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TLR 2/1 interaction of pectin depends on its chemical structure and conformation

Éva Jermendi, Cynthia Fernández‐Lainez, Martin Beukema, Gabriel López‐Velázquez, M. A. Berg, Paul de Vos, Henk A. Schols

2022Carbohydrate Polymers36 citationsDOIOpen Access PDF

Abstract

Citrus pectins have demonstrated health benefits through direct interaction with Toll-like receptor 2. Methyl-ester distribution patterns over the homogalacturonan were found to contribute to such immunomodulatory activity, therefore molecular interactions with TLR2 were studied. Molecular-docking analysis was performed using four GalA-heptamers, GalA7Me0, GalA7Me1,6, GalA7Me1,7 and GalA7Me2,5. The molecular relations were measured in various possible conformations. Furthermore, commercial citrus pectins were characterized by enzymatic fingerprinting using polygalacturonase and pectin-lyase to determine their methyl-ester distribution patterns. The response of 12 structurally different pectic polymers on TLR2 binding and the molecular docking with four pectic oligomers clearly demonstrated interactions with human-TLR2 in a structure-dependent way, where blocks of (non)methyl-esterified GalA were shown to inhibit TLR2/1 dimerization. Our results may be used to understand the immunomodulatory effects of certain pectins via TLR2. Knowledge of how pectins with certain methyl-ester distribution patterns bind to TLRs may lead to tailored pectins to prevent inflammation.

Topics & Concepts

PectinChemistryDocking (animal)Molecular modelStereochemistryTLR2BiochemistryPectinasePolymerChemical structureReceptorEnzymeOrganic chemistryNursingTLR4MedicinePolysaccharides and Plant Cell WallsMicrobial Metabolites in Food BiotechnologyPlant-Microbe Interactions and Immunity
TLR 2/1 interaction of pectin depends on its chemical structure and conformation | Litcius