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  • 1. Backhed, F
    et al.
    Normark, S
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Oscarson, S
    Richter-Dahlfors, A
    Structural requirements for TLR4-mediated LPS signalling: a biological role for LPS modifications2003In: Microbes and infection, ISSN 1286-4579, E-ISSN 1769-714X, Vol. 5, no 12, p. 1057-1063Article in journal (Refereed)
    Abstract [en]

    Cells of the mucosal lining are the first to encounter invading bacteria during infection, and as such, they have developed numerous ways of detecting microbial intruders. Recently, we showed that epithelial cells recognize lipopolysaccharide (LPS) through the CD14-Toll-like receptor (TLR)-4 complex. Here, we identify the substructures of LPS that are recognized by the TLR4 receptor complex. In contrast to lipid A, the O-antigen does not mediate an inflammatory response; rather it interferes with the lipid A recognition. An Escherichia coli strain genetically modified to express penta-acylated lipid A not only showed reduced immunogenicity, but was also found to inhibit proinflammatory signalling induced by wild-type E. coli (hexa-acylated lipid A) as well as LPS from other bacteria of the Enterobacteriaceae family. Furthermore, penta-acylated LPS from Pseudomonas aeruginosa acted as an antagonist to hexa-acylated E. coli LPS, as did E. coli, as shown by its inhibitory effect on IL-8 production in stimulated cells. Hypo-acylated lipidA, such as that of P. aeruginosa, is found in several species within the gut microflora as well as in several bacteria causing chronic infections. Thus, our results suggest that the composition of the microflora may be important in modulating pro-inflammatory signalling in epithelial cells under normal as well as pathologic conditions.

  • 2. Bauer, S H J
    et al.
    Månsson, Martin
    Södertörn University, Avdelning Naturvetenskap.
    Hood, D W
    Richards, J C
    Moxon, E R
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    A rapid and sensitive procedure for determination of 5-N-acetyl neuraminic acid in lipopolysaccharides of Haemophilus influenzae: a survey of 24 non-typeable H-influenzae strains2001In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 335, no 4, p. 251-260Article in journal (Refereed)
    Abstract [en]

    In view of the importance of 5-N-acetyl neuraminic acid in bacterial pathogenesis, a sensitive, reproducible and reliable method for the determination of 5-N-acetyl neuraminic acid levels in lipopolysaccharide (LPS) is described and applied to 24 different non-typeable Haemophilus influenzae (NTHi) strains. The method involves analysis by high-performance anion-exchange chromatography with pulsed amperometric detection (HPAEC-PAD) of terminal 5-N-acetyl neuraminic acid residues released by neuraminidase treatment of O-deacylated LPS. The procedure is relatively fast and the instrumental effort is moderate. The results of the procedure were compared with data obtained by H-1 NMR and electrospray ionisation-mass spectrometry (ESI-MS). The analysis of LPS from 24 NTHi strains showed that 5-N-acetyl neuraminic acid was found to be a common constituent of LPS in NTHi. Only one strain (NTHi 432) did not show any sialylation. Molar ratios (LPS /5-N-acetyl neuraminic acid) ranged between 5/1 and 500/1. Several strains in which no 5-N-acetyl neuraminic acid could be determined by other methods including 1H NMR and ESI-MS were shown to contain 5-N-acetyl neuraminic acid by this HPAEC-PAD procedure. The method was applied to determine levels of terminal 5-N-acetyl neuraminic acid in LPS from NTHi strains grown under different conditions and mutant strains containing inactive LPS biosynthetic genes.

  • 3. Deadman, Mary E.
    et al.
    Lundström, Susanna L.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Moxon, E. Richard
    Hood, Derek W.
    Specific amino acids of the glycosyltransferase LpsA direct the addition of glucose or galactose to the terminal inner core heptose of Haemophilus influenzae lipopolysaccharide via alternative linkages2006In: Journal of Biological Chemistry, ISSN 0021-9258, E-ISSN 1083-351X, Vol. 281, no 40, p. 29455-29467Article in journal (Refereed)
    Abstract [en]

    Lipopolysaccharide is the major glycolipid of the cell wall of the bacterium Haemophilus influenzae, a Gram-negative commensal and pathogen of humans. Lipopolysaccharide is both a virulence determinant and a target for host immune responses. Glycosyltransferases have high donor and acceptor substrate specificities that are generally limited to catalysis of one unique glycosidic linkage. The H. influenzae glycosyltransferase LpsA is responsible for the addition of a hexose to the distal heptose of the inner core of the lipopolysaccharide molecule and belongs to the glycosyltransferase family 25. The hexose added can be either glucose or galactose and linkage to the heptose can be either beta 1-2 or beta 1-3. Each H. influenzae strain uniquely produces only one of the four possible combinations of linked sugar in its lipopolysaccharide. We show that, in any given strain, a specific allelic variant of LpsA directs the anomeric linkage and the added hexose, glucose, or galactose. Site-directed mutagenesis of a single key amino acid at position 151 changed the hexose added in vivo from glucose to galactose or vice versa. By constructing chimeric lpsA gene sequences, it was shown that the 3' end of the gene directs the anomeric linkage (beta 1-2 or beta 1-3) of the added hexose. The lpsA gene is the first known example where interstrain variation in lipopolysaccharide core structure is directed by the specific sequence of a genetic locus encoding enzymes directing one of four alternative possible sugar additions from the inner core.

  • 4. Dzieciatkowska, Monika
    et al.
    Liu, Xin
    Heikema, Astrid P.
    Houliston, R. Scott
    van Belkum, Alex
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Gilbert, Michel
    Richards, James C.
    Li, Jianjun
    Rapid method for sensitive screening of oligosaccharide epitopes in the lipooligosaccharide from Campylobacter jejuni strains isolated from Guillain-Barre syndrome and Miller Fisher syndrome patients2008In: Journal of Clinical Microbiology, ISSN 0095-1137, E-ISSN 1098-660X, Vol. 46, no 10, p. 3429-3436Article in journal (Refereed)
    Abstract [en]

    Campylobacter jejuni lipooligosaccharide (LOS) can trigger Guillain-Barre syndrome (GBS) due to its similarity to human gangliosides. Rapid and accurate structural elucidation of the LOS glycan of a strain isolated from a GBS patient could help physicians determine the spectrum of anti-ganglioside antibodies likely to be found and therefore provide valuable assistance in establishing an appropriate course of treatment. The ability of implemented mass spectrometry-based approaches in a clinical setting has been limited by the laborious and time-consuming nature of the protocols, typically 3 to 4 days, used to prepare LOS. In order to improve the analytical throughput, microwave-assisted enzymatic digestion was investigated. In this study, the bacterial cells were suspended in 50 mu l of 20 mM ammonium acetate buffer containing DNase and RNase and treated by direct microwave irradiation for 3 min. Then, proteinase K was added and the samples were again microwaved. The intact LOS samples were analyzed using electrophoresis-assisted open-tubular liquid chromatography-mass spectrometry. The reliability of the rapid, high-throughput technique was demonstrated through analysis of LOS glycans from 73 C. jejuni strains. The structure was elucidated using material from a single colony. The total time for sample preparation and MS analysis is less than 60 min.

  • 5. Dzieciatkowska, Monika
    et al.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Moxon, E. Richard
    Richards, James C.
    Li, Jianjun
    Characterization of intact lipopolysaccharides from the Haemophilus influenzae strain RM 118 using electrophoresis-assisted open-tubular liquid chromatography-mass spectrometry2008In: Electrophoresis, ISSN 0173-0835, E-ISSN 1522-2683, Vol. 29, no 10, p. 2171-2181Article in journal (Refereed)
    Abstract [en]

    We have applied an electrophoresis-assisted open-tubular LC-MS method for analyzing intact lipopolysaccharides (LPSs) from Haemophilus influenzae strain RM 118 (Rd). We were able to obtain structural information on both core oligosaccharides (OSs) and the lipid A moiety including the sialylation, glycylation, and the distribution of fatty acid residues on the disaccharide backbone of lipid A. The fragmentation patterns of sodiated and protonated LPS molecules were investigated for determining the location of sialic acid. It was found that the tandem mass spectra of sodiated ions provided unambiguous evidence of both sialylated lactose and sialylated lacto-N-neotetraose. In contrast, the fragment ions of protonated ions only offered the evidence for the existence of sialylated lacto-N-neotetraose. The lipid A of Gram-negative bacteria, as the principal endotoxic component of LP S, plays a major role in the pathogenesis of bacterial infections. We have previously characterized lipid. A species after mild acid hydrolysis of LPS during which lipid A precipitates. In this study, intact LPS was directly introduced to a tandem mass spectrometer. In-source dissociation strategy was employed, followed by multiple-stage MS/MS on the ions originating from the lipid part to obtain structural information. This is the first time that the structure of lipid A of H. influenzae was characterized by MS/MS on intact LPS molecules without any prior chemical modifications. In the same way information on the OS can be obtained by MS/MS by focusing on ions originating from core OS.

  • 6. Engskog, Mikael K. R.
    et al.
    Yildirim, Håkan H.
    Södertörn University, School of Life Sciences.
    Li, Jianjun
    Richards, James C.
    Deadman, Mary
    Hood, Derek W.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences, Chemistry.
    A dual role for the lex2 locus: identification of galactosyltransferase activity in non-typeable Haemophilus influenzae strains 1124 and 20192009In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 344, no 5, p. 632-641Article in journal (Refereed)
    Abstract [en]

    Lipopolysaccharide (LPS) of Haemophilus influenzae comprises a conserved tri-L-glycero-D-manno-heptosyl inner-core moiety (L-alpha-D-Hepp-(1 -> 2)-[PEtn -> 6]-L-alpha-D-Hepp-(1 -> 3)-[beta-D-Glclp-(1 -> 4)]-L-alpha-D-Hepp-(1 -> 5)-alpha-Kdop) to which addition of beta-D-Glcp to O-4 of Glcl in serotype b strains is controlled by the gene lex2B. In non-typeable H. influenzae strains 1124 and 2019, however, a beta-D-Galp is linked to O-4 of Glcl. In order to test the hypothesis that the 1ex2 locus is involved in the expression Of beta-D-Galp-(1 -> 4-beta-D-Glcp-(1 -> - from Hepl, 1ex2B was inactivated in strains 1124 and 2019, and LPS glycoform populations from the resulting mutant strains were investigated. Detailed structural analyses using NMR techniques and electrospray-ionisation mass spectrometry (ESIMS) on O-cleacylated LPS and core oligosaccharide material (OS), as well as ESIMS" on permethylated dephosphorylated OS, indicated both lex2B mutant strains to express only beta-D-Glcp extensions from Hepl. This provides strong evidence that Lex2B functions as a galactosyltransferase adding a beta-D-Galp to O-4 of Glcl in these strains, indicating that allelic polymorphisms in the lex2B sequence direct alternative functions of the gene product.

  • 7. Fox, K L
    et al.
    Yildirim, Håkan H
    Södertörn University, School of Life Sciences.
    Deadman, M E
    Schweda, Elke K H
    Södertörn University, School of Life Sciences.
    Moxon, E R
    Hood, D W
    Novel lipopolysaccharide biosynthetic genes containing tetranucleotide repeats in Haemophilus influenzae, identification of a gene for adding O-acetyl groups2005In: Molecular Microbiology, ISSN 0950-382X, E-ISSN 1365-2958, Vol. 58, no 1, p. 207-216Article in journal (Refereed)
    Abstract [en]

    Many of the genes for lipopolysaccharide (LPS) biosynthesis in Haemophilus influenzae are phase variable. The mechanism of this variable expression involves slippage of tetranucleotide repeats located within the reading frame of these genes. Based on this, we hypothesized that tetranucleotide repeat sequences might be used to identify as yet unrecognized LPS biosynthetic genes. Synthetic oligonucleotides (20 bases), representing all previously reported LPS-related tetranucleotide repeat sequences in H. influenzae, were used to probe a collection of 25 genetically and epidemiologically diverse strains of non-typeable H. influenzae. A novel gene identified through this strategy was a homologue of oafA, a putative O-antigen LPS acetylase of Salmonella typhimurium, that was present in all 25 non-typeable H. influenzae, 19 of which contained multiple copies of the tetranucleotide 5'-GCAA. Using lacZ fusions, we showed that these tetranucleotide repeats could mediate phase variation of this gene. Structural analysis of LPS showed that a major site of acetylation was the distal heptose (HepIII) of the LPS inner-core. An oafA deletion mutant showed absence of O-acetylation of HepIII. When compared with wild type, oafA mutants displayed increased susceptibility to complement-mediated killing by human serum, evidence that O-acetylation of LPS facilitates resistance to host immune clearance mechanisms. These results provide genetic and structural evidence that H. influenzae oafA is required for phase variable O-acetylation of LPS and functional evidence to support the role of O-acetylation of LPS in pathogenesis.

  • 8. Fox, Kate L.
    et al.
    Li, Jianjun
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Vitiazeva, Arvara
    Makepeace, Katherine
    Jennings, Michael P.
    Moxon, E. Richard
    Hood, Derek W.
    Duplicate copies of lic1 direct the addition of multiple phosphocholine residues in the lipopolysaccharide of Haemophilus influenzae2008In: Infection and Immunity, ISSN 0019-9567, E-ISSN 1098-5522, Vol. 76, no 2, p. 588-600Article in journal (Refereed)
    Abstract [en]

    The genes of the lic1 operon (lic1A to lic1D) are responsible for incorporation of phosphocholine (PCho) into the lipopolysaccharide (LPS) of Haemophilus influenzae. PCho plays a multifaceted role in the commensal and pathogenic lifestyles of a range of mucosal pathogens, including H. influenzae. Structural studies of the LPS of nontypeable H. influenzae (NTHI) have revealed that PCho can be linked to a hexose on any one of the oligosaccharide chain extensions from the conserved inner core triheptosyl backbone. In a collection of NTHI strains we found several strains in which there were two distinct but variant lic1D DNA sequences, genes predicted to encode the transferase responsible for directing the addition of PCho to LPS. The same isolates were also found to express concomitantly two PCho residues at distinct positions in their LPS. In one such NTHI isolate, isolate 1158, structural analysis of LPS from lic1 mutants confirmed that each of the two copies of lic1D directs the addition of PCho to a distinct location on the LPS. One position for PCho addition is a novel heptose, which is part of the oligosaccharide extension from the proximal heptose of the LPS inner core. Modification of the LPS by addition of two PCho residues resulted in increased binding of C-reactive protein and had consequential effects on the resistance of the organism to the killing effects of normal human serum compared to the effects of glycoforms containing one or no PCho. When bound, C-reactive protein leads to complement-mediated killing, indicating the potential biological significance of multiple PCho residues.

  • 9.
    Gulin, Sofia
    et al.
    Södertörn University, Avdelning Naturvetenskap.
    Pupo, E
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Hardy, E
    Linking mass spectrometry and slab-polyacrylamide gel electrophoresis by passive elution of lipopolysaccharides from reverse-stained gels: Analysis of gel-purified lipopolysaccharides from Haemophilus influenzae strain Rd2003In: Analytical Chemistry, ISSN 0003-2700, E-ISSN 1520-6882, Vol. 75, no 18, p. 4918-4924Article in journal (Refereed)
    Abstract [en]

    Haemophilus influenzae is an important cause of human disease, and its lipopolysaccharide (LPS) is known to be a major virulence factor. H. influenzae produces short-chain LPS of which the heterogeneity is often visualized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) using silver staining for detection. Individual bands have not previously been recovered by this method in quantities sufficient for mass spectrometry. In an attempt toward the development of sensitive mass spectrometrical strategies to be used in structural studies of H. influenzae LPS and LPS from other bacteria, we have applied here our previously described slab-PAGE-based micropurification method to obtain unmodified LPS fractions of high purity (>95%) from a crude LPS preparation of H. influenzae strain Rd. Two LPS-fractions were obtained which, after a procedure including mild acid hydrolysis, dephosphorylation, and permethylation of the resulting oligosaccharides, were subjected to tandem electrospray ionization mass spectrometry (ESI-MS/MS). The quantities of micropurified LPS fractions-the recovery of LPS in terms of total mass was 30%-were found sufficient to allow the characterization of LPS glycoforms. The ESI-MS spectra of the individual bands showed reduced heterogeneity. Furthermore, the integrity of the micropurified LPS was confirmed. The spectra-displayed molecular ions showed improved intensity, increased respective signal-to-noise ratios demonstrating the sensitivity of analysis. Consequently, both the direct determination of the molecular masses of the gel-separated LPS glycoforms and sequence analyses using ESI-MS/MS were possible.

  • 10. Hood, D W
    et al.
    Cox, A D
    Wakarchuk, W W
    Schur, M
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Walsh, S L
    Deadman, M E
    Martin, A
    Moxon, E R
    Richards, J C
    Genetic basis for expression of the major globotetraose-containing lipopolysaccharide from H-influenzae strain Rd (RM118)2001In: Glycobiology, ISSN 0959-6658, E-ISSN 1460-2423, Vol. 11, no 11, p. 957-967Article in journal (Refereed)
    Abstract [en]

    A genetic basis for the biosynthetic assembly of the globotetraose containing lipopolysaccharide (LPS) of Haemophilus influenzae strain RM118 (Rd) was determined by structural analysis of LPS derived from mutant strains. We have previously shown that the parent strain RM118 elaborates a population of LPS molecules made up of a series of related glycoforms differing in the degree of oligosaccharide chain extension from the distal heptose residue of a conserved phosphorylated inner-core element, L-alpha -D-Hepp-(1-->2)-L-alpha -D-Hepp-(1-->3)-[beta -D-Glcp-(1-->4)-]-L-alpha -D-Hepp-(1-->5)-alpha -Kdo. The fully extended LPS glycoform expresses the globotetraose structure, beta -D-GalpNAc-(1-->3)-alpha -D-Galp(1-->4)-beta -D-Galp-(1-->4)-beta -D-Glcp. A fingerprinting strategy was employed to establish the structure of LPS from strains mutated in putative glycosyltransferase genes compared to the parent strain. This involved glycose and linkage analysis on intact LPS samples and analysis of O-deacylated LPS samples by electrospray ionization mass spectrometry and 1D H-1-nuclear magnetic resonance spectroscopy. Four genes, lpsA, lic2A, lgtC, and lgtD, were required for sequential addition of the glycoses to the terminal inner-core heptose to give the globotetraose structure. lgtC and lgtD were shown to encode glycosyltransferases by enzymatic assays with synthetic acceptor molecules. This is the first genetic blueprint determined for H. influenzae LPS oligosaccharide biosynthesis, identifying genes Involved in the addition of each glycose residue.

  • 11. Hood, D W
    et al.
    Randle, G
    Cox, A D
    Makepeace, K
    Li, J J
    Schweda, Elke K H
    Södertörn University, School of Chemistry, Biology, Geography and Environmental Science.
    Richards, J C
    Moxon, E R
    Biosynthesis of cryptic lipopolysaccharide glycoforms in Haemophilus influenzae involves a mechanism similar to that required for O-antigen synthesis2004In: Journal of Bacteriology, ISSN 0021-9193, E-ISSN 1098-5530, Vol. 186, no 21, p. 7429-7439Article in journal (Refereed)
    Abstract [en]

    It is generally thought that mucosal bacterial pathogens of the genera Haemophilus, Neisseria, and Moraxella elaborate lipopolysaccharide (LPS) that is fundamentally different from that of enteric organisms that express O-specific polysaccharide side chains. Haemophilus influenzae elaborates short-chain LPS that has a role in the pathogenesis of H. influenzae infections. We show that the synthesis of LPS in this organism can no longer be as clearly distinguished from that in other gram-negative bacteria that express an O antigen. We provide evidence that a region of the H. influenzae genome, the hmg locus, is involved in the synthesis of glycoforms in which tetrasaccharide units are added en bloc, not stepwise, to the normal core glycoforms, similar to the biosynthesis of an O-antigen.

  • 12. Hood, Derek W.
    et al.
    Deadman, Mary E.
    Engskog, Mikael K. R.
    Vitiazeva, Varvara
    Makepeace, Katherine
    Schweda, Elke K H
    Södertörn University, School of Life Sciences, Chemistry.
    Moxon, Richard
    Genes required for the synthesis of heptose-containing oligosaccharide outer core extensions in Haemophilus influenzae lipopolysaccharide2010In: Microbiology, ISSN 1350-0872, E-ISSN 1465-2080, Vol. 156, p. 3421-3431Article in journal (Refereed)
    Abstract [en]

    Heptose-containing oligosaccharides (OSs) are found in the outer core of the lipopolysaccharide (LPS) of a subset of non-typable Haemophilus influenzae (NTHi) strains. Candidate genes for the addition of either L-glycero-D-manno-heptose (LD-Hep) or D-glycero-D-manno-heptose (DD-Hep) and subsequent hexose sugars to these OSs have been identified from the recently completed genome sequences available for NTHi strains. losA1/losB1 and losA2/losB2 are two sets of related genes in which losA has homology to genes encoding glycosyltransferases and losB to genes encoding heptosyltransferases. Each set of genes is variably present across NTHi strains and is located in a region of the genome with an alternative gene organization between strains that contributes to LPS heterogeneity. Dependent upon the strain background, the LPS phenotype, structure and serum resistance of strains mutated in these genes were altered when compared with the relevant parent strain. Our studies confirm that losB1 and losB2 usually encode DD-heptosyl- and LD-heptosyl transferases, respectively, and that losA1 and losA2 encode glycosyltransferases that play a role in OS extensions of NTHi LPS.

  • 13. Houliston, R. Scott
    et al.
    Koga, Michiaki
    Li, Jianjun
    Jarrell, Harold C.
    Richards, James C.
    Vitiazeva, Varvara
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Yuki, Nobuhiro
    Gilbert, Michel
    A Haemophilus influenzae strain associated with fisher syndrome expresses a novel disialylated ganglioside mimic2007In: Biochemistry, ISSN 0006-2960, E-ISSN 1520-4995, Vol. 46, no 27, p. 8164-8171Article in journal (Refereed)
    Abstract [en]

    The non-typeable Haemophilus influenzae strain DH1 was isolated from a 25 year old male patient with Fisher syndrome, a postinfectious autoimmune condition characterized by the presence of anti-GQ1b IgG antibodies that target and initiate damage to peripheral nerves. DH1 was found to display an alpha NeuAc(2-8)alpha NeuAc(2-3)beta Gal branch bound to the tetraheptosyl backbone core of its lipooligosaccharide (LOS). The novel sialylation pattern was found to be dependent on the activity of a bifunctional sialyltransferase, Lic3B, which catalyzes the addition of both the terminal and subterminal sialic acid residues. Patient serum IgGs bind to DH1 LOS, and the reactivity is significantly influenced by the presence of sialylated glycoforms. The display by DH1, of a surface glycan that mimics the terminal trisaccharide portion of disialosyl-containing gangliosides, provides strong evidence for its involvement in the development of Fisher syndrome.

  • 14. Juntti-Berggren, L
    et al.
    Webb, D L
    Arkhammar, P O G
    Schultz, V
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Tornheim, K
    Berggren, P O
    Dihydroxyacetone-induced oscillations in cytoplasmic free Ca2+ and the ATP/ADP ratio in pancreatic beta-cells at substimulatory glucose2003In: Journal of Biological Chemistry, ISSN 0021-9258, E-ISSN 1083-351X, Vol. 278, no 42, p. 40710-40716Article in journal (Refereed)
    Abstract [en]

    Glucose stimulation of pancreatic beta-cells causes oscillatory influx of Ca2+, leading to pulsatile insulin secretion. We have proposed that this is due to oscillations of glycolysis and the ATP/ADP ratio, which modulate the activity of ATP-sensitive K+ channels. We show here that dihydroxyacetone, a secretagogue that feeds into glycolysis below the putative oscillator phosphofructokinase, could cause a single initial peak in cytoplasmic free Ca2+ ([Ca2+](i)) but did not by itself cause repeated oscillations in [Ca2+](i) in mouse pancreatic beta-cells. However, in the presence of a substimulatory concentration of glucose (4 mM), dihydroxyacetone induced [Ca2+](i) oscillations. Furthermore, these oscillations correlated with oscillations in the ATP/ADP ratio, as seen previously with glucose stimulation. Insulin secretion in response to dihydroxyacetone was transient in the absence of glucose but was considerably enhanced and somewhat prolonged in the presence of a substimulatory concentration of glucose, in accordance with the enhanced [Ca2+](i) response. These results are consistent with the hypothesized role of phosphofructokinase as the generator of the oscillations. Dihydroxyacetone may affect phosphofructokinase by raising the free concentration of fructose 1,6-bisphosphate to a critical level at which it activates the enzyme autocatalytically, thereby inducing the pulses of phosphofructokinase activity that cause the metabolic oscillations.

  • 15.
    Landerholm, Malin K
    et al.
    Södertörn University, School of Chemistry, Biology, Geography and Environmental Science.
    Li, J J
    Richards, J C
    Hood, D W
    Moxon, E R
    Schweda, Elke K H
    Södertörn University, School of Chemistry, Biology, Geography and Environmental Science.
    Characterization of novel structural features in the lipopolysaccharide of nondisease associated nontypeable Haemophilus influenzae2004In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 271, no 5, p. 941-953Article in journal (Refereed)
    Abstract [en]

    Nontypeable Haemophilus influenzae (NTHi) is a common commensal of the human upper respiratory tract and is associated with otitis media in children. The structures of the oligosaccharide portions of NTHi lipopolysaccharide (LPS) from several otitis media isolates are now well characterized but it is not known whether there are structural differences in LPS from colonizing, nondisease associated strains. Structural analysis of LPS from nondisease associated NTHi strains 11 and 16 has been achieved by the application of high-field NMR techniques, ESI-MS, ESI-MSn, capillary electrophoresis coupled to ESI-MS, composition and linkage analyses on O-deacylated LPS and core oligosaccharide material. This is the first study to report structural details on LPS from strains taken from the nasopharynx from healthy individuals. Both strains express identical structures and contain the common element of H. influenzae LPS, L-alpha-D-Hepp-(1-->2)-[PEtn-->6]-L-alpha-D-Hepp-(1-->3)-[beta-D-Glcp-(1 -->4)]-L-alpha-D-Hepp-(1-->5)-[PPEtn-->4]-alpha-Kdop-(2-->6)-lipid A, in which each heptose is elongated by a single hexose residue with no further oligosaccharide extensions. In the major Hex3 glycoform, the terminal Hepp residue (HepIII) is substituted at the O-2 position by a beta-D-Galp residue and the central Hepp residue (HepII) is substituted at O-3 by a alpha-D-Glcp residue. Notably, the strains express two phosphocholine (PCho) substituents, one at the O-6 position of alpha-D-Glcp and the other at the O-6 position of beta-D-Galp. Major acetylation sites were identified at O-4 of Gal and O-3 of HepIII. Additionally, both strains express glycine, and strain 11 also expresses detectable amounts of N-acetylneuraminic acid.

  • 16. Li, J J
    et al.
    Bauer, S H J
    Månsson, Martin
    Södertörn University, Avdelning Naturvetenskap.
    Moxon, E R
    Richards, J C
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Glycine is a common substituent of the inner core in Haemophilus influenzae lipopolysaccharide2001In: Glycobiology, ISSN 0959-6658, E-ISSN 1460-2423, Vol. 11, no 12, p. 1009-1015Article in journal (Refereed)
    Abstract [en]

    A survey of both typeable and nontypeable strainsof Haemophilus influenzae indicated that they contain glycine (Gly) in their lipopolysaccharide (LPS). Significant amounts (30-250 pmol Gly/mug LPS) were determined by high-performance anion-exchange chromatography using pulsed amperometric detection after treatment of the LPS with mild alkali. Oligosaccharides obtained from LPS after mild acid hydrolysis and gel filtration chromatography were investigated by electrospray ionization mass spectrometry (ESI-MS) and capillary electrophoresis (CE) ESI-MS. In all cases, molecular ions corresponding to the major glycoforms were identified and were accompanied by ions differing by 57 Da, thus indicating the presence of glycine. The position of glycine in these glycoforms was determined by CE-ESI-MS/MS analyses. It was found that, depending on strain, glycine can substitute each of the heptoses of the inner-core element, L-alpha-D-Hepp-(1-->2)-[PEtn-->6]-L-alpha-D-Hepp-(1-->3)-L-alpha-D-Hepp- (1-->5)-alpha-Kdo of H. influenzae LPS as well as Kdo. In some strains, mixtures of monosubstituted Gly-containing glycoforms having different substitution patterns were identified.

  • 17. Li, J J
    et al.
    Cox, A D
    Hood, D W
    Schweda, Elke K H
    Södertörn University, School of Life Sciences.
    Moxon, E R
    Richards, J C
    Electrophoretic and mass spectrometric strategies for profiling bacterial lipopolysaccharides2005In: MOLECULAR BIOSYSTEMS, ISSN 1742-206X, Vol. 1, no 1, p. 46-52Article in journal (Refereed)
    Abstract [en]

    Capillary electrophoresis (CE) is a high-resolution separation technique that has been widely used for trace analysis in biological samples. On-line capillary electrophoresis-electro spray mass spectrometry (CE-MS) was developed for the analysis of lipopolysaccharide (LPS) glycoforms from the gram-negative bacteria, Haemophilus influenzae. In this paper, we report on the application of CE-MS to characterize structural differences in O-deacylated LPS samples from H. influenzae strains Rd 11.7 and 375.1. The resolution capability of on-line CE-MS was first demonstrated by analysis of a complex LPS mixture from H. influenzae strain Rd 11.7. This strain contains a mixture of isomeric glycoforms differing in the number and positions of hexose moieties. Sialic acid containing glycoforms were also determined. Structural features of LPS from a lic1 mutant of H. influenzae strain 375 (375.1) were studied using on-line CE-MS/MS. With the separation provided by CE, two isomeric glycoforms differing in the location of phosphoethanolamine substituents were characterized by tandem mass spectrometry.

  • 18. Li, Jianjun
    et al.
    Dzieciatkowska, Monika
    Hood, Derek W.
    Cox, Andrew D.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Moxon, E. Richard
    Richards, James C.
    Structural characterization of sialylated glycoforms of H-influenzae by electrospray mass spectrometry: fragmentation of protonated and sodiated O-deacylated lipopolysaccharides2007In: Rapid Communications in Mass Spectrometry, ISSN 0951-4198, E-ISSN 1097-0231, Vol. 21, no 6, p. 952-960Article in journal (Refereed)
    Abstract [en]

    Sialylated lipopolysaccharide (LPS) glycoforms from Haemophilus influenzae were characterized by tandem mass spectrometry using a new generation hyphenated mass spectrometer which combines a triple quadrupole and a linear ion trap (Q-Trap). The fragmentation of both protonated and sodiated molecular ions from O-deacylated LPS (LPS-OH) obtained in MS2 experiments in the positive mode was studied. The MS2 spectra of protonated ions provided unambiguous evidence for the presence and sequence of sialylated lactosamine present in lacto-N-neotetraose oligosaccharide extensions but not for sialyl-lactose structures whilst fragmentation of sodiated adducts, [M+Na](+), afforded information diagnostic of mono- and disialylated lactose extensions. To study this we used a highly sialylated LPS from a H. influenzae strain capable of sialyl-lactose expression only. We then applied the method to the H. influenzae genome strain, Rd, in which glycoforms containing both sialyl-lactose and sialyl-lacto-N-neotetraose were detected from diagnostic B-ions at m/z 638.2 ([Neu5Ac(1) Hex(2)+ Na](+)) and 657.2 ([Neu5Ac(1) Hex(1) HexNAc(1)+H](+)). Unique fragmentation patterns provided the locations and sequences of these oligosaccharide extensions. This is the first time both sialylated lactose and sialylated lacto-N-neotetraose units have been detected and characterized by tandem mass spectrometry in the same molecule. This methodology is of general applicability for determination of common sialylated oligosaccharide extension in bacterial LPS.

  • 19. Lundström, Susanna L.
    et al.
    Li, Jianjun
    Deadman, Mary E.
    Hood, Derek W.
    Moxon, E. Richard
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Structural analysis of the lipopolysaccharide from nontypeable Haemophilus influenzae strain R28462008In: Biochemistry, ISSN 0006-2960, E-ISSN 1520-4995, Vol. 47, no 22, p. 6025-6038Article in journal (Refereed)
    Abstract [en]

    We here report the lipopolysaccharide (LPS) structures expressed by nontypeable Haemophilus influenzae R2846, a strain whose complete genome sequence has recently been obtained. Results were obtained by using NMR techniques and ESI-MS on O-deacylated LPS and core oligosaccharide material (OS) as well as ESI-MSn on permethylated dephosphorylated OS. A beta-D-Glcp-(1 -> 4)-D-alpha-D-Hepp-(1 -> 6)-beta-D-Glcp-(1 -> 4) unit was found linked to the proximal heptose (HepI) of the conserved triheptosyl inner-core moiety, L-alpha-D-Hepp-(1 -> 2)-[PEtn -> 6]-L-alpha-D-Hepp-(1 -> 3)-L-alpha-D-Hepp-(1 -> 5)-[PPEtn -> 4]-alpha-Kdo-(2 -> 6)-lipid A. The beta-D-Glcp (GlcI) linked to HepI was also branched with oligosaccharide extensions from O-4 and O-6. O-4 of GlcI was substituted with sialyllacto-N-neotetraose [alpha-Neu5Ac-(2 -> 3)-beta-D-Galp-(1 -> 4)-beta-GlcpNAc-(1 -> 3)-beta-D-Galp-(1 -> 4)-beta-D-Glcp-(1 ->] and the related structure [(PEtn -> 6)-alpha-D-GalpNAc-(1 -> 6)-beta-D-Galp-(1 -> 4)-beta-D-GlcpNAc-(1 -> 3)-beta-D-Galp-(1 -> 4)-beta-Glcp-(1-]. The distal heptose (HepIII) was substituted at O-2 by beta-D-Gal. Phosphate, phosphoethanolamine, phosphocholine, acetate, and glycine were found to substitute the core oligosaccharide. Two heptosyltransferase genes, losB1 and losB2, have been identified from the R2846 genome sequence and are candidates to add the noncore heptose to the LPS. Mutant strain R2846losB1 did not show DD-heptose in the extension from HepI but still contained minor quantities of LD-heptose at the same position, indicating that the losB1 gene is required to add DD-heptose to Glcl. The LPS from strain R2846losB1/losB2 expressed no noncore heptose, consistent with losB2 directing the addition of LD-heptose.

  • 20. Lundström, Susanna L.
    et al.
    Li, Jianjun
    Månsson, Martin
    Södertörn University, School of Life Sciences.
    Figueira, Marisol
    Leroy, Magali
    Goldstein, Richard
    Hood, Derek W.
    Moxon, E. Richard
    Richards, James C.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Application of capillary electrophoresis mass spectrometry and liquid chromatography multiple-step tandem electrospray mass spectrometry to profile glycoform expression during Haemophilus influenzae pathogenesis in the chinchilla model of experimental otitis media2008In: Infection and Immunity, ISSN 0019-9567, E-ISSN 1098-5522, Vol. 76, no 7, p. 3255-3267Article in journal (Refereed)
    Abstract [en]

    Otitis media caused by nontypeable Haemophilus influenzae (NTHi) is a common and recurrent bacterial infection of childhood. The structural variability and diversity of H. influenzae lipopolysaccharide (LPS) glycoforms are known to play a significant role in the commensal and disease-causing behavior of this pathogen. In this study, we determined LPS glycoform populations from NTHi strain 1003 during the course of experimental otitis media in the chinchilla model of infection by mass spectrometric techniques. Building on an established structural model of the major LPS glycoforms expressed by this NTHi strain in vitro (M. Mansson, W. Hood, J. Li, J. C. Richards, E. R. Moxon, and E. K. Schweda, Eur. J. Biochem. 269:808-818, 2002), minor isomeric glycoform populations were determined by liquid chromatography multiple-step tandem electrospray mass spectrometry (LC-ESI-MSn). Using capillary electrophoresis ESI-MS (CE-ESI-MS), we determined glycoform profiles for bacteria from direct middle ear fluid (MEF) samples. The LPS glycan profiles were essentially the same when the MEF samples of 7 of 10 animals were passaged on solid medium (chocolate agar). LC-ESI-MSn provided a sensitive method for determining the isomeric distribution of LPS glycoforms in MEF and passaged specimens. To investigate changes in LPS glycoform distribution during the course of infection, MEF samples were analyzed at 2, 5, and 9 days postinfection by CE-ESI-MS following minimal passage on chocolate agar. As previously observed, sialic acid-containing glycoforms were detected during the early stages of infection, but a trend toward more-truncated and less-complex LPS glycoforms that lacked sialic acid was found as disease progressed.

  • 21. Lundström, Susanna L.
    et al.
    Twelkmeyer, Brigitte
    Sagemark, Malin K.
    Li, Jianjun
    Richards, James C.
    Hood, Derek W.
    Moxon, E. Richard
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences.
    Novel globoside-like oligosaccharide expression patterns in nontypeable Haemophilus influenzae lipopolysaccharide2007In: The FEBS Journal, ISSN 1742-464X, E-ISSN 1742-4658, Vol. 274, no 18, p. 4886-4903Article in journal (Refereed)
    Abstract [en]

    We report the novel pattern of lipopolysaccharide (LPS) expressed by two disease-associated nontypeable Haemophilus influenzae strains, 1268 and 1200. The strains express the common structural motifs of H. influenzae; globotetraose [beta-D-GalpNAc-(1 -> 3)-alpha-D-Galp-(1 -> 4)-beta-D-Galp-(1 -> 4)-beta-d-Glcp] and its truncated versions globoside [alpha-D-Galp-(1 -> 4)-beta-D-Galp-(1 -> 4)-beta-D-Glcp] and lactose [beta-D-Galp-(1 -> 4)-beta-D-Glcp] linked to the terminal heptose (HepIII) and the corresponding structures with an alpha-D-Glcp as the reducing sugar linked to the middle heptose (HepII) in the same LPS molecule. Previously these motifs had been found linked only to either the proximal heptose (HepI) or HepIII of the triheptosyl inner-core moiety l-alpha-D-Hepp-(1 -> 2)-[PEtn -> 6]-l-alpha-D-Hepp-(1 -> 3)-l-alpha-D-Hepp-(1 -> 5)-[PPEtn -> 4]-alpha-Kdo-(2 -> 6)-lipid A. This novel finding was obtained by structural studies of LPS using NMR techniques and ESI-MS on O-deacylated LPS and core oligosaccharide material, as well as electrospray ionization-multiple-step tandem mass spectrometry on permethylated dephosphorylated oligosaccharide material. A lpsA mutant of strain 1268 expressed LPS of reduced complexity that facilitated unambiguous structural determination. Using capillary electrophoresis-ESI-MS/MS we identified sialylated glycoforms that included sialyllactose as an extension from HepII, this is a further novel finding for H. influenzae LPS. In addition, each LPS was found to carry phosphocholine and O-linked glycine. Nontypeable H. influenzae strain 1200 expressed identical LPS structures to 1268 with the difference that strain 1200 LPS had acetates substituting HepIII, whereas strain 1268 LPS has glycine at the same position.

  • 22.
    Mikhail, Ivan
    et al.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Yildirim, Håkan H.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Lindahl, Emma C. H.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Schweda, Elke K H
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Structural characterization of lipid A from nontypeable and type f Haemophilus influenzae: Variability of fatty acid substitution2005In: Analytical Biochemistry, ISSN 0003-2697, E-ISSN 1096-0309, Vol. 340, no 2, p. 303-316Article in journal (Refereed)
    Abstract [en]

    Lipid A isolated by mild acid hydrolysis from lipopolysaccharides of 22 nontypeable and 2 type f Haemophilus influenzae strains was investigated using electrospray ionization coupled to quadrupole ion trap mass spectrometry. The lengths, positions, and number of acyl chains in the lipid A molecule were determined using multiple-step tandem mass spectrometry (MSn). All of the analyzed strains showed a major lipid A molecule comprising beta-2-amino-2-deoxy-D-glucopyranose-(1 -> 6)-alpha-2-amino-2-deoxy-D-glucopyranose phosphorylated at the C4 ' and C1 positions. The C2/C2 ' and C3/C3 ' positions were substituted by amide-linked and esterlinked 3-hydroxytetradecanoic acid chains, respectively. The fatty acid chains oil C3 ' and C2 ' were further esterified by tetradecanoic acid chains. In all strains, minor amounts of lipid A molecules with different acylation patterns were identified. Thus, structures comprising the hexaacylated lipid A with the C2 or C3 position being Substituted by 3-hydroxydecanoic acid, and hexaacylated lipid A with the C3 and C3 ' positions being substituted by 3-hydroxydodecanoic or dodecanoyloxytetradecanoic acid, respectively, were found. In addition, lipid A with an acetyl group attached to the 3-hydroxytetradecanoic acid groups attached to the C2 or C3 position was detected in two nontypeable H. influenzae strains.

  • 23.
    Månsson, Martin
    et al.
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Bauer, Sebastian H J
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Hood, D W
    John Radcliffe Hospital, Headington, Oxford, UK.
    Richards, J C
    National Research Council of Canada, Ottawa, Ontario, Canada.
    Moxon, E R
    National Research Council of Canada, Ottawa, Ontario, Canada.
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    A new structural type for Haemophilus influenzae lipopolysaccharide: Structural analysis of the lipopolysaccharide from nontypeable Haemophilus influenzae strain 4862001In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 268, no 7, p. 2148-2159Article in journal (Refereed)
    Abstract [en]

    Structural elucidation of the sialylated lipopolysaccharide (LPS) of non-typeable Haemophilus influenzae (NTHi) strain 486 has been achieved by the application of high-field NMR techniques and ESI-MS along with composition and linkage analyses on O-deacylated LPS and oligosaccharide samples. It was found that the LPS contains the common element of H. influenzae, L-alpha -D-Hepp-(1-->2)][PEtn-->6]-L-alpha -D-Hepp-(1-->3)-[beta -D-Glcp-( 1-->4)]-L-alpha -D-Hepp-(1-->5)- [PPEtn-->4]-alpha -Kdop- (2-->6)-Lipid A, but instead of glycosyl substitution of the terminal heptose residue (HepIII) at the O2 position observed in other H. influenzae strains, HepIII is chain elongated at the O3 position by either lactose or sialyllactose (i.e. alpha -Neu5Ac(2-->3)-beta -D-Galp-(1-->4)-beta -D-Glcp). The LPS is substituted by an O-acetyl group linked to the O2 position of HepIII and phosphocholine (PCho) which was located at the O6 position of a terminal alpha -D-Glcp, residue attached to the central heptose, a molecular environment different from what has been reported earlier for PCho. In addition, minor substitution by O-linked glycine to the LPS was observed. By investigation of LPS from a lpsA mutant of NTHi strain 486, it was demonstrated that the lpsA gene product also is responsible for chain extension from HepIII in this strain. The involvement of lic1 in expression of PCho was established by investigation of a lic1 mutant of NTHi strain 486.

  • 24.
    Månsson, Martin
    et al.
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Hood, D W
    John Radcliffe Hospital, Oxford, UK.
    Li, J J
    National Research Council of Canada, Ottawa, Ontario, Canada.
    Richards, J C
    National Research Council of Canada, Ottawa, Ontario, Canada.
    Moxon, E R
    John Radcliffe Hospital, Oxford, UK.
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Structural analysis of the lipopolysaccharide from nontypeable Haemophilus influenzae strain 10032002In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 269, no 3, p. 808-818Article in journal (Refereed)
    Abstract [en]

    Structural analysis of the lipopolysaccharide (LPS) of nontypeable Haemophilus influenzae strain 1003 has been achieved by the application of high-field NMR techniques, ESI-MS. capillary electrophoresis coupled to ESI-MS. composition and linkage analyses on O-deacylated LPS and core oligosaccharide material. It was found that the LPS contains the common structural element of H. influenzae, L-alpha-D-Hepp-(1 --> 2)-[PEtn --> 6]-L-alpha-D-Hepp-(1 --> 3)-[beta-D-Glcp-(1 --> 4)]-L-alpha-D-Hepp-(1 --> 5)-[PP Etn --> 4]-alpha-Kdop-(2 --> 6)-Lipid A. in which the beta-D-Glcp residue is substituted by phosphocholine at O-6 and an acetyl group at O-4. A second acetyl group is located at O-3 of the distal heptose residue (HepIII). HepIII is chain elongated at O-2 by either a beta-D-Glcp residue (major), lactose or sialyllactose (minor, i.e. alpha-Neu5Ac-(2 --> 3)-beta-D-Galp-(1 --> 4)-beta-D-Glcp), where a third minor acetylation site was identified at the glucose residue. Disialylated species were also detected. In addition. a minor substitution of ester-linked glycine at HepIII and Kdo was observed.

  • 25.
    Månsson, Martin
    et al.
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Hood, D W
    John Radcliffe Hospital, Oxford, UK.
    Moxon, E R
    John Radcliffe Hospital, Oxford, UK.
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Structural characterization of a novel branching pattern in the lipopolysaccharide from nontypeable Haemophilus influenzae2003In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 270, no 14, p. 2979-2991Article in journal (Refereed)
    Abstract [en]

    Structural analysis of the lipopolysaccharide (LPS) from nontypeable Haemophilus influenzae strain 981 has been achieved using NMR spectroscopy and ESI-MS on O-deacylated LPS and core oligosaccharide (OS) material as well as by ESI-MSn on permethylated dephosphorylated OS. A heterogeneous glycoform population was identified, resulting from the variable length of the OS branches attached to the glucose residue in the common structural element of H. influenzae LPS, L-alpha-d-Hepp -(1-->2)-[P Etn-->6]-L-alpha-d-Hepp -(1-->3)-[beta-d-Glcxp-(1-->4)]-L-alpha-d-Hepp -(1-->5)-[PP Etn-->4]-alpha-Kdop -(2-->6)-Lipid A. Notably, the O-6 position of the beta-d-Glcp residue was either substituted by P Cho or the disaccharide branch beta-d-Galp-(1-->4)-d-alpha-d-Hepp, while the O-4 position was substituted by the globotetraose unit, beta-d-Galp NAc-(1-->3)-alpha-d-Galp -(1-->4)-beta-d-Galp -(1-->4)-beta-d-Glcp, or sequentially truncated versions thereof. This is the first time a branching sugar residue has been reported in the outer-core region of H. influenzae LPS. Additionally, a P Etn group was identified at O-3 of the distal heptose residue in the inner-core.

  • 26.
    Månsson, Martin
    et al.
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Hood, D W
    John Radcliffe Hospital, Oxford, UK.
    Moxon, E R
    John Radcliffe Hospital, Oxford, UK.
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap. Karolinska Institutet.
    Structural diversity in lipopolysaccharide expression in nontypeable Haemophilus influenzae - Identification of L-glycero-D-manno-heptose in the outer-core region in three clinical isolates2003In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 270, no 4, p. 610-624Article in journal (Refereed)
  • 27. Richards, J C
    et al.
    Cox, A D
    Schweda, Elke K H
    Södertörn University, Avdelning Naturvetenskap.
    Martin, A
    Hood, D W
    Moxon, E R
    Structure and functional genomics of lipopolysaccharide expression in Haemophilus influenzae2001In: MOLECULAR IMMUNOLOGY OF COMPLEX CARBOHYDRATES-2, 2001, p. 515-524Conference paper (Refereed)
  • 28.
    Schweda, Elke K H
    et al.
    Södertörn University, Avdelning Naturvetenskap.
    Brisson, J R
    Alvelius, G
    Martin, A
    Weiser, J N
    Hood, D W
    Moxon, E R
    Richards, J C
    Characterization of the phosphocholine-substituted oligosaccharide in lipopolysaccharides of type b Haemophilus influenzae2000In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 267, no 12, p. 3902-3913Article in journal (Refereed)
    Abstract [en]

    Haemophilus influenzae expresses heterogeneous populations of short-chain lipopolysaccharide (LPS) which exhibit extensive antigenic diversity among multiple oligosaccharide epitopes. These LPS oligosaccharide epitopes can carry phosphocholine (PCho) substituents, the expression of which is subject to high frequency phase variation mediated by genes in the lic1 genetic locus. The location and site of attachment of PCho substituents were determined by structural analysis of LPS from two type b H. influenzae strains, Eagan and RM7004. The lic2 locus is involved in phase variation of oligosaccharide expression. LPS obtained from the parent strains, from mutants generated by insertion of antibiotic resistance cassettes in the lic2 genetic locus, and from phase-variants showing high levels of PCho expression was characterized by electrospray ionization-mass spectrometry (ESI-MS) and H-1 NMR spectroscopy of derived O-deacylated samples. ESI-MS of O-deacylated LPS from wild-type strains revealed mixtures of related glycoform structures differing in the number of hexose residues. Analysis of LPS from PCho-expressing phase-variants revealed similar mixtures of glycoforms, each containing a single PCho substituent. O-Deacylated LPS preparations from the lic2 mutants were much less complex than their respective parent strains, consisting only of Hex3 and/or Hex2 glycoforms, were examined in detail by high-field NMR techniques. It was found that the LPS samples contain the phosphoethanolamine (PEtn) substituted inner-core element, L-alpha-D-Hepp-(1-->2)-[PEtn-->6]-L-alpha-D-Hepp-(1-->3)-L-alpha-D-Hepp- (1-->5)-alpha-Kdo in which the major glycoforms carry a beta-D-Glcp or beta-D-Glcp-(1-->4)-beta-D-Glcp at the O-4 position of the 3-substituted heptose (HepI) and a beta-D-Galp at the O-2 position of the terminal heptose (HepIII). LPS from the lic2 mutants of both type b strains were found to carry PCho groups at the O-6 position of the terminal beta-D-Galp residue attached to HepIII. In the parent strains, the central heptose (HepII) of the LPS inner-core element is also substituted by hexose containing oligosaccharides. The expression of the galabiose epitope in LPS of H. influenzae type b strains has previously been linked to genes comprising the lic2 locus. The present study provides definitive evidence for the role of lic2 genes in initiating chain extension from HepII. From the analysis of core oligosaccharide samples, LPS from the lic2 mutant strain of RM7004 was also found to carry O-acetyl substituents. Mono-, di-, and tri-O-acetylated LPS oligosaccharides were identified. The major O-acetylated glycoforms were found to be substituted at the O-3 position of HepIII. A di-O-acetylated species was characterized which was also substituted at the O-6 postion of the terminal beta-D-Glc in the Hex3 glycoform. This is the first report pointing to the occurrence of O-acetyl groups in the inner-core region of H. influenzae LPS. We have previously shown that in H. influenzae strain Rd, a capsule-deficient type d strain, PCho groups are expressed in a different molecular environment, being attached at the O-6 position of a beta-D-Glcp, which is in turn attached to HepI.

  • 29.
    Schweda, Elke K H
    et al.
    Södertörn University, Avdelning Naturvetenskap.
    Landerholm, Malin K
    Södertörn University, Avdelning Naturvetenskap.
    Li, J J
    Moxon, E R
    Richards, J C
    Structural profiling of lipopolysaccharide glycoforms expressed by non-typeable Haemophilus influenzae: phenotypic similarities between NTHi strain 162 and the genome strain Rd2003In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 338, no 23, p. 2731-2744Article in journal (Refereed)
    Abstract [en]

    Non-typeable Haemophihis influenzae (NTHi) is a significant cause of otitis media in children. We have employed single and multiple step electrospray ionization mass spectrometry (ESIMS) and NMR spectroscopy to profile and elucidate lipopolysaccharide (LPS) structural types expressed by NTHi strain 162, a strain obtained from an epidemiological study in Finland. ESIMS on O-deacylated LPS (LPS-OH) and core oligosaccharide (OS) samples of LPS provided information on the composition and relative abundance of glycoforms differing in the number of hexoses linked to the conserved inner-core element, L-alpha-D-Hepp-(1--> 2)-[PEtn --> 6]-L-alpha-D-Hepp-(1 --> 3)-L-alpha-D-Hepp-(1 --> 5)(.)[PPEtn --> 4]-alpha-Kdop-(2 --> 6)-Lipid A of H. influenzae LPS. The strain examined was found to elaborate Hex2 to Hex5 LPS glycoform populations having structures identical to those observed for H. influenzae strain Rd [Risberg, A.; Masoud, H.; Martin, A.; Richards, J.C.; Moxon, E.R.; Schweda, E.K.H. Eur. J Biochem. 1999, 261, 171-180], the strain for which the complete genome has been sequenced. In addition, sialyllactose-containing glycoforms previously identified in strain Rd as well as several NTHi strains, were identified as minor components. Multiple step tandem ESIMS (MS") on dephosphorylated and permethylated OS provided information on the arrangement of glycoses within the major population of glycoforms and on the existence of additional isomeric glycoforms. Minor Hex1 and Hex6 glycoforms were detected and characterized where the Hex6 glycoform was comprised of a dihexosamine-containing pentasaccharide chain attached at the proximal heptose residue of the inner-core unit. LPS structural motifs present in the NTHi strain 162 are expressed by a genetically diverse set of disease causing isolates, providing the basis for a vaccine strategy against NTHi otitis media.

  • 30.
    Schweda, Elke K H
    et al.
    Södertörn University, Avdelning Naturvetenskap.
    Li, J J
    Moxon, E R
    Richards, J C
    Structural analysis of lipopolysaccharide oligosaccharide epitopes expressed by non-typeable Haemophilus influenzae strain 1762002In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 337, no 5, p. 409-420Article in journal (Refereed)
    Abstract [en]

    The structure of the lipopolysaccharide (LPS) from non-typeable Haemophilus influenzae strain 176 has been investigated. Electrospray ionization-mass spectrometry (ESIMS) on O-deacylated LPS (LPS-OH) and core oligosaccharide (OS) samples obtained after mild-acid hydrolysis of LPS provided information on the composition and relative abundance of the glycoforms. ESIMS tandem-mass spectrometry on LPS-OH confirmed the presence of minor sialylated and disialylated glycoforms. Oligosaccharide samples were studied in detail using high-field NMR techniques. It was found that the LPS contains the common inner-core element of H. influenzae. L-alpha-D-Hepp-(1-->2)-[PEtn-->6]-L-alpha-D-Hepp-(1-->3)-[beta-D-Glep-(1 -->4)]-L-alpha-D-Hepp-(1-->5)[PPEtn-->4]-alpha-Kdop-(2-->6)-Lipid A having glycosyl substitution at the O-3 position of the terminal heptose as recently observed for non-typeable H. influenzae strain 486 [Mansson, M.: Bauer. S. H. J.: Hood, D. W.; Richards, J. C. Moxon, E. R. Schweda. E. K. H., Eur. J. Biochem. 2001. 268. 2148-2159]. The following LPS structures were identified as the major glycoforms. the most significant being indicated with an asterisk (*) (glycoforms are partly substituted with Gly at the terminal Hep): [GRAPHICS].

  • 31.
    Schweda, Elke K H
    et al.
    Södertörn University, School of Life Sciences, Chemistry.
    Richards, James C.
    Profiling LPS Glycoforms of Non-typeable Haemophilus influenzae by Multiple-Stage Tandem Mass Spectrometry2010In: Functional glycomics: methods and protocols / [ed] Jianjun Li, New York: Humana Press, 2010, p. 79-92Chapter in book (Refereed)
    Abstract [en]

    Non-typeable (acapsular) Haemophilus influenzae (NTHi) is a major cause of otitis media accounting for 25-30% of all cases of the disease. Lipopolysaccharide (LPS) is an essential and exposed component of the H. influenzae cell wall. A characteristic feature of H. influenzae LPS is the extensive inter-strain and intra-strain heterogeneity of glycoform structure which is key to the role of the molecule in both commensal and disease-causing behavior of the bacterium. However, to characterize LPS structure unambiguously is a major challenge due to the extreme heterogeneity of glycoforms that certain strains express. A powerful tool for obtaining sequence and branching information is multiple-stage tandem ESI-MS (ESI-MS(n)) performed on dephosphorylated and permethylated oligosaccharide material using an ESI-quadrupole ion trap mass spectrometer. In general, permethylation increases the MS response by several orders of magnitude and sequence information is readily obtained since methyl tagging allows the distinction between fragment ions generated by cleavage of a single glycosidic bond and inner fragments resulting from the rupture of two glycosidic linkages. Using this approach we are now able to identify all isomeric glycoforms in very heterogeneous LPS preparations.

  • 32.
    Schweda, Elke K. H.
    et al.
    Södertörn University, School of Life Sciences.
    Twelkmeyer, Brigitte
    Li, Jianjun
    Profiling structural elements of short-chain lipopolysaccharide of non-typeable Haemophilus influenzae2008In: Innate Immunity, ISSN 1753-4259, E-ISSN 1753-4267, Vol. 14, no 4, p. 199-211Article in journal (Refereed)
    Abstract [en]

    Lipopolysaccharide (LPS) is a major Virulence determinant of the human bacterial pathogen Hoemophilus influenzae. A characteristic feature of H. influenzae LPS is the extensive intra- and inter-strain heterogeneity of glycoform structure which is key to the role of the molecule in both commensal and disease-causing behaviour of the bacterium. The chemical composition of non-typeable Haemophilus influenzae (NTHi) LPS is hi-lily diverse. It contains a number of different monosaccharides (Neu5Ac, L-glycero-D-manno heptose, D-glycero-D-manno heptose, Kdo, D-Glc, D-Gal, D-GlcNAc, D-GaINAc) and non-carbohydrate substituents. Prominent non-carbohydrate components are O-acetyl groups, glycine and phosphates. We now know that sialic acid (N-acetylneuraminic acid or Neu5Ac) and certain oligosaccharide extensions are important in the pathogenesis of NTHi: however, the biological implications for many of the various features are Still unknown. Electrospray ionization mass spectrometry ill combination with separation techniques like CE and HPLC is an indispensable tool in profiling glycoform populations ill heterogeneous LPS samples. Mass Spectrometry is characterized by its extreme sensitivity. Trace amounts of glycoforms expressing important Virulence determinants can be detected and characterized on minute amounts of material. The present review focuses oil LPS structures and mass spectrometric methods which enable us to profile these in complex mixtures.

  • 33. Tinnert, A S
    et al.
    Månsson, Martin
    Södertörn University, School of Life Sciences.
    Yildirim, Håkan H
    Södertörn University, School of Life Sciences.
    Hood, D W
    Schweda, Elke K H
    Södertörn University, School of Life Sciences.
    Structural investigation of lipopolysaccharides from nontypeable Haemophilus influenzae: investigation of inner-core phosphoethanolamine addition in NTHi strain 9812005In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 340, no 11, p. 1900-1907Article in journal (Refereed)
    Abstract [en]

    LPS of NTHi comprises a conserved tri-L-glycero-D-manno-heptosyl inner-core moiety (L-alpha-D-Hepp-(1 -> 2)-[PEtn -> 6]-L-alpha-D-Hepp-(1 -> 3)-[beta-D-Glcp-(1 -> 4)]-L-alpha-D-Hepp-(1 -> 5)-alpha-Kdop) in which addition of PEtn to the central heptose (HepII) in strain Rd is controlled by the gene lpt6. It was recently shown that NTHi strain 981 contains an additional PEtn linked to O-3 of the terminal heptose of the inner-core moiety (HepIII). In order to establish whether lpt6 is also involved in adding PEtn to HepIII, lpt6 in strain 981 was inactivated. The structure of the LPS of the resulting mutant strain 981lpt6 was investigated by MS and NMR techniques by which it was confirmed that the lpt6 gene product is responsible for addition of PEtn to O-6 of HepII in strain 981. However, it is not responsible for adding PEtn to O-3 of HepIII since the 981lpt6 mutant still had full substitution with PEtn at HepIII

  • 34.
    Yildirim, Håkan H.
    et al.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Hood, D W
    University of Oxford, John Radcliffe Hostpital, Oxford, UK.
    Moxon, E R
    University of Oxford, John Radcliffe Hostpital, Oxford, UK.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Structural analysis of lipopolysaccharides from Haemophilus influenzae serotype f - Structural diversity observed in three strains2003In: European Journal of Biochemistry, ISSN 0014-2956, E-ISSN 1432-1033, Vol. 270, no 15, p. 3153-3167Article in journal (Refereed)
    Abstract [en]

    Structural elucidation of the lipopolysaccharide (LPS) from three serotype f Haemophilus influenzae clinical isolates RM6255, RM7290 and RM6252 has been achieved using NMR spectroscopy techniques and ESI-MS on O-deacylated LPS and core oligosaccharide material (OS) as well as ESI-MSn on permethylated dephosphorylated OS. This is the first study to report structural details on LPS from serotype f strains. We found that the LPSs of all strains were highly heterogeneous mixtures of glycoforms expressing the common H. influenzae structural element l-alpha-d-Hepp -(1-->2)-[P Etn-->6]-l-alpha-d-Hepp -(1-->3)-[beta-d-Glcp -(1-->4)]-l-alpha-d-Hepp -(1-->5)-[PP Etn-->4]-alpha-Kdo-(2-->6)-lipid A with variable length of OS chains linked to each of the heptoses. The terminal heptose (HepIII) in RM6255 is substituted at the O-3 position by a beta-d-Glcp residue whereas HepIII in strains RM7290 and RM6252 is substituted at O-2 by the globoside unit (alpha-d-Galp -(1-->4)-beta-d-Galp -(1-->4)-beta-d-Glc) or truncated versions thereof. The central heptose (HepII) is substituted by an alpha-d-Galp -(1-->4)-beta-d-Galp -(1-->4)-beta-d-Glcp -(1-->4)-alpha-d-Glcp unit in RM7290 and RM6252 or truncated versions thereof. Strain RM6255 does not express galactose in its LPS and only shows a cellobiose unit elongating from HepII (beta-d-Glcp -(1-->4)-alpha-d-Glcp ). ESI-MSn on dephosphorylated and permethylated OS provided information on the existence of additional minor isomeric glycoforms.

  • 35.
    Yildirim, Håkan H.
    et al.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Li, J J
    National Research Council of Canada, Ottawa, Canada.
    Richards, J C
    National Research Council of Canada, Ottawa, Canada.
    Hood, D W
    John Radcliffe Hospital, Oxford, UK.
    Moxon, E R
    John Radcliffe Hospital, Oxford, UK.
    Schweda, Elke K. H.
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    An alternate pattern for globoside oligosaccharide expression in Haemophilus influenzae lipopolysaccharide: Structural diversity in nontypeable strain 11242005In: Biochemistry, ISSN 0006-2960, E-ISSN 1520-4995, Vol. 44, no 13, p. 5207-5224Article in journal (Refereed)
    Abstract [en]

    Common structural motifs of Haemophilus influenzae lipopolysaccharide (LPS) are globotetraose [beta-D-GalpNAc-(1 -> 3)-alpha-D-Galp-(1 -> 4)-beta-D-Galp-(1 -> 4)-beta-D-Glcp] and its truncated versions globoside [alpha-D-Galp-(1 -> 4)-beta-D-Galp-(1 -> 4)-beta-D-Glcp] and lactose [beta-D-Galp-(1 -> 4)-beta-D-Glcp] linked to the tenninal heptose (HepIII) of the triheptosyl inner-core moiety L-alpha-D-Hepp-(1 -> 2)-[PEA -> 6]-L-alpha-D-Hepp-(1 -> 3)L-alpha-D-Hepp-(1 -> 5)-[PPEA -> 4]-alpha-Kdo-(2 -> 6)-lipid A. We report here structural studies of LPS from nontypeable H. influenzae strain 1124 expressing these motifs linked to both the proximal heptose (HepI) and HepIII at the same time. This novel finding was obtained by structural studies of LPS using NMR techniques and electrospray ionization mass spectrometry (ESI-MS) on O-deacylated LPS and core oligosaccharide material (OS) as well as ESI-MSn on permethylated dephosphorylated OS. The use of defined mutants allowed us to confirm structures unambiguously and understand better the biosynthesis of each of the globotetraose units. We found that lgtC is involved in the expression of beta-D-Galp-(1 -> 4)-beta-D-Galp in both extensions, whereas lic2A directs only the expression Of beta-D-Ga1p-(1 -> 4)-beta-D-Glcp when linked to HepIII. The LPS of NTHi strain 1124 contained sialylated glycoforms that were identified by CE-ESI-MS/MS. A common sialylated structure in H. influenzae LPS is sialyllactose linked to HepIII. This structure exists in strain 1124. However, results for the lpsA mutant indicate that sialyllactose extends from HepI as well, a molecular environment for sialyllactose in H. influenzae that has not been reported previously. In addition, the LPS was found to carry phosphoryleholine, O-linked glycine, and a third PEA group which was linked to O3 of HepIII.

  • 36.
    Yildirim, Håkan H
    et al.
    Södertörn University, School of Life Sciences. Karolinska institutet.
    Li, J J
    National Research Council, Ottawa, Canada.
    Richards, J C
    National Research Council, Ottawa, Canada.
    Hood, D W
    John Radcliffe Hospital, Oxford, UK.
    Moxon, E R
    John Radcliffe Hospital, Oxford, UK.
    Schweda, Elke K H
    Södertörn University, School of Life Sciences. Karolinska Institutet.
    Complex O-acetylation in non-typeable Haemophilus influenzae lipopolysaccharide: evidence for a novel site of O-acetylation2005In: Carbohydrate Research, ISSN 0008-6215, E-ISSN 1873-426X, Vol. 340, no 17, p. 2598-2611Article in journal (Refereed)
    Abstract [en]

    The structure of the lipopolysaccharide (LPS) of non-typeable Haemophilus influenzae strain 723 has been elucidated using NMR spectroscopy and electrospray ionization mass spectrometry (ESI-MS) on O-deacylated LPS and core oligosaccharide material (OS), as well as ESI-MSn on permethylated dephosphorylated OS. It was found that the LPS contains the common structural element of H. influenzae, L-alpha-D-Hepp-(1 -> 2)-[PEtn -> 6]-L-alpha-D-Hepp-(1 -> 3)-[beta-D-Glcp-(1 -> 4)]-L-alpha-D-Hepp-(1 -> 5)-[PPEtn -> 4]-alpha-Kdo-(2 -> 6)-Lipid A, in which the beta-D-Glcp residue (GlcI) is substituted by phosphocholine at O-6 and the distal heptose residue (HepIII) by PEW at O-3, respectively. In a subpopulation of glycoforms O-2 of HepIII was substituted by beta-D-Galp-(1 -> 4)-beta-D-Glcp-(1 -> or beta-D-Glcp-(1 ->. Considerable heterogeneity of the LPS was due to the extent of substitution by O-acetyl groups (Ac) and ester-linked glycine of the core oligosaccharide. The location for glycine was found to be at Kdo. Prominent acetylation sites were found to be at GlcI, HepIII, and the proximal heptose (HepI) residue of the triheptosyl moiety. Moreover, GlcI was acetylated at O-3 and/or O-4 and HepI was acetylated at O-2 as evidenced by capillary electrophoresis ESI-MS" in combination with NMR analyses. This is the first study to show that an acetyl group can substitute HepI of the inner-core region of H. influenzae LPS.

1 - 36 of 36
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