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Viral genome RNA degradation by sequence-selective, nucleic-acid hydrolyzing antibody inhibits the replication of influenza H9N2 virus without significant cytotoxicity to host cells

Authors
Kim, A; Lee, JY; Byun, SJ; Kwon, MH; Kim, YS
Citation
Antiviral research, 94(2):157-167, 2012
Journal Title
Antiviral research
ISSN
0166-35421872-9096
Abstract
Influenza A virus infection is a great threat to avian species and humans. Targeting viral proteins by antibody has a limited success due to the antigen drift and shift. Here we present a novel antibody-based antiviral strategy of targeting viral genomic RNA (vRNA) for degradation rather than neutralizing viral proteins. Based on the template of a sequence-nonspecific nucleic acid-hydrolyzing, single domain antibody of the light chain variable domain, 3D8 VL, we generated a synthetic library on the yeast surface by randomizing putative nucleic acid interacting residues. To target nucleocapsid protein (NP)-encoding viral genomic RNA (NP-vRNA) of H9N2 influenza virus, the library was screened against a 18-nucleotide single stranded nucleic acid substrate, dubbed asNP(18), the sequence of which is unique to the NP-vRNA. We isolated a 3D8 VL variant, NP25, that had ∼15-fold higher affinity (∼54nM) and ∼3-fold greater selective hydrolyzing activity for the target substrate than for off targets. In contrast to 3D8 VL WT, asNP(18)-selective NP25 constitutively expressed in the cytosol of human lung carcinoma A549 cells does not exhibit any significant cytotoxicity and selectively degrades a reporter mRNA carrying the target asNP(18) sequence in the stable cell lines. NP25 more potently inhibits the replication of H9N2 influenza virus than 3D8 VL WT in the stable cell lines. NP25 more selectively reduces the amount of the targeted NP-vRNA than 3D8 VL WT from the early stage of virus infection in the stable cell lines, without noticeable harmful effects on the endogenous mRNA, suggesting that NP25 indeed more specifically recognizes to hydrolyze the target NP-vRNA of H9N2 virus than off-targets. Our results provide a new strategy of targeting viral genomic RNA for degradation by antibody for the prevention of influenza virus infection in humans and animals.
MeSH terms
AnimalsAntibodies, Viral/*metabolism/toxicityAntiviral Agents/*metabolism/toxicityCell LineCell Survival/drug effectsGenome, HumanHumansInfluenza A Virus, H9N2 Subtype/*drug effects/*physiologyPeptide LibraryRNA StabilityRNA, Viral/*metabolismRibonucleases/*metabolism/toxicityVirus Replication/*drug effects
DOI
10.1016/j.antiviral.2012.03.007
PMID
22484663
Appears in Collections:
Journal Papers > School of Medicine / Graduate School of Medicine > Microbiology
AJOU Authors
권, 명희
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