Title
Structural conformation and self‐assembly process of p31‐43 gliadin peptide in aqueous solution. Implications for celiac disease
Author
María Georgina Herrera, María Florencia Gómez Castro. Eduardo Prieto, Exequiel Barrera, Verónica I. Dodero, Sergio Pantano, Fernando Chirdo
Year
2019
Journal
The FEBS Journal
Abstract
Celiac Disease (CeD) is a highly prevalent chronic immune‐mediated enteropathy developed in genetically predisposed individuals after ingestion of a group of wheat proteins (called gliadins and glutenins). The 13mer α‐gliadin peptide, p31‐43, induces proinflammatory responses, observed by in vitro assays and animal models, that may contribute to innate immune mechanisms of CeD pathogenesis. Since a cellular receptor for p31‐43 has not been identified, this raises the question of whether this peptide could mediate different biological effects. In this work, we aimed to characterize the p31‐43 secondary structure by different biophysical and in silico techniques. By Dynamic Light Scattering (DLS) and using an oligomer/fibril‐sensitive fluorescent probe, we showed the presence of oligomers of this peptide in solution. Furthermore, Atomic Force Microscopy (AFM) analysis showed p31‐43 oligomers with different height distribution. Also, peptide concentration had a very strong influence on peptide self‐organization process. Oligomers gradually increased their size at lower concentration. Whereas, at higher ones, oligomers increased their complexity, forming branched structures. By Circular Dichroism, we observed that p31‐43 self‐organized in a poly‐proline II conformation in equilibrium with β‐sheets‐like structures, whose pH remained stable in the range of 3 to 8. In addition, these findings were supported by Molecular Dynamics Simulation. The formation of p31‐43 nanostructures with increased β‐sheet structure may help to explain the molecular etiopathogenesis in the induction of pro‐inflammatory effects and subsequent damage at the intestinal mucosa in CeD.
Instrument
FP-8300, J-810
Keywords
Fluorescence, Ligand binding, Protein structure, Aggregation, Circular dichroism, Secondary structure, Chemical stability, Thermal stability, Biochemistry