2016
DOI: 10.1093/glycob/cww068
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Discovery and characterization ofde novosialic acid biosynthesis in the phylumFusobacterium

Abstract: Sialic acids are nine-carbon backbone carbohydrates found in prominent outermost positions of glycosylated molecules in mammals. Mimicry of sialic acid (N-acetylneuraminic acid, Neu5Ac) enables some pathogenic bacteria to evade host defenses. Fusobacterium nucleatum is a ubiquitous oral bacterium also linked with invasive infections throughout the body. We employed multidisciplinary approaches to test predictions that F. nucleatum engages in de novo synthesis of sialic acids. Here we show that F. nucleatum sbs… Show more

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Cited by 15 publications
(9 citation statements)
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“…We have been undertaking a study to establish O-antigen structures of the F. nucleatum LPS in order to develop a better understanding of the surface glycochemistry of this emerging pathogen and recently established the O-antigen repeating unit structure for F. nucleatum subspecies nucleatum strain 25586 [16]. In this study, we performed structural characterization of the O-antigen of F. nucleatum subspecies polymorphum strain 10953 and identified sialic acid as a component of the O-antigen repeat, consistent with the recent identification of de novo sialic acid biosynthesis in this strain [17]. …”
Section: Introductionsupporting
confidence: 73%
“…We have been undertaking a study to establish O-antigen structures of the F. nucleatum LPS in order to develop a better understanding of the surface glycochemistry of this emerging pathogen and recently established the O-antigen repeating unit structure for F. nucleatum subspecies nucleatum strain 25586 [16]. In this study, we performed structural characterization of the O-antigen of F. nucleatum subspecies polymorphum strain 10953 and identified sialic acid as a component of the O-antigen repeat, consistent with the recent identification of de novo sialic acid biosynthesis in this strain [17]. …”
Section: Introductionsupporting
confidence: 73%
“…Sialic acid has been demonstrated to shield pathogens from host immune responses by interacting with the sialic acid-binding proteins of the host. For example, Group B Streptococcus (GBS) can evade host responses and proliferate in blood due to capsular polysaccharide displaying sialic acid residues (Chang et al, 2014; Lewis et al, 2016). C. hepaticus harbors a sialic acid biosynthetic gene locus (UDP-GlcNAc converts to ManNAc, then converts to Neu5 Ac, followed by CMP-Neu5Ac, with the action of NeuC (EC 5.1.3.14), NeuB (EC 2.5.1.56) and NeuA (N-Acetylneuraminate cytidylyltransferase, EC 2.7.7.43, respectively).…”
Section: Discussionmentioning
confidence: 99%
“…Free sialic acid (released by hydrolysis to the environment), can be used by bacteria in catabolic fermentation or oxidation (Vimr, 2013). Some bacteria such as E. coli K1, certain serotypes of N. meningitidis (Vimr, 2013), Fusobacterium (Lewis et al, 2016), or Campylobacter jejuni (Thomas, 2016) are able to synthesize sialic acid de novo, independently from the host.…”
Section: Sources Of Acquisition Of Neu5ac By Bacterial Pathogensmentioning
confidence: 99%