Dietary Fiber Pectin Directly Blocks Toll-Like Receptor 2-1 and Prevents Doxorubicin-Induced Ileitis.

Neha M Sahasrabudhe,Lingmin Tian,Anton Scheurink,Martin Beukema,Geert Bruggeman,Berit Troost,Jan Scholte,Paul De Vos,Erik Bruininx,Marco Van Den Berg,Marijke M Faas,Henk A Schols

doi:10.3389/fimmu.2018.00383

Abstract

Dietary carbohydrate fibers are known to prevent immunological diseases common in Western countries such as allergy and asthma but the underlying mechanisms are largely unknown. Until now beneficial effects of dietary fibers are mainly attributed to fermentation products of the fibers such as anti-inflammatory short-chain fatty acids (SCFAs). Here, we found and present a new mechanism by which dietary fibers can be anti-inflammatory: a commonly consumed fiber, pectin, blocks innate immune receptors. We show that pectin binds and inhibits, toll-like receptor 2 (TLR2) and specifically inhibits the proinflammatory TLR2–TLR1 pathway while the tolerogenic TLR2–TLR6 pathway remains unaltered. This effect is most pronounced with pectins having a low degree of methyl esterification (DM). Low-DM pectin interacts with TLR2 through electrostatic forces between non-esterified galacturonic acids on the pectin and positive charges on the TLR2 ectodomain, as confirmed by testing pectin binding on mutated TLR2. The anti-inflammatory effect of low-DM pectins was first studied in human dendritic cells and mouse macrophages in vitro and was subsequently tested in vivo in TLR2-dependent ileitis in a mouse model. In these mice, ileitis was prevented by pectin administration. Protective effects were shown to be TLR2–TLR1 dependent and independent of the SCFAs produced by the gut microbiota. These data suggest that low-DM pectins as a source of dietary fiber can reduce inflammation through direct interaction with TLR2–TLR1 receptors.

Highlights

Lower intake of dietary fiber by Westerners [1] coincides with a higher prevalence of certain diseases, such as diabetes [2], obesity [3], asthma [4], allergies [5], inflammatory bowel disease [6], and colorectal cancer [7]
Pectin Inhibits toll-like receptor 2 (TLR2) Signaling in a Degree of Methyl Esterification and Concentration-Dependent Manner
Much attention has been focused on effects of microbial degradation products of dietary fibers such as immune regulatory Short-chain fatty acids (SCFAs) [45, 46] but as shown here this cannot explain all the immune effects of widely consumed dietary fibers such as pectins which does not enhance SCFA but still exhibits a pronounced anti-inflammatory effect

Summary

Introduction

Lower intake of dietary fiber by Westerners [1] coincides with a higher prevalence of certain diseases, such as diabetes [2], obesity [3], asthma [4], allergies [5], inflammatory bowel disease [6], and colorectal cancer [7]. A number of these typical Western diseases, including asthma, allergies, and inflammatory bowel diseases have an immunological basis [8]. Lower consumption of dietary fibers has Pectin Inhibits TLR2–TLR1 been proposed as the leading cause for the rise in immunological disorders in western societies [8,9,10]. Dietary fibers may serve as fermentation substrate for gut microbiota, which generate SCFAs that in turn attenuate inflammation by enhancing numbers of immune regulatory Treg cells in the intestine [12]. More knowledge on mechanisms of beneficial effects of dietary fibers is required for a better insight in their potential application for health promoting effects

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Results

Conclusion