A system for the propagation of adenoviral vectors with genetically modified receptor specificities

Joanne T. Douglas, C. Ryan Miller, Myunghee Kim, Igor Dmitriev, Galina Mikheeva, Victor Krasnykh, David T. Curiel

Research output: Contribution to journalArticlepeer-review

121 Scopus citations

Abstract

The development of genetically modified adenovirus (Ad) vectors with specificity for a single cell type will require both the introduction of novel tropism determinants and the ablation of endogenous tropism. Consequently, it will not be possible to exploit the native cellular entry pathway in the propagation of these targeted Ad vectors. Based on the concept that Ad enters cells by a two-step process in which a primary receptor serves as a high affinity binding site for the Ad fiber knob, with subsequent internalization mediated by αv integrins, we designed two artificial primary receptors. The extracellular domain of one of these synthetic receptors was derived from a single-chain antibody (sFv) with specificity for Ad5 knob, while the second receptor consisted of an icosapeptide identified by biopanning a phage display library against Ad5 knob. Expression of either of these artificial virus-binding receptors in fiber receptor-negative cells possessing αv integrins conferred susceptibility to Ad infection. We then created a novel mechanism for cell binding by genetically modifying both the vector and the target cell. In this approach, six histidine (His) residues were incorporated at the C-terminal of the Ad fiber protein. The resultant Ad vector was able to infect nonpermissive cells displaying the cognate artificial receptor, containing an anti-His sFv. This strategy, comprising a genetically engineered Ad virion and a modified cell line, should be useful in the propagation of targeted Ad vectors that lack the ability to bind the native fiber receptor.

Original languageEnglish
Pages (from-to)470-475
Number of pages6
JournalNature Biotechnology
Volume17
Issue number5
DOIs
StatePublished - May 1999

Keywords

  • Adenoviral vector
  • Artificial receptor
  • Gene therapy
  • Targeting

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