Veillonella parvula, prototypical member of the oral and gut microbiota, is at times commensal yet also potentially pathogenic. The definition of the molecular basis tailoring this contrasting behavior is key for broadening our understanding of the microbiota-driven pathogenic and/or tolerogenic mechanisms that take place within our body. In this study, we focused on the chemistry of the main constituent of the outer membrane of V. parvula, the lipopolysaccharide (LPS). LPS molecules indeed elicit pro-inflammatory and immunomodulatory responses depending on their chemical structures. Herein we report the structural elucidation of the LPS from two strains of V. parvula and show important and unprecedented differences in both the lipid and carbohydrate moieties, including the identification of a novel galactofuranose and mannitol-containing O-antigen repeating unit for one of the two strains. Furthermore, by harnessing computational studies, in vitro human cell models, as well as lectin binding solid-phase assays, we discovered that the two chemically diverse LPS immunologically behave differently and have attempted to identify the molecular determinant(s) governing this phenomenon. Whereas pro-inflammatory potential has been evidenced for the lipid A moiety, by contrast a plausible "immune modulating" action has been proposed for the peculiar O-antigen portion.

Pither, M., Andretta, E., Rocca, G., Balzarini, F., Matamoros-Recio, A., Colicchio, R., et al. (2024). Deciphering the Chemical Language of the Immunomodulatory Properties of Veillonella parvula Lipopolysaccharide. ANGEWANDTE CHEMIE. INTERNATIONAL EDITION, 63(17 (April 22, 2024)) [10.1002/anie.202401541].

Deciphering the Chemical Language of the Immunomodulatory Properties of Veillonella parvula Lipopolysaccharide

Rocca G.;Granucci F.;
2024

Abstract

Veillonella parvula, prototypical member of the oral and gut microbiota, is at times commensal yet also potentially pathogenic. The definition of the molecular basis tailoring this contrasting behavior is key for broadening our understanding of the microbiota-driven pathogenic and/or tolerogenic mechanisms that take place within our body. In this study, we focused on the chemistry of the main constituent of the outer membrane of V. parvula, the lipopolysaccharide (LPS). LPS molecules indeed elicit pro-inflammatory and immunomodulatory responses depending on their chemical structures. Herein we report the structural elucidation of the LPS from two strains of V. parvula and show important and unprecedented differences in both the lipid and carbohydrate moieties, including the identification of a novel galactofuranose and mannitol-containing O-antigen repeating unit for one of the two strains. Furthermore, by harnessing computational studies, in vitro human cell models, as well as lectin binding solid-phase assays, we discovered that the two chemically diverse LPS immunologically behave differently and have attempted to identify the molecular determinant(s) governing this phenomenon. Whereas pro-inflammatory potential has been evidenced for the lipid A moiety, by contrast a plausible "immune modulating" action has been proposed for the peculiar O-antigen portion.
Articolo in rivista - Articolo scientifico
Gut microbiota; Immunochemistry; Lipopolysaccharides; Structure–activity relationships; Veillonella;
English
23-feb-2024
2024
63
17 (April 22, 2024)
e202401541
open
Pither, M., Andretta, E., Rocca, G., Balzarini, F., Matamoros-Recio, A., Colicchio, R., et al. (2024). Deciphering the Chemical Language of the Immunomodulatory Properties of Veillonella parvula Lipopolysaccharide. ANGEWANDTE CHEMIE. INTERNATIONAL EDITION, 63(17 (April 22, 2024)) [10.1002/anie.202401541].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/499279
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