Determination of the Structure and Conformation of Bacterial Polysaccharides by Carbon 13 Nuclear Magnetic Resonance STUDIES ON THE GROUP-SPECIFIC ANTIGENS OF NEISSERIA MENINGITIDIS SEROGROUPS A AND X

Abstract The application of carbon 13 nuclear magnetic resonance to analysis of some phosphorylated acetamidohexose-containing meningococcal polysaccharides is described. A complete assignment of the spectra of both the serogroup A and X polysaccharides has been made. In addition the spectrum of a structurally related 1 →6-α-linked 2-acetamido-2-deoxy-d-glucose phosphate polysaccharide from Staphylococcus lactis NCTC 2102 has also been completely assigned. This has resulted in the structural elucidation of the serogroup X polysaccharide as a homopolymer of 2-acetamido-2-deoxy-d-glucopyranose, linked by 1→4-α-phosphodiester bonds. In addition, the O-acetyl substituents of the serogroup A polysaccharide have been located at C-3 of approximately 70% of the repeating units (1→6-α-linked 2-acetamido-2-deoxy-d-mannopyranose phosphate) of the homopolymer. Preliminary conformational information was also obtained from the large three-bond couplings between 31P and 13C (3J3131p-1313c), indicative of highly extended backbone formations

Biochemical Engineering of Surface α2–8 Polysialic Acid for Immunotargeting Tumor Cells

To target tumor cells for immunotherapy, we evaluated the feasibility of altering the epitopes on the surface polysialic acid of tumor cells. A precursor (N-propionylmannosamine), when incubated with leukemic cells, RBL-2H3 and RMA, resulted in substitution of the N-acetyl groups of surface alpha2-8 polysialic acid with N-propionyl groups. Expression of the altered alpha2-8 N-propionylpolysialic acid on the surface of tumor cells induced their susceptibility to cell death mediated by monoclonal antibody 13D9 (mAb 13D9), which specifically recognizes alpha2-8 N-propionylated polysialic acid. The expression of alpha2-8 N-propionylated polysialic acid and the lysis of tumor cells by antibody-dependent cytotoxicity depended on the time and dose of incorporation of N-propionylated mannosamine. In vivo, mAb 13D9 effectively controlled metastasis of leukemic cells RMA when mice were administered the precursor N-propionylated mannosamine

Nitrogen and carbohydrate content of the strawberry plant : seasonal changes and the effects of fertilizers

Publication authorized March 19, 1937."Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in the Graduate School of the University of Missouri, 1936"--P. [3].Includes bibliographical references (pages 51-52)

Structure of the sialylated L3 lipopolysaccharide of Neisseria meningitidis.

The L3 immunotype lipopolysaccharide (LPS) of Neisseria meningitidis was subjected to degradation procedures, which produced a number of different oligosaccharide fragments. The high resolution 1H and 13C NMR spectroscopic analyses of these oligosaccharides yielded structural information on a number of different regions of the LPS. For example, from one oligosaccharide, it was found that the endogenous sialylation of the meningococcal LPS occurs at O-3 of the terminal beta-D-galactopyranosyl residue of its lacto-N-neotetraose antenna in the alpha-D-configuration. From another, it was also established that the dominant structural feature responsible for L3 epitope specificity is the presence of a phosphorylethanolamine substituent at O-3 of the penultimate heptopyranosyl residue of its other antenna. In addition from information obtained with another oligosaccharide the structure of the 3-deoxy-D-manno-octulosonic acid disaccharide region of the L3 LPS was also elucidated. From all the above cumulative data plus some published data, it was then possible to reconstruct the complete structure of the entire native L3 LPS

Discovery of an α2,9-PolyNeu5Ac Glycoprotein in C-1300 Murine Neuroblastoma (Clone NB41A3)

alpha2,8-PolyNeu5Ac is expressed on neural cell adhesion molecules during embryogenesis and also re-expressed on certain tumors. PolyNeu5Ac is therefore an oncodevelopmental antigen, has important regulatory effects on the adhesive and migratory behavior of neural cells, and is thus crucial to synaptic plasticity. Until now, alpha2,9-polyNeu5Ac, a linkage isomer of alpha2,8-polyNeu5Ac, has long been thought to occur only in capsules of neuroinvasive Neisseria meningitidis group C bacteria. Here we report the unexpected discovery of alpha2,9-polyNeu5Ac in a new cell adhesion-related glycoprotein on the membrane of C-1300 murine neuroblastoma cells (clone NB41A3). We also report the expression of alpha2,9-polyNeu5Ac was affected by cell growth and retinoic acid-induced differentiation. Occurrence of the linkage isomer of alpha2,8-polyNeu5Ac has been left unrecognized by conventional methods using biological diagnostic probes for alpha2,8-polyNeu5Ac. Thus, our discovery may change contemporary views of biology and pathology of polysialic acid and open new avenues for the development of anti-neural tumor drugs

Structural and immunochemical characterization of the type VIII group B Streptococcus capsular polysaccharide.

The type VIII capsular polysaccharide has been isolated and purified from a newly described strain of group B Streptococcus which is a leading cause of sepsis and neonatal meningitis in Japan. The polysaccharide contains D-glucose, D-galactose, L-rhamnose, and sialic acid in the molar ratio 1:1:1:1. By means of high resolution 1H nuclear magnetic resonance (1H NMR), 13C NMR, and homo- and heterocorrelated NMR, the repeating unit structure of the type VIII polysaccharide was delineated as the following, [formula: see text] Enzymatic studies established this polysaccharide as the first from which sialic acid, linked to a branched beta-D-galactopyranosyl residue, is known to be removed by bacterial neuraminidase

T Cells Activated by Zwitterionic Molecules Prevent Abscesses Induced by Pathogenic Bacteria

Immunologic paradigms classify bacterial polysaccharides as T cell-independent antigens. However, these models fail to explain how zwitterionic polysaccharides (Zps) confer protection against intraabdominal abscess formation in a T cell-dependent manner. Here, we demonstrate that Zps elicit a potent CD4+ T cell response in vitro that requires available major histocompatibility complex class II molecules on antigen-presenting cells. Specific chemical modifications to Zps show that: 1) the activity is specific for carbohydrate structure, and 2) the proliferative response depends upon free amino and carboxyl groups on the repeating units of these polysaccharides. Peptides synthesized to mimic the zwitterionic charge motif associated with Zps also exhibited these biologic properties. Lysine-aspartic acid (KD) peptides with more than 15 repeating units stimulated CD4+ T cells in vitro and conferred protection against abscesses induced by bacteria such as Bacteroides fragilis and Staphylococcus aureus. Evidence for the biologic importance of T cell activation by these zwitterionic polymers was provided when human CD4+ T cells stimulated with these molecules in vitro and adoptively transferred to rats in vivo conferred protection against intraabdominal abscesses induced by viable bacterial challenge. These studies demonstrate that bacterial polysaccharides with a distinct charge motif activate T cells and that this activity confers immunity to a distinct pathologic response to bacterial infection

The role of sialic acid in the formation of protective conformational bacterial polysaccharide epitopes

Peer reviewed: YesNRC publication: Ye