Pushing the Boundaries of Structural Heterogeneity with the Lipid A of Marine Bacteria <i>Cellulophaga</i>-Reference-Cited by-同舟云学术

Pushing the Boundaries of Structural Heterogeneity with the Lipid A of Marine Bacteria Cellulophaga

Published:2023-04-21 Issue:10 Volume:24 Page:
ISSN:1439-4227
Container-title:ChemBioChem
language:en
Short-container-title:ChemBioChem

Author:

Cirella Roberta¹,Pagliuca Chiara²,Pither Molly Dorothy¹,Scaglione Elena²,Nedashkovskaya Olga I.³,Chernikov Oleg V.³,Hua Kuo‐Feng⁴,Colicchio Roberta²,Vitiello Mariateresa²,Kokoulin Maxim S.³,Silipo Alba¹⁵,Salvatore Paola²⁵⁶,Molinaro Antonio¹⁵,Di Lorenzo Flaviana¹⁵

Affiliation:

1. Department of Chemical Sciences University of Naples Federico II via Cinthia 4 80126 Naples Italy

2. Department of Molecular Medicine and Medical Biotechnologies University of Naples Federico II Via S. Pansini, 5 80131 Naples Italy

3. G.B. Elyakov Pacific Institute of Bioorganic Chemistry Far Eastern Branch Russian Academy of Sciences 159/2, Prospect 100 Let Vladivostoku 690022 Vladivostok Russia

4. Department of Biotechnology and Animal Science National Ilan University No. 1, Sec. 1, Shen-Lung Road Ilan 26099 Taiwan

5. Task Force on Microbiome Studies University of Naples Federico II

6. CEINGE-Biotecnologie Avanzate Franco Salvatore s.c.ar.l. Via G. Salvatore, 436 80131 Naples Italy

Abstract

AbstractMarine bacteria, which are often described as chemical gold, are considered an exceptional source of new therapeutics. Considerable research interest has been given to lipopolysaccharides (LPSs), the main components of the Gram‐negative outer membrane. LPS and its lipid A portion from marine bacteria are known to exhibit a tricky chemistry that has been often associated with intriguing properties such as behaving as immune adjuvants or anti‐sepsis molecules. In this scenario, we report the structural determination of the lipid A from three marine bacteria within the Cellulophaga genus, which showed to produce an extremely heterogenous blend of tetra‐ to hexa‐acylated lipid A species, mostly carrying one phosphate and one D‐mannose on the glucosamine disaccharide backbone. The ability of the three LPSs in activating TLR4 signaling revealed a weaker immunopotential by C. baltica NNO 15840T and C. tyrosinoxydans EM41T, while C. algicola ACAM 630T behaved as a more potent TLR4 activator.

Publisher

Wiley

Subject

Organic Chemistry,Molecular Biology,Molecular Medicine,Biochemistry

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