Interaction of Escherichia coli heat-labile enterotoxin B-pentamer with exopolysaccharides from Leuconostoc mesenteroides P35: Insights from surface plasmon resonance and molecular docking studies
Résumé
In this study, the interaction of exopolysaccharides from Leuconostoc mesenteroides P35 (EPS-LM) with Escherichia coli heat-labile enterotoxin B-pentamer (LTB) was investigated at different concentrations and temperatures by using surface plasmon resonance (SPR) and molecular docking approaches. FT-IR spectral analysis together with HPTLC analysis revealing that glucose is the only constitutive monosaccharide of EPS-LM suggests that its structure is composed of dextran with α-D (1 → 6) glycosidic linkages. SPR analysis revealed the high affinity of EPS-LM for immobilized LTB toxin (KA=(2.05 ± 0.04) × 106 mol.L−1 at 37°C). The binding process was spontaneous (ΔG<0), endothermic (ΔH>0), and entropy-driven (ΔS>0) with an increase of KA with temperature. This suggests that EPS-LM - LTB interaction is dominated by hydrophobic forces. The binding affinity of EPS-LM to LTB had negligible dependence on enthalpy (ΔH = 0.084 kJ mol−1). Further, molecular docking results suggested the presence of some binding sites of EPS-LM on the LTB through hydrophobic forces (Lys, Asp, Arg, Glu) and also hydrogen bonding (Glu) in the hydrophobic core of LTB. Besides autodock studies, Schiffer-Edmundson helical wheel diagrams of LTB in α-helix domain suggested that LTB hydrophobic core is a highly effective region, which was able to form favorable non-polar interactions of the protein's binding surface (with amino acids residues such as Tyr, Leu, Ile) with EPS-LM. This study provided thus further insights into the interactions between EPS-LM and LTB, suggesting that EPS produced by some LAB, such as EPS produced by Ln. mesenteroides P35 strain are good candidates to inhibit E. coli toxin activity.
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