A Comparative Study of the Sugar Composition of O-antigenic Lipopolysaccharides Isolated from Vibrio alginolyticus and Vibrio parahaemolyticus

A comparative study of the sugar composition of O-antigenic lipopolysaccharides (LPS) isolated from Vibrio alginolyticus and those from V. parahaemolyticus was carried out. 3-Deoxy-d-mannooctulosonic acid, 2-keto-3-deoxy octonate (KDO), a regular sugar constituent of gram-negative bacterial LPS, was totally absent from LPS of all V. alginolyticus strains examined as it was from those of V. parahaemolyticus. Furthermore, a KDO-like thiobarbituric acid test-positive substance, identical with that of either V. parahaemolyticus 07 or 012, was also found in LPS from three strains, 505–78, 905–78, and 1013–79 (designated tentatively as group I), out of the five strains of V. alginolyticus tested. LPS from the members of group I contained, as component sugars, glucose, galactose, l-glycero-d-manno-heptose, glucosamine, galactosamine, the KDO-like substance, and an unidentified amino sugar P1. Thus, LPS of the members of group I possessed a similar sugar composition which is similar to that of LPS from either V. parahaemolyticus 07 or 012. LPS of strain 1027–79, one of the other two strains (designated tentatively as gorup II), contained as component sugars, glucose, l-glycero-d-mannoheptose, glucosamine, galactosamine, and the other unidentified amino sugar P2, while LPS of strain 53–79, the other member of group II, contained galactose as an additional component. The results indicate that LPS of strain 1027–79 has a sugar composition similar to that of V. parahaemolyticus 09 LPS.     

A Chemotaxonomic Study of Vibrio fluvialis Based on the Sugar Composition of the Polysaccharide Portion of the Lipopolysaccharides

A chemotaxonomic study was carried out with a new serotyping scheme comprising 35 O-antigen groups of Vibrio fluvialis on the basis of the sugar composition of the polysaccharide portion of their lipopolysaccharide (LPS). A previously developed rapid method of preparing samples for compositional sugar analysis was employed. The 35 O-antigen groups were divided into 21 chemotypes. It is noted that a rarely occurring component sugar of gram-negative bacterial LPS, D -glycero-D -manno-heptose, and two kinds of uronic acids, i.e., galacturonic acid of a weakly bound type and glucuronic acid of a strongly bound type, were found in common in all the 21 chemotypes. A characteristic sugar component of gram-negative bacterial LPS, 2-keto-3-deoxyoctonate (KDO), was not detectable in any of the 21 chemotypes. Instead, three kinds of “KDO-like substances” were found, one in each of three chemotypes (III, XI and XVII). They were strongly positive in Weissbach's periodate-thiobarbituric acid test for KDO, but definitely not identical to it in high-voltage paper electrophoresis (HVPE); the substance present in chemotype XI was indicated by HVPE to be 3-deoxy-D -threo-hexulosonic acid which is a sugar constituent of Vibrio parahaemolyticus O7 and O12 LPS.     

Sugar Composition of Lipopolysaccharides of Family Vibrionaceae

A comparative study was carried out on the sugar composition of lipopolysaccharides (LPS) isolated from representative strains of members of the family Vibrionaceae including all of the constituting genera, i.e., Vibrio, Aeromonas, Photobacterium, Plesiomonas, and Lucibacterium. More than 100 strains were examined. It was found that, with the exception of Vibrio parahaemolyticus 06, 2-keto-3-deoxyoctonate (KDO), known generally as a component sugar in the core region of usual gram-negative bacterial LPS, is virtually absent from LPS of the Vibrionaceae strains so far examined. Furthermore, mannose was also lacking in LPS of Vibrionaceae strains with the exception of only one strain, A. anaerogenes (ATCC 15467). Instead, some KDO-like substances were found in LPS from Vibrio (“Beneckea”) nereida (ATCC 25917) and Plesiomonas shigelloides including the type strain (ATCC 14029), the same as those found in LPS from V. parahaemolyticus O7 and O12, and three strains of V. alginolyticus. These substances were strongly positive in the periodate-thiobarbituric acid test, yielding a color with maximum absorption at 549 nm. The spectra were identical to that of KDO, whereas substances differed from KDO at least in behavior in high-voltage paper electrophoresis and thin-layer chromatography. A particularly interesting feature from the chemotaxonomical point of view was found in the sugar composition of LPS isolated from V. cholerae. Fructose was present exclusively in LPS of V. cholerae (both O1 and non-O1 groups and classical and eltor biotypes) with the exception of one strain of Photobacterium phosphoreum (NCMB 844). In addition, a pair of rarely occurring amino sugars, perosamine and quinovosamine, was found in LPS from O1 group V. cholerae regardless of either the biotype (classical or eltor) or the serotype (Inaba or Ogawa), whereas this pair was not present in non-O1 group V. cholerae (the so-called NAG vibrios). This feature was confirmed with LPS from more than 30 additional strains of O1 group V. cholerae isolated from patients. The virtual absence of KDO in LPS of the family Vibrionaceae was demonstrated for the first time in this study. These results are compatible with the interpretation that the absence of KDO in LPS can be used as one of the taxonomical characteristics of Vibrionaceae in addition to (G+C) content, DNA (or RNA) homology, and numerical analysis data.     

Lipopolysaccharide Isolated from a New O-Antigenic Form (O13) of Vibrio parahaemolyticus

The chemical properties of a lipopolysaccharide (LPS) isolated from a new O-antigenic form (O13) of Vibrio parahaemolyticus were investigated. The LPS contained glucose, galactose, L -glycero-D -manno-heptose and glucosamine. 2-Keto-3-deoxy-octonate (KDO) was not detected in the LPS by the periodate-thiobarbituric acid test (Weissbach's reaction) under conventional hydrolysis conditions. Instead, phosphorylated KDO (X1 and X2) was found in its strong-acid hydrolysate. This sugar composition was identical to that of V. parahaemolyticus O3, O5 and O11 LPS, indicating that, based on the sugar composition, O13 LPS belongs to Chemotype III to which O3, O5 and O11 belong. In addition, structural study demonstrated the presence of KDO 4-phosphate in its inner-core region.     

Chemotypes of Fusobacterium nucleatum lipopolysaccharides

Lipopolysaccharides (LPS) were isolated from 20 strains of Fusobacterium nucleatum and examined by paper chromatography, gas liquid chromatography and colorimetric methods for the presence of neutral sugars, amino sugars and 2-keto-3-dexoxy-octonate (KDO). The LPS had in common glucosamine, L-glycero-D-manno-heptose, glucose and KDO. The KDO content was low. Galatose, rhamnose and D-glycero-D-manno-heptose were found in some strains. Based on the sugar composition of the LPS, the F. nucleatum strains could be classified into six chemotypes.     

Chemotypes of Veillonella lipopolysaccharides

Lipopolysaccharides (LPS) were isolated by phenol-water extraction from 34 strains of Veillonella, and examined by paper chromatography and colorimetric methods for the presence of neutral sugars, amino sugars and 2-keto-3-deoxy-octonate (KDO). Several preparations were also examined for neutral sugars by gas liquid chromatography. The LPS had in common glucosamine, galactosamine, L-glycero-D-manno-heptose glucose and KDO. Most LPS contained galactose, and a few rhamnose. D-glycero-D-manno-heptose was found in LPS from one of the strains. Based on the sugar composition of the LPS, the Veillonella strains could be classified into four chemotypes.     

Sugar composition of the polysaccharide portion of lipopolysaccharides isolated from non-O1 Vibrio cholerae O2 to O41, O44, and O68

The sugar composition of the polysaccharide portion of lipopolysaccharides (LPS) was determined for 42 serovars of non-O1 Vibrio cholerae, i.e., from serogroups O2 to O41, O44, and O68. On the basis of their compositional sugar pattern, they were classified into 24 chemotypes. 2-Keto-3-deoxyoctonate (KDO) was totally undetectable by the conventional color test (Weissbach's reaction) under the conventional hydrolysis conditions. Instead, a kind of KDO-like substance, which was positive in the reaction but not identical to KDO, was found in serogroup O19. Fructose, a characteristic sugar constituent of O1 V. cholerae LPS, was found in 33 serogroups but was absent from nine serogroups, approximately 20% of the members of this group so far examined.     

Occurrence of Uronic Acid in Lipopolysaccharides of Vibrionaceae

The occurrence of uronic acid as a sugar constituent of lipopolysaccharides (LPS) in Vibrionaceae was demonstrated for the first time. More than 100 strains were examined. Of five genera constituting Vibrionaceae, i.e., Vibrio, Aeromonas, Plesiomonas, Photobacterium, and Lucibacterium, the latter three contained uronic acid in LPS of all of their constituting members examined, while it was totally lacking in Aeromonas LPS so far tested. Only the members of genus Vibrio were found to be divided into uronic acid-containing and -lacking groups; V. parahaemolyticus, V. alginolyticus, V. fisheri, V. costicola, Beneckea (‘Vibrio’), and V. fluvialis belonged to the former, while all four biotypes of V. cholerae regardless of their serotypes, V. vulnificus and V. anguillarum, belonged to the latter group. The uronic acid content of V. parahaemolyticus O1 to O12 LPS ranged from 1.6 to 4.2%. The uronic acid residue released from V. parahaemolyticus O1, O4, O10, and O12 LPS by heating in 5% acetic acid at 100 C for 2 hr was identified as galacturonic acid; in particular, that from 012 LPS was characterized as d-galacturonic acid.     

Chemical Analysis of Lipopolysaccharides of Shigella sonnei Form II Strains Expressed by Cloned Form I Antigen Genes

A compositional sugar analysis was carried out on lipopolysaccharide (LPS) from Shigella sonnei form II in which a plasmid with cloned form I antigen genes had been introduced. The recipient form II strains contained galactose, glucose, heptose, glucosamine, and 2-keto-3-deoxyoctonic acid (KDO) (2: 3: 1: 2: 2) in its LPS, while the transformant form I LPS contained, besides these sugars, N-acetyl-L -altrosaminouronic acid as an additional sugar constituent, which is known to be one of the antigenic determinants of form I antigen.     

Characteristics of lipopolysaccharide from Pseudomonas fluorescens (biovar I)]

Lipopolysaccharide (LPS) of the Pseudomonas fluorescens strain IMV 7769 (biovar I) was isolated and investigated. Fractions of the structural parts of the LPS macromolecule, lipid A, the core oligosaccharide, and the O-specific polysaccharide (O-PS), were obtained in a homogeneous state. 2-Hydroxydecanoic, 3-hydroxydecanoic, dodecanoic, 2-hydroxydodecanoic, 3-hydroxydodecanoic, hexadecanoic, octadecanoic, hexadecenoic, and octadecenoic fatty acids were identified in lipid A. In the hydrophilic moiety of lipid A, after acid hydrolysis, several amino acids, phosphoethanolamine, glucosamine, and three unidentified peaks forming a separate cluster together with glucosamine were found. Lipid A was shown to be phosphorylated. Glucose, fucose, rhamnose, glucosamine, galactosamine, two unidentified amino sugars, 2-keto-3-deoxyoctulonic acid (KDO), heptose, ethanolamine, phosphoethanolamine, and alanine were identified in the core oligosaccharide. O-PS of the LPS consisted of repeating trisaccharide fragments that included residues of amino sugars: 4-acetamido-4,6-dideoxy-D-galactose, 2-acetamido-2,6-dideoxy-D-glucose, and 2-acetamido-2,6-dideoxy-L-glucose. During growth, the strain under study excreted exocellular LPS (ELPS) into the medium. The LPS studied was similar to the LPS of the earlier investigated strains P. fluorescens (biovar I) IMV 1152 and IMV 1433 in the structure of O-PS, but differed from them in the composition of both lipid A and the core oligosaccharide. The LPS of the strain studied differed from LPS of the type strain P. fluorescens IMV 4125 (ATCC 13525) in all characteristics determined.     

Characterization ofCampylobacter jejuni lipopolysaccharide

Lipopolysaccharides were isolated from dehydratedCampylobacter jejuni by combination of the phenol-chloroform-petroleum ether and phenol-water extraction techniques. Biochemical characterizations of lipopolysaccharide were performed on the two fractions of highest purity. Neutral sugar analyses detected galactose, glucose, trace amounts of mannose, and an unidentified deoxy-hexose. The primary amino sugars were galactosamine, glucosamine, and glucosamine-phosphate. Chemical analyses of other lipopolysaccharide components included phosphate, 3-deoxy-d-manno-octulosonic acid (KDO), and fatty acids. The predominant fatty acids were 3-hydroxytetradecanoic and hexadecanoic acids with lesser amounts of tetradecanoic acid. 3-Hydroxytetradecanoic acids were bound to lipid A by both amide and ester linkages.     

Lipopolysaccharides ofVibrio fluvialis 181-86 Kobe possessing an antigenic factor in common with O1Vibrio cholerae

The chemical and serological characteristics of lipopolysaccharides (LPS) isolated fromVibrio fluvialis 181-86 Kobe were compared with those of LPS isolated from O1Vibrio cholerae and Vibrio bio-serogroup 1875 (Original and Variant), a marine vibrio possessing an antigenic factor in common with O1Vibrio cholerae. Two kinds of LPS (S-type LPS and R-type LPS) were extracted fromV. fluvialis 181-86 Kobe. The S-type LPS is different from LPS of the other serotypes (O1–O18) ofV. fluvialis in that the former was found to contain the pair perosamine and quinovosamine, a characteristic component of O1V. cholerae LPS. Furthermore, the sugar composition of the S-type LPS is close to that of Vibrio bio-serogroup 1875 LPS because both LPS contained mannose and the same two unidentified neutral sugars. Definite serological cross-reactivity in the passive hemolysis and the passive hemolysis inhibition tests were demonstrated between LPS fromV. fluvialis 181-86 Kobe and that from Vibrio bioserogroup 1875 Variant.     

Extraction and biochemical analyses ofHelicobacter pylori lipopolysaccharides

Lipopolysaccharides were isolated from dehydratedHelicobacter pylori cells by the phenol-chloroform-petroleum ether and hot phenol/water extraction techniques. Biochemical characterization of the crude extracts indicated the following: The primary fatty acids and approximate molar ratios were 3-hydroxyoctadecanoic (2), 3-hydroxyhexadecanoic (1), and octadecanoic (1) acids. Lesser amounts of tetradecanoic, hexadecanoic, and octadecenoic acids were noted. 3-Hydroxytetradecanoic acid was not deteted in either extract. Neutral sugar analyses detected glucose, galactose, two heptose isomers, and an unidentified deoxy-hexose. Glucosamine and glucosamine phosphate were the only amino sugars found in significant quantities. Analyses of other components included ethanolamine, phosphate, and protein. 3-Deoxy-d-manno-octulosonic acid (KDO) was detected, but in lower concentrations than would be expected in comparable enterobacterial lipopolysaccharides.     

Occurrence of 2-keto-3-deoxyoctonate (KDO) and KDO phosphate in lipopolysaccharides ofBacteriodes species

Occurrence of 2-keto-3-deoxyoctonate (KDO) in lipopolysaccharides (LPS) of genusBacteroides (some strains have recently been reclassified asPorphyromonas orPrevotella) was examined. Strong-acid treatment of LPS isolated fromBacteroides fragilis, Bacteroides (Porphyromonas) gingivalis andBacteroides intermedius, (Prevotella intermedia) released periodate/thiobarbituric acid reaction-positive substances that were not detectable under conventional hydrolysis conditions. These substances were demonstrated to be KDO phosphate by high voltage paper electrophoresis before and after alkaline phosphatase treatment. KDO phosphate was also identified in these LPS by gas-liquid chromatography and gas-liquid chromatography/mass spectrometry. KDO was identified as well in both mild and strong-acid hydrolysates of LPS isolated fromBacteriodes melaninogenicus (Prevotella melaninogenica). Neither KDO nor KDO phosphate was detectable in LPS ofBacteriodes asaccharolyticus (Porphyromonas asaccharolytica) even after the strong-acid treatment of LPS. These findings indicate that there are possible structural variations in the inner core region ofBacteroides LPS.     

Comparative analysis of the lipopolysaccharides of a rough and a smooth strain of Pseudomonas syringae pv. phaseolicola

The lipopolysaccharides (LPS) of a rough (R) and a smooth (S) strain of Pseudomonas syringae pv. phaseolicola were analysed. The S-LPS revealed markedly more rhamnose and fucose, but less glucose, than the R-LPS. The presence of 3-O-methyl-rhamnose (acofriose) in the S-LPS was confirmed by cochromatography with authentic acofriose. SDS polyacrylamide gel electrophoresis of the S-LPS demonstrated a cluster of regularly spaced high molecular weight fractions, which was almost lacking in the R-LPS. The main fatty acids of the lipid A of both LPS species were 3-OH-10:0,3-OH-12:0,2-OH-12:0, and 12:0. Two N-linked diesters were demonstrated: 3-O(12:0)-12:0 and 3-O(2-OH-12:0)-12:0. S-LPS was subjected to mild hydrolysis and the degraded polysaccharide separated into three fractions by gel permeation chromatography on a Fractogel TSK HW-50 column. Fraction I, representing nearly only the O-specific side chain, consisted of rhamnose and fucose in a molar ratio of 4:1, with 4% of the rhamnose being 3-O-methylated (acofriose). Fraction II, representing mostly core material, was composed of glucose, rhamnose, heptose, glucosamine, galactosamine, alanine, and a still unidentified amino compound, in an approximate molar ratio of 3:1:1:1:1:1:1, and KDO. Fraction III consisted of released monomers and salts. The LPS was highly phosphorylated (3.28% phosphorus in the core fraction). The thus characterized composition of the LPS O-chain seems to be unique for the pathovar phaseolicola of P. syringae, although many similarities exist to other pathovars as well as to other bacterial species.Abbreviations LPS lipopolysacchairdes - GC/MS combined gas liquid chromatography-mass spectrometry - HVE high voltage electrophoresis - KDO 2-keto-3-deoxyoctonic acid - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecylsulfate P.s. pv. phaseolicola is termed P. phaseolicola in the text     

Lipopolysaccharides of Group F,a new group of vibrios

The sugar composition of the O-antigenic lipopolysaccharides isolated from Group F vibrios was analysed. 2-Keto-3-deoxy-octonate was totally absent from the lipopolysaccharides. As common component sugars, glucose, galactose, L-glycero-D-mannoheptose, and glucosamine were present. The Group F vibrios examined were found to be divided into two groups, designated tentatively as groups I and II, on the basis of the pattern of the sugar composition of their lipopolysaccharides. As additional sugar components, mannosamine, quinovosamine and two unidentified amino sugars, F1 and F2, were present in group I, while rhamnose, galactosamine, an unidentified amino sugar, F3, and a relatively high content of D-glycero-D-mannoheptose were found in group II.     

Composition of the floral nectar of different subgenera of Argentinian Passiflora species

The composition of the floral nectar sugars and amino acids of four species of Passiflora (P. foetida, P. caerulea, P. suberosa, and P. misera) included in different infrageneric taxa and with distinct pollination mechanisms has been studied. The effect of weather and floral age on nectar volume, existence, and total and relative amounts of the various compounds was explored. The proportion of sugars was rather constant within a given species whereas the composition, number, and total quantity of amino acids showed great intraspecific and intra-plant variability; these nectar properties were independent of floral stage or meteorological conditions. Species belonging to the same subgenus displayed equivalent sugar ratios and similar total amount of amino acids, so these characteristics might be conservative in the genus. For all species, the amino acid concentration surpassed known values for their respective pollination syndromes, viz. bee and wasp-pollinated flowers. No relationship emerged between pollinators with different glossa length and nectars with distinct sugar ratios. Rather, nectar chemical composition seems to reflect taxonomic relationships.     

Plasmid-determined alterations of Salmonella typhimurium lipopolysaccharides

Summary Salmonella typhimurium Rc902 infected with derepressed ColIb mutants gave rise to changes in the composition of bacterial lipopolysaccharides (LPS). Bacteria carrying ColIbdrd7, derepressed in transfer, exhibited a marked decrease in the content of all 0-side-chain sugars of LPS. Similar effects were found upon the introduction of R64-11, also derepressed in transfer. In LPS of S. typhimurium containing ColIbdrd2, derepressed in colicin synthesis, a decrease of abequose content associated with an increase of glucose level was observed. Bacteria carrying the wild-type ColIb, the revertant of a drd mutant to the wild type, or the non colicinogenic strain resulting from the elimination of ColIbdrd2, showed no changes in the sugar composition of LPS.     

Antitumor Lipopolysaccharide from Heptoseless Mutant of Proteus mirabilis

Studies on lipopolysaccharide (LPS) from the cells of Proteus mirabilis RMS-203 were focused upon reduction of lethal toxicity and of pyrogenicity by biological and chemical modification. A heptoseless mutant, strain N-434, was isolated by the use of phage resistancy as a tool. LPS from that heptoseless mutant was completely deficient in neutral sugars and mainly composed of 2-keto-deoxy-octonic acid (KDO), glucosamine and fatty acids. It revealed almost the same antitumor activity as LPS of the wild type but it was less toxic and less pyrogenic.

Hydroxylaminolysis and reduction with LiAlH₄ resulted in removal of fatty acids from LPS accompanied with decrease in lethal toxicity and antitumor acitivity but not in pyrogenicity.

Lipid A fractions showed almost the same antitumor activity as intact LPS but less lethality and less pyrogenicity.     

Chemical and Biological Properties of Lipopolysaccharide from a Marine Bacterium,Photobacterium phosphoreum PJ-1

The chemical and biological properties of the lipopolysaccharide (LPS) isolated from a marine bacterium, Photobacterium phosphoreum PJ-1, were studied. This LPS consists of 40.6% carbohydrate, 27.3% fatty acid, 0.2% 2-keto-3-deoxyoctonate (KDO) and other components. One characteristic of this LPS is its small amount of KDO, the basic component of the usual LPS. Electrophoresis in sodium dodecylsulfate polyacrylamide gel revealed at least two staining bands for carbohydrates. These bands were continuous and broad, and showed rapid electrophoretic mobility which corresponded closely to the fastest moving band of LPS from Salmonella typhimurium. This LPS preparation had adjuvant activity, lethality for ddY mice, and the ability to gel Limulus amebocyte lysate, and the strength of these activities corresponded closely to those of LPS preparations from Escherichia coli 0111:B4 and S. typhimurium. In the test for lethality of the LPS for ddY mice, the lethal action appeared in two phases depending on the dose used for intravenous (i.v.) injection : the early lethal action appeared within 30 min after injection of 250 μg or less, and the late lethal action occurred gradually after 16 hr at doses of 500 μg or more. The total (both phases) LD50 of this LPS (i.v.) for ddY mice was 265 μg per mouse and in only the late phase it was 500 μg. These results show that in spite of structual differences in regard to KDO content, LPS from P. phosphoreum PJ-1 has some biological properties similar to those of LPS from E. coli 0111:B4 and S. typhimurium but it shows no immunological cross-reaction with other LPS.