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Structure of the O-polysaccharide of Proteus mirabilis O19 and reclassification of certain Proteus strains that were formerly classified in serogroup O19

100%
Perepelov A. V., Rozalski A., Bartodziejska B., Senchenkova S. N., Knirel Y. A.
Archivum Immunologiae et Therapiae Experimentalis
|
2004
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vol. 52
|
issue 3
188-196
EN
Bacteria of the genus Proteus are a common cause of urinary tract infections. The O-polysaccharide chain of their LPS (O-antigen) defines the serological specificity of these bacteria. Based on the immunospecificity of the O-antigens, two species, P. mirabilis and P. vulgaris, were classified into 49 O-serogroups, and more O-serogroups for strains of these species and P. penneri have been subsequently proposed. The lipopolysaccharide of P. mirabilis CCUG 19011 from serogroup O19 was degraded and under mildly acidic and mildly alkaline conditions. Polysaccharides thus obtained were studied by chemical methods, including O-deacetylation, sugar and methylation analyses, and 1H- and 13C-NMR spectroscopy. Antisera were obtained by immunization of New Zealand white rabbits with heat-killed bacteria. In serological studies, enzyme immunosorbent assay, passive hemolysis test, and inhibition of passive hemolysis were used.The following structure of the O-polysaccharide repeating unit was established. ->3)-beta-D-GlcpNAc-(1->3)alpha-D-GalpNAc4,6(R-Pyr)-(1->4)-alpha-D-GalpA-(1->3)-alpha-L-Rhap2Ac-(1-> where R-Pyr is (R)-1-carboxyethylidene (an acetal-linked pyruvic acid). This structure is significantly different from the O-polysaccharide structures of P. vulgaris, P. hauseri and P. penneri strains from the same Proteus serogroup O19. Conclusions: Based on immunochemical studies of the lipopolysaccharides, it is suggested 1) to keep P. vulgaris CCUG 4654 and P. penneri 31 in serogroup O19 as two subgroups, 2) to reclassify P. mirabilis CCUG 19011 into a new Proteus serogroup, O51, and 3) to classify serologically related strains, including P. vulgaris ATCC 49990, P. hauseri 1732-80 and 1086-80, P. penneri 15, and some other P. penneri strains, in yet another Proteus serogroup, O52. This structure is significantly different from the O-polysaccharide structures of P. vulgaris, P. hauseri and P. penneri strains from the same Proteus serogroup O19. Based on immunochemical studies of the lipopolysaccharides, it is suggested 1) to keep P. vulgaris CCUG 4654 and P. penneri 31 in serogroup O19 as two subgroups, 2) to reclassify P. mirabilis CCUG 19011 into a new Proteus serogroup, O51, and 3) to classify serologically related strains, including P. vulgaris ATCC 49990, P. hauseri 1732-80 and 1086-80, P. penneri 15, and some other P. penneri strains, in yet another Proteus serogroup, O52.
2

Immunochemical studies on the O-antigens of Proteus mirabilis O23 and Proteus vulgaris O23

86%
Rozalski A., Perepelov A. V., Bartodziejska B., Senchenkova S. N., Babicka D., Kaca W., Knirel Y. A.
Archivum Immunologiae et Therapiae Experimentalis
|
2003
|
vol. 51
|
issue 1
69-73
EN
Analysis by 1H and 13C nuclear magnetic resonance (NMR) spectroscopy demonstrated that the O-specific polysaccharides of P. mirabilis PrK 42/57 and P. vulgaris PrK 43/57 are structurally similar to that of P. vulgaris PrK 44/57 and different from the polysaccharide of P. mirabilis PrK 41/57 studied earlier. The lipopolysaccharides of these strains were tested using enzyme immunosorbent assay, passive hemolysis and Western blot with O-antisera against P. mirabilis 42/57 and P. vulgaris 43/57 and 44/57, as well as with cross-absorbed O-antisera. The chemical and serological data revealed the basis for combining the four strains into Proteus serogroup O23 and division of this serogroup to three subgroups, one for P. vulgaris 43/57 and 44/57 and two others for P. mirabilis 41/57 and 42/57.
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