Phage-Displayed Peptides Selected to Bind Envelope Glycoprotein Show Antiviral Activity against Dengue Virus Serotype 2.
Carolina de la GuardiaMario QuijadaRicardo Lleonart CruzPublished in: Advances in virology (2017)
Dengue virus is a growing public health threat that affects hundreds of million peoples every year and leave huge economic and social damage. The virus is transmitted by mosquitoes and the incidence of the disease is increasing, among other causes, due to the geographical expansion of the vector's range and the lack of effectiveness in public health interventions in most prevalent countries. So far, no highly effective vaccine or antiviral has been developed for this virus. Here we employed phage display technology to identify peptides able to block the DENV2. A random peptide library presented in M13 phages was screened with recombinant dengue envelope and its fragment domain III. After four rounds of panning, several binding peptides were identified, synthesized, and tested against the virus. Three peptides were able to block the infectivity of the virus while not being toxic to the target cells. Blind docking simulations were done to investigate the possible mode of binding, showing that all peptides appear to bind domain III of the protein and may be mostly stabilized by hydrophobic interactions. These results are relevant to the development of novel therapeutics against this important virus.
Keyphrases
- dengue virus
- zika virus
- public health
- aedes aegypti
- amino acid
- induced apoptosis
- systematic review
- oxidative stress
- pseudomonas aeruginosa
- molecular dynamics
- randomized controlled trial
- physical activity
- mental health
- binding protein
- risk factors
- small molecule
- escherichia coli
- signaling pathway
- molecular dynamics simulations
- dna binding
- protein protein
- cell death
- cell proliferation
- ionic liquid
- endoplasmic reticulum stress
- multidrug resistant
- pi k akt