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Inhibition of Henipavirus fusion and infection by heptad-derived peptides of the Nipah virus fusion glycoprotein.
- Source :
-
Virology journal [Virol J] 2005 Jul 18; Vol. 2, pp. 57. Date of Electronic Publication: 2005 Jul 18. - Publication Year :
- 2005
-
Abstract
- Background: The recent emergence of four new members of the paramyxovirus family has heightened the awareness of and re-energized research on new and emerging diseases. In particular, the high mortality and person to person transmission associated with the most recent Nipah virus outbreaks, as well as the very recent re-emergence of Hendra virus, has confirmed the importance of developing effective therapeutic interventions. We have previously shown that peptides corresponding to the C-terminal heptad repeat (HR-2) of the fusion envelope glycoprotein of Hendra virus and Nipah virus were potent inhibitors of both Hendra virus and Nipah virus-mediated membrane fusion using recombinant expression systems. In the current study, we have developed shorter, second generation HR-2 peptides which include a capped peptide via amidation and acetylation and two poly(ethylene glycol)-linked (PEGylated) peptides, one with the PEG moity at the C-terminus and the other at the N-terminus. Here, we have evaluated these peptides as well as the corresponding scrambled peptide controls in Nipah virus and Hendra virus-mediated membrane fusion and against infection by live virus in vitro.<br />Results: Unlike their predecessors, the second generation HR-2 peptides exhibited high solubility and improved synthesis yields. Importantly, both Nipah virus and Hendra virus-mediated fusion as well as live virus infection were potently inhibited by both capped and PEGylated peptides with IC50 concentrations similar to the original HR-2 peptides, whereas the scrambled modified peptides had no inhibitory effect. These data also indicate that these chemical modifications did not alter the functional properties of the peptides as inhibitors.<br />Conclusion: Nipah virus and Hendra virus infection in vitro can be potently blocked by specific HR-2 peptides. The improved synthesis and solubility characteristics of the second generation HR-2 peptides will facilitate peptide synthesis for pre-clinical trial application in an animal model of Henipavirus infection. The applied chemical modifications are also predicted to increase the serum half-life in vivo and should increase the chance of success in the development of an effective antiviral therapy.
- Subjects :
- Animals
Chlorocebus aethiops
Glycoproteins antagonists & inhibitors
Glycoproteins genetics
HeLa Cells
Henipavirus physiology
Humans
Inhibitory Concentration 50
Models, Biological
Vero Cells
Viral Envelope Proteins genetics
Antiviral Agents chemical synthesis
Antiviral Agents pharmacology
Henipavirus drug effects
Peptides chemical synthesis
Peptides pharmacology
Viral Envelope Proteins antagonists & inhibitors
Virus Internalization drug effects
Subjects
Details
- Language :
- English
- ISSN :
- 1743-422X
- Volume :
- 2
- Database :
- MEDLINE
- Journal :
- Virology journal
- Publication Type :
- Academic Journal
- Accession number :
- 16026621
- Full Text :
- https://doi.org/10.1186/1743-422X-2-57