2018
DOI: 10.1002/chem.201804862
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Synthesis of the Core Oligosaccharides of Lipooligosaccharides from Campylobacter jejuni: A Putative Cause of Guillain–Barré Syndrome

Abstract: The chemical synthesis of the highly branched core oligosaccharides of lipooligosaccharides (LOSs) found in Campylobacter jejuni, which causes Guillain–Barré syndrome by a preceding infection, is described. The target LOS mimics, consisting of eight or nine monosaccharides, were classified into three groups as key building blocks: ganglioside‐core tetra‐/pentasaccharides (GM1‐/GD1a‐like), l‐glycero‐d‐manno‐heptose‐containing trisaccharides, and 3‐deoxy‐d‐manno‐2‐octulosonic acid (KDO) residues. These synthetic… Show more

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Cited by 14 publications
(11 citation statements)
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“…The chemical synthesis of the inner core hexasaccharide 1 is challenging due to the low acceptor reactivity of the C5-hydroxyl of Kdo-α-(2→4)-Kdo acceptor 29 and the need to install glycosidic bonds to form a highly crowded 3,4-branched heptoside. , We envisaged that fully protected hexasaccharide 1 could be synthesized by a convergent and stereocontrolled [4 + 2] approach (Scheme ) relying on the use of flexible disaccharide intermediate 26 , which is modified by the orthogonal protecting groups 2-naphthylmethyl (Nap) ether, chloroacetyl (ClAc) ester, and allyl (All) ether. The ability to remove the Nap ether and ClAc ester protecting groups in different orders made it possible to establish the optimal glycosylation sequence, using glycosyl 27 and 28 , to prepare tetrasaccharide 41 having a crowded 3,4-branched heptoside.…”
Section: Results and Discussionmentioning
confidence: 99%
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“…The chemical synthesis of the inner core hexasaccharide 1 is challenging due to the low acceptor reactivity of the C5-hydroxyl of Kdo-α-(2→4)-Kdo acceptor 29 and the need to install glycosidic bonds to form a highly crowded 3,4-branched heptoside. , We envisaged that fully protected hexasaccharide 1 could be synthesized by a convergent and stereocontrolled [4 + 2] approach (Scheme ) relying on the use of flexible disaccharide intermediate 26 , which is modified by the orthogonal protecting groups 2-naphthylmethyl (Nap) ether, chloroacetyl (ClAc) ester, and allyl (All) ether. The ability to remove the Nap ether and ClAc ester protecting groups in different orders made it possible to establish the optimal glycosylation sequence, using glycosyl 27 and 28 , to prepare tetrasaccharide 41 having a crowded 3,4-branched heptoside.…”
Section: Results and Discussionmentioning
confidence: 99%
“…Here, we introduce a synthetic strategy that addressed the latter deficiency and made it possible to prepare an unprecedented collection of ganglio-oligosaccharides ( 14 – 25 ). It was expected that the galactosyl moiety of inner-core oligosaccharide 1 would provide a proper starting structure for extension by the glycosyltransferases , and was amenable to our strategy to give access to ganglioside mimics 2 – 12 .…”
Section: Results and Discussionmentioning
confidence: 99%
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“…10,11 The basis for these post-acute immune-mediated disorders is thought to be largely based on cross-reactivity between antibodies directed against C. jejuni surface lipooligosaccharide (LOS) and human cell surface gangliosides, and this relationship has been reviewed extensively. [12][13][14] Several C. jejuni genomes have been sequenced from laboratory-adapted and clinical strains and several features remain consistent; the organism encodes B1620-1650 genes, a large proportion of which encode membrane-associated proteins that are poorly functionally annotated. [15][16][17] Human infection is not completely understood but involves bacterial adherence to gut epithelial cells, followed by invasion and subsequent toxin production.…”
Section: Introductionmentioning
confidence: 99%