein

Nonsense-mediated mRNA decay (NMD) in animal embryogenesis: to die or not to die, that is the question

UPF1 Association with the Cap-Binding Protein, CBP80, Promotes Nonsense-Mediated mRNA Decay at Two Distinct Steps

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