Literature DB >> 21048111

RNA polymerase II inhibitors dissociate antigenic peptide generation from normal viral protein synthesis: a role for nuclear translation in defective ribosomal product synthesis?

Brian P Dolan1, Jonathan J Knowlton, Alexandre David, Jack R Bennink, Jonathan W Yewdell.   

Abstract

Following viral infection, cells rapidly present peptides from newly synthesized viral proteins on MHC class I molecules, likely from rapidly degraded forms of nascent proteins. The nature of these defective ribosomal products (DRiPs) remains largely undefined. Using inhibitors of RNA polymerase II that block influenza A virus neuraminidase (NA) mRNA export from the nucleus and inhibit cytoplasmic NA translation, we demonstrate a surprising disconnect between levels of NA translation and generation of SIINFEKL peptide genetically inserted into the NA stalk. A 33-fold reduction in NA expression is accompanied by only a 5-fold reduction in K(b)-SIINFEKL complex cell-surface expression, resulting in a net 6-fold increase in the overall efficiency of Ag presentation. Although the proteasome inhibitor MG132 completely blocked K(b)-SIINFEKL complex generation, we were unable to biochemically detect a MG132-dependent cohort of NA DRiPs relevant for Ag processing, suggesting that a minute population of DRiPs is a highly efficient source of antigenic peptides. These data support the idea that Ag processing uses compartmentalized translation, perhaps even in the nucleus itself, to increase the efficiency of the generation of class I peptide ligands.

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Year:  2010        PMID: 21048111      PMCID: PMC3398797          DOI: 10.4049/jimmunol.1002543

Source DB:  PubMed          Journal:  J Immunol        ISSN: 0022-1767            Impact factor:   5.422


  34 in total

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Review 4.  Nuclear translation: what is the evidence?

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Review 5.  To DRiP or not to DRiP: generating peptide ligands for MHC class I molecules from biosynthesized proteins.

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Journal:  Mol Immunol       Date:  2002-10       Impact factor: 4.407

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Review 8.  Intrinsically disordered protein.

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9.  Interaction of eukaryotic translation initiation factor 4G with the nuclear cap-binding complex provides a link between nuclear and cytoplasmic functions of the m(7) guanosine cap.

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  26 in total

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6.  Translation of pre-spliced RNAs in the nuclear compartment generates peptides for the MHC class I pathway.

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7.  Substrate-induced protein stabilization reveals a predominant contribution from mature proteins to peptides presented on MHC class I.

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8.  Ribosomal Proteins Regulate MHC Class I Peptide Generation for Immunosurveillance.

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9.  Using intein catalysis to probe the origin of major histocompatibility complex class I-presented peptides.

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10.  Defining Viral Defective Ribosomal Products: Standard and Alternative Translation Initiation Events Generate a Common Peptide from Influenza A Virus M2 and M1 mRNAs.

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