The Brucella abortus Cyclic β-1,2-Glucan Virulence Factor Is Substituted with O-Ester-Linked Succinyl Residues

Abstract: Brucella periplasmic cyclic ␤-1,2-glucan plays an important role during bacterium-host interaction. Nuclear magnetic resonance spectrometry analysis, thin-layer chromatography, and DEAE-Sephadex chromatography were used to characterize Brucella abortus cyclic glucan. In the present study, we report that a fraction of B. abortus cyclic ␤-1,2-glucan is substituted with succinyl residues, which confer anionic character on the cyclic ␤-1,2-glucan. The oligosaccharide backbone is substituted at C-6 positions with a… Show more

“…Moreover, we have previously observed that a B. abortus cgm mutant unable to succinylate glucans produced only neutral C␤G with the same size distribution as the wild-type strain (2).These evidences ruled out the possibility that mutants in the C-terminal region were affected in C␤G modification.…”

“…Removal of substituents from the wild-type anionic C␤G fraction recovered from the TLC plates by mild alkaline treatment yielded neutral glucans with the same DP of those of the nonsubstituted fraction, thus indicating that succinylation was not affected by ring size (2). Moreover, we have previously observed that a B. abortus cgm mutant unable to succinylate glucans produced only neutral C␤G with the same size distribution as the wild-type strain (2).These evidences ruled out the possibility that mutants in the C-terminal region were affected in C␤G modification.…”

“…Common features of these oligosaccharides are the presence of glucose as the sole sugar constituent and the regulation of their synthesis by the osmolarity of the growth media. Osmoregulated periplasmic glucans may be cyclic, branched cyclic, or branched linear and, depending on the species, may be substituted with a variety of nonglycosidic residues (1,2). Agrobacterium, Rhizobium, Sinorhizobium, and Brucella species synthesize osmoregulated periplasmic glucans of family II.…”

“…Agrobacterium, Rhizobium, Sinorhizobium, and Brucella species synthesize osmoregulated periplasmic glucans of family II. Glucans of this family have 17-25 glucose residue cyclic ␤-1,2-backbones substituted with sn-1-phosphoglycerol, succinic acid, methylmalonic acid, or a combination of them (1)(2)(3).…”

A glycosyltransferase with a length-controlling activity as a mechanism to regulate the size of polysaccharides

“…Moreover, we have previously observed that a B. abortus cgm mutant unable to succinylate glucans produced only neutral C␤G with the same size distribution as the wild-type strain (2).These evidences ruled out the possibility that mutants in the C-terminal region were affected in C␤G modification.…”

“…Removal of substituents from the wild-type anionic C␤G fraction recovered from the TLC plates by mild alkaline treatment yielded neutral glucans with the same DP of those of the nonsubstituted fraction, thus indicating that succinylation was not affected by ring size (2). Moreover, we have previously observed that a B. abortus cgm mutant unable to succinylate glucans produced only neutral C␤G with the same size distribution as the wild-type strain (2).These evidences ruled out the possibility that mutants in the C-terminal region were affected in C␤G modification.…”

“…Common features of these oligosaccharides are the presence of glucose as the sole sugar constituent and the regulation of their synthesis by the osmolarity of the growth media. Osmoregulated periplasmic glucans may be cyclic, branched cyclic, or branched linear and, depending on the species, may be substituted with a variety of nonglycosidic residues (1,2). Agrobacterium, Rhizobium, Sinorhizobium, and Brucella species synthesize osmoregulated periplasmic glucans of family II.…”

“…Agrobacterium, Rhizobium, Sinorhizobium, and Brucella species synthesize osmoregulated periplasmic glucans of family II. Glucans of this family have 17-25 glucose residue cyclic ␤-1,2-backbones substituted with sn-1-phosphoglycerol, succinic acid, methylmalonic acid, or a combination of them (1)(2)(3).…”

A glycosyltransferase with a length-controlling activity as a mechanism to regulate the size of polysaccharides

“…In addition, the backbone of the PGs is substituted at the C-6 positions with an average of two succinyl resides per molecule. Moreover, the succinyl substituents of cyclic β-(1,2)-glucans in B. abortus are known to be necessary for hypo-osmotic adaptation (28). In Family IV, novel PGs substituted with non-sugar residues http://bmbreports.org BMB reports have recently been found in X. campestris, R. solanacearum and R. sphaeroides.…”

Periplasmic glucans isolated from Proteobacteria

Brucella abortus, a Pathogenic Rhizobiale with a Complex Cell Cycle