Two isogenic mutants of Haemophilus influenzae type b (Hib) strain A2 were prepared by random m-Tn3(Cm) insertions into the 7.4-kb lsg (lipooligosaccharide synthesis genes) region of Hib DNA, which consists of seven complete and one partial open reading frame (orfs). Compared to the parent A2 strain which produces a complex mixture of lipooligosaccharides (LOS), the mutant strains 281.25 and 276.4 produced only a few LOS species. The precise locations of transposon insertions into the lsg loci of these mutants were determined (base 3546 in orf 4 for strain 281.25 and base 4402 in orf 5 for strain 276.4), and the effects of these mutations on LOS biosynthesis and epitope expression were evaluated. When the O-deacylated LOS were analyzed by mass spectrometry, both strains contained major LOS species of M(r) 2601, 2439, and 2277, which consisted of a common heptose trisaccharide core structure [Hep3(PEA)Kdo(P)-lipid A, where Hep is L-glycero-D-manno-heptose, Kdo is 3-deoxy-D-manno-octulosonic acid, and PEA is phosphoethanolamine] and four, three, or two hexoses, respectively. These species represent the smallest components of the wild-type LOS mixture. The major LOS oligosaccharide obtained from the strain 281.25 by mild acid hydrolysis was dephosphorylated and shown by composition analysis, methylation analysis, mass spectrometry, and 2D NMR studies to be a triantennary structure consisting of a heptose trisaccharide core with two glucose disaccharide branches: Hep alpha 1 --> (Glc beta 1 --> 4Glc alpha 1 --> 3) 2Hep alpha 1 --> (Glc beta 1 --> 4Glc beta 1 --> 4)3Hep alpha 1 --> anhydroKdo. Unlike the parent A2 strain, mutant strain 281.25 cannot add galactoses to the branches of this octasaccharide. Strain 276.4 is similarly deficient, except that it can still utilize a minor biosynthetic pathway leading to the addition of sialyl-N-acetyllactosamine.
Previously, we reported the expression of chimeric lipopolysaccharides (LPS) in 5, 2475-2480). In this current study, we have analyzed the O-deacylated LPS and free oligosaccharides from three transformants (designated pGEMLOS-4, pGEM-LOS-5, and pGEMLOS-7) by matrix-assisted laser desorption ionization, electrospray ionization, and tandem mass spectrometry techniques, along with composition and linkage analyses. These data show that the chimeric LPS consist of the complete E. coli LPS core structure glycosylated on the 7-position of the non-reducing terminal branch heptose with oligosaccharides from H. influenzae. In pGEMLOS-7, the disaccharide Gal13 3GlcNAc13 is added, and in pGEMLOS-5, the structure is extended to Gal134GlcNAc133Gal133GlcNAc13. PGEMLOS-5 LPS reacts positively with monoclonal antibody 3F11, an antibody that recognizes the terminal disaccharide of lacto-N-neotetraose. In pGEMLOS-4 LPS, the 3F11 epitope is apparently blocked by glycosylation on the 6-position of the terminal Gal with either Gal or GlcNAc. The biosynthesis of these chimeric LPS was found to be dependent on a functional wecA (formerly rfe) gene in E. coli. By using this carbohydrate expression system, we have been able to examine the functions of the lsg genes independent of the effects of other endogenous Haemophilus genes and expressed proteins.Capsular strains of Haemophilus influenzae type b (Hib) 1 are responsible for various invasive and bacteremic infections in humans, including meningitis and pneumonia. The surface lipooligosaccharides (LOS) of Hib are known to be important factors in microbial virulence and pathogenesis (1-3). Structural studies of Hib LOS from wild-type (4, 5) and mutant strains (6 -8) have shown that the LOS contains a conserved heptose trisaccharide core that can be extended with additional sugars on each heptose. However, efforts to correlate defined LOS structures with specific biological functions have been hindered by the high degree of microheterogeneity and antigenic variability of Hib LOS. Additionally, some Hib LOS epitopes phase vary at high frequencies due to slip-strand mispairing (9), adding a further level of structural complexity to wild-type Hib LOS populations.To facilitate the elucidation of LOS biosynthesis and to determine the relationship of LOS structures to the biology and pathophysiology of Haemophilus infections, our laboratory has cloned a gene cluster from Hib strain A2 containing LOS synthesis genes (lsg) (10). The lsg loci are contained within a 7.4-kb DNA fragment, consisting of seven complete open reading frames (ORFs) (11). This region is one of several distinct loci found in the genome sequence of Hib strain Rd (12) that have been associated with lipopolysaccharide (LPS) biosynthesis (13). Recently, a series of isogenic mutants of Hib A2 was generated by transposon mutagenesis of the lsg region using minitransposon m-Tn3(Cm) (14). Several of the transposon mutants produced much simpler LOS mixtures than the wildtype Hib A2 LOS and no longer reacted with one or more of the...
Di-(2-ethylhexyl) phthalate (DEHP) accumulates in blood brought into contact with materials utilizing this compound as a plasticizer. To determine whether this phthalate diester affects red blood cell integrity, we have compared cell morphology, plasma hemoglobin accumulation, micro-vesicle production, and the concentration of intracellular metabolites and electrolytes of erythrocytes from blood stored at 4 degrees C with and without DEHP. When sufficient emulsified DEHP was mixed with blood to give a final concentration of 300 micrograms/mL, plasma hemoglobin accumulation was reduced by an average of 70%, the percentage of cells exhibiting normal morphology was enhanced by at least 20-fold, and the volume of microvesicles released from red blood cells was reduced by 50% after 35 days of refrigerated storage compared to the values obtained from corresponding samples stored without added phthalate. Similar effects were observed regardless of whether blood was stored in nonplasticized polypropylene or tri-(2-ethylhexyl) trimellitate plasticized polyvinylchloride containers and with DEHP solubilized by a variety of emulsifiers. When 300 micrograms/mL DEHP was added to stored blood containing erythrocytes predominantly in the echinocyte conformation, many of the cells reverted to the normal discoid morphology. The addition of this quantity of DEHP to blood had no significant effect on the course of storage-induced changes in erythrocyte adenosine triphosphate (ATP), 2,3-diphosphoglycerate (2,3-DPG), sodium or potassium concentrations. The data are consistent with the hypothesis that DEHP inhibits the deterioration of the red blood cell membrane that results from the refrigerated storage of whole blood.
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