Structural basis for adaptation of lactobacilli to gastrointestinal mucus

Etzold, Sabrina; Kober, Olivia I.; MacKenzie, Donald; Tailford, Louise E.; Gunning, A. Patrick; Walshaw, John; Hemmings, Andrew M.; Juge, Nathalie

doi:10.1111/1462-2920.12377

Cited by 97 publications

(106 citation statements)

References 82 publications

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“…MUB is a large, modular, cell surface protein (~350 kDa) made up of 14 Mub repeats of ~20 kDa, divided in two types (Mub1 and Mub2) based on sequence identity and an N-terminal domain of unknown function [24,25]. Small angle X-ray scattering (SAXS) and atomic force microscopy (AFM) demonstrated a “beads on a string” arrangement of the Mub repeats, generating ~174 nm long protein fibrils [26]. The binding of the full-length MUB to mucus appears to be mediated via multiple interactions involving terminal sialylated mucin glycans, as shown by the net reduction in MUB adhesion to (1) mucin-secreting epithelial cells grown in the presence of an inhibitor of sialylation; or to (2) mammalian intestinal tissue after chemical desialylation [26].…”

Section: Introductionmentioning

confidence: 99%

“…Small angle X-ray scattering (SAXS) and atomic force microscopy (AFM) demonstrated a “beads on a string” arrangement of the Mub repeats, generating ~174 nm long protein fibrils [26]. The binding of the full-length MUB to mucus appears to be mediated via multiple interactions involving terminal sialylated mucin glycans, as shown by the net reduction in MUB adhesion to (1) mucin-secreting epithelial cells grown in the presence of an inhibitor of sialylation; or to (2) mammalian intestinal tissue after chemical desialylation [26]. However, direct measurements of MUB binding to mucin glycans are lacking.…”

Section: Introductionmentioning

confidence: 99%

“…Methodologies to screen for bacterial adhesion to mucins have previously employed thin layer chromatography overlay [26], enzyme-linked immunosorbent assay [15], micro-titre plate assays [8,25,27], surface plasmon resonance [16,28,29,30,31], fluorescence spectroscopy [20], mucin microarrays [32], flow cytometry [33], and cell-based assays [26,34,35,36]. However, due to the complexity and diversity of mucin glycosylation, these methods typically provide qualitative binding data indicating only presence or absence of interaction.…”

Section: Introductionmentioning

confidence: 99%

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Use of Atomic Force Microscopy to Study the Multi-Modular Interaction of Bacterial Adhesins to Mucins

Gunning

Kavanaugh

Thursby

et al. 2016

IJMS

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The mucus layer covering the gastrointestinal (GI) epithelium is critical in selecting and maintaining homeostatic interactions with our gut bacteria. However, the molecular details of these interactions are not well understood. Here, we provide mechanistic insights into the adhesion properties of the canonical mucus-binding protein (MUB), a large multi-repeat cell–surface adhesin found in Lactobacillus inhabiting the GI tract. We used atomic force microscopy to unravel the mechanism driving MUB-mediated adhesion to mucins. Using single-molecule force spectroscopy we showed that MUB displayed remarkable adhesive properties favouring a nanospring-like adhesion model between MUB and mucin mediated by unfolding of the multiple repeats constituting the adhesin. We obtained direct evidence for MUB self-interaction; MUB–MUB followed a similar binding pattern, confirming that MUB modular structure mediated such mechanism. This was in marked contrast with the mucin adhesion behaviour presented by Galectin-3 (Gal-3), a mammalian lectin characterised by a single carbohydrate binding domain (CRD). The binding mechanisms reported here perfectly match the particular structural organization of MUB, which maximizes interactions with the mucin glycan receptors through its long and linear multi-repeat structure, potentiating the retention of bacteria within the outer mucus layer.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Use of Atomic Force Microscopy to Study the Multi-Modular Interaction of Bacterial Adhesins to Mucins

Gunning

Kavanaugh

Thursby

et al. 2016

IJMS

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“…The MucBD-containing proteins have been predominantly identified in lactobacilli that are naturally found in intestinal niches 16) and promote cell adhesion to mucins. [17][18][19] However, the cell wall surface anchor-containing MBF adhesion properties to intestinal mucosa-associated components, including ECM proteins, are poorly studied in L. rhamnosus. We previously described the properties of 25 potential probiotic L. rhamnosus strains isolated from traditional Indonesian foods, including fermented Sumbawa mare milk (FSMM) produced on Sumbawa Island.…”

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confidence: 99%

Adhesion properties of Lactobacillus rhamnosus mucus-binding factor to mucin and extracellular matrix proteins

Nishiyama

Nakamata

Ueno

et al. 2015

Bioscience, Biotechnology, and Biochemistry

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We previously described potential probiotic Lactobacillus rhamnosus strains, isolated from fermented mare milk produced in Sumbawa Island, Indonesia, which showed high adhesion to porcine colonic mucin (PCM) and extracellular matrix (ECM) proteins. Recently, mucus-binding factor (MBF) was found in the GG strain of L. rhamnosus as a mucin-binding protein. In this study, we assessed the ability of recombinant MBF protein from the FSMM22 strain, one of the isolates of L. rhamnosus from fermented Sumbawa mare milk, to adhere to PCM and ECM proteins by overlay dot blot and Biacore assays. MBF bound to PCM, laminin, collagen IV, and fibronectin with submicromolar dissociation constants. Adhesion of the FSMM22 mbf mutant strain to PCM and ECM proteins was significantly less than that of the wild-type strain. Collectively, these results suggested that MBF contribute to L. rhamnosus host colonization via mucin and ECM protein binding.

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“…Adhesion to intestinal mucus is a wanted attribute for probiotic bacteria, as it increases persistence in the GIT (Gastrointestinal Tract) and the aptitude to colonize intestine efficiently [16,17]. In vitro assay facilitates a preliminary selection of strains with probiotic potential, focusing on significant features as adhesion and safety properties, antibiotics susceptibility.…”

Section: Introductionmentioning

confidence: 99%

Safety and Antioxidant Properties of Five Probiotic <i>Lactobacillus plantarum</i> Strains Isolated from the Digestive Tract of Honey Bees

Kenfack¹,

Ngoufack²,

Kaktcham³

et al. 2018

AJMR

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The objective of this study was the evaluation of safety, adhesion and antioxidant properties of five L. plantarum strains isolated from the digestive tract of honey bees. The set of variables generated from this study was submitted to a normalized Pearson (n) Principal Component Analysis (PCA). The five L. plantarum strains showed no gelatinase activity and were checked to be non-hemolytic. They were susceptible to chloramphenicol, amoxicillin, penicillin G and tetracycline. The MICs were ranged between 1-4 µg/ml for erythromycin and resistance was observed among 80% of strains (L. plantarum H15, H21, H24, and H28). A significantly high percentage of hydrophobicity in n-hexane was observed with L. plantarum H47 (71.99±1.39) followed by L. plantarum H28 (65.68±1.49) while the highest value in the presence of chloroform, belonging L. plantarum H24 and L. plantarum H28 (28.39±0.88 and 23.58±0.68 respectively). Both the Intact Cells (ICs) and Cell-Free Supernatants (CFSs) of L. plantarum H24 strain displayed the higher percentage (p 0.05) of DPPH radical scavenging activity (76.58±0.55% and 59.13±4.01% respectively). With the HRS activity, ICs of L. plantarum H24 strain exhibited the highest (p > 0.05) activity (73.37±0.62%) whereas, the CFS of L. plantarum H47 was the best (29.49±1.28%, p > 0.05). In allpurpose, based on PCA, L. plantarum H28, and L. plantarum H24 seem to be quite promising as they possessed the best properties tested. Accordingly, they can be chosen as representative of the potential probiotic strains.

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Structural basis for adaptation of lactobacilli to gastrointestinal mucus

Cited by 97 publications

References 82 publications

Use of Atomic Force Microscopy to Study the Multi-Modular Interaction of Bacterial Adhesins to Mucins

Use of Atomic Force Microscopy to Study the Multi-Modular Interaction of Bacterial Adhesins to Mucins

Adhesion properties of Lactobacillus rhamnosus mucus-binding factor to mucin and extracellular matrix proteins

Safety and Antioxidant Properties of Five Probiotic <i>Lactobacillus plantarum</i> Strains Isolated from the Digestive Tract of Honey Bees

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