Literature DB >> 21135188

Identification of high-affinity PB1-derived peptides with enhanced affinity to the PA protein of influenza A virus polymerase.

Kerstin Wunderlich1, Mindaugas Juozapaitis, Charlene Ranadheera, Ulrich Kessler, Arnold Martin, Jessica Eisel, Ulrike Beutling, Ronald Frank, Martin Schwemmle.   

Abstract

The influenza A virus polymerase complex, consisting of the subunits PB1, PB2, and PA, represents a promising target for the development of new antiviral drugs. We have previously demonstrated the feasibility of targeting the protein-protein interaction domain between PA and PB1 using peptides derived from the extreme N terminus of PB1 (amino acids [aa] 1 to 15), comprising the PA-binding domain of PB1. To increase the binding affinity of these peptides, we performed a systematic structure-affinity relationship analysis. Alanine and aspartic acid scans revealed that almost all amino acids in the core binding region (aa 5 to 11) are indispensable for PA binding. Using a library of immobilized peptides representing all possible single amino acid substitutions, we were able to identify amino acid positions outside the core PA-binding region (aa 1, 3, 12, 14, and 15) that are variable and can be replaced by affinity-enhancing residues. Surface plasmon resonance binding studies revealed that combination of several affinity-enhancing mutations led to an additive effect. Thus, the feasibility to enhance the PA-binding affinity presents an intriguing possibility to increase antiviral activity of the PB1-derived peptide and one step forward in the development of an antiviral drug against influenza A viruses.

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Year:  2010        PMID: 21135188      PMCID: PMC3028788          DOI: 10.1128/AAC.01419-10

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  23 in total

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  19 in total

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7.  Discovery of Influenza Polymerase PA-PB1 Interaction Inhibitors Using an In Vitro Split-Luciferase Complementation-Based Assay.

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10.  AVPpred: collection and prediction of highly effective antiviral peptides.

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