Targeting prolyl endopeptidase with valproic acid as a potential modulator of neutrophilic inflammation.

Academic Article

Abstract

  • A novel neutrophil chemoattractant derived from collagen, proline-glycine-proline (PGP), has been recently characterized in chronic obstructive pulmonary disease (COPD). This peptide is derived via the proteolytic activity of matrix metalloproteases (MMP's)-8/9 and PE, enzymes produced by neutrophils and present in COPD serum and sputum. Valproic acid (VPA) is an inhibitor of PE and could possibly have an effect on the severity of chronic inflammation. Here the interaction site of VPA to PE and the resulting effect on the secondary structure of PE is investigated. Also, the potential inhibition of PGP-generation by VPA was examined in vitro and in vivo to improve our understanding of the biological role of VPA. UV-visible, fluorescence spectroscopy, CD and NMR were used to determine kinetic information and structural interactions between VPA and PE. In vitro, PGP generation was significantly inhibited by VPA. In vivo, VPA significantly reduced cigarette-smoke induced neutrophil influx. Investigating the molecular interaction between VPA and PE showed that VPA modified the secondary structure of PE, making substrate binding at the catalytic side of PE impossible. Revealing the molecular interaction VPA to PE may lead to a better understanding of the involvement of PE and PGP in inflammatory conditions. In addition, the model of VPA interaction with PE suggests that PE inhibitors have a great potential to serve as therapeutics in inflammatory disorders.
  • Published In

  • PLoS ONE  Journal
  • Keywords

  • Animals, Collagen, Female, Humans, Inflammation, Mice, Neutrophils, Protein Structure, Secondary, Pulmonary Disease, Chronic Obstructive, Serine Endopeptidases, Serine Proteinase Inhibitors, Smoke, Tobacco, Valproic Acid
  • Digital Object Identifier (doi)

    Author List

  • Abdul Roda M; Sadik M; Gaggar A; Hardison MT; Jablonsky MJ; Braber S; Blalock JE; Redegeld FA; Folkerts G; Jackson PL
  • Start Page

  • e97594
  • Volume

  • 9
  • Issue

  • 5