Wiltrud M. Kalka-Moll scite author profile

Animal studies and preliminary results in humans suggest that lower extremity and myocardial ischemia can be attenuated by treatment with angiogenic cytokines. The resident population of endothelial cells that is competent to respond to an available level of angiogenic growth factors, however, may potentially limit the extent to which cytokine supplementation enhances tissue neovascularization. Accordingly, we transplanted human endothelial progenitor cells (hEPCs) to athymic nude mice with hindlimb ischemia. Blood flow recovery and capillary density in the ischemic hindlimb were markedly improved, and the rate of limb loss was significantly reduced. Ex vivo expanded hEPCs may thus have utility as a “supply-side” strategy for therapeutic neovascularization.

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Structural basis of the abscess-modulating polysaccharide A2 fromBacteroides fragilis

Wang

Kalka-Moll

Roehrl

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

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Zwitterionic capsular polysaccharides from pathogenic bacteria have peculiar immunological properties. They are capable of eliciting T-cell proliferation and modulating the course of abscess formation. To understand the molecular basis of this characteristic immune response, we are conducting detailed structure-function studies on these polysaccharides. We have identified, purified, and characterized an abscess-modulating polysaccharide, PS A2, from the clinical strain Bacteroides fragilis 638R. Here, we report the elucidation of both the chemical and three-dimensional structures of PS A2 by NMR spectroscopy, chemical methods, gas chromatography-mass spectrometry, and restrained molecular dynamics calculations. PS A2 consists of a pentasaccharide repeating unit containing mannoheptose, N-acetylmannosamine, 3-acetamido-3,6-dideoxyglucose, 2-amino-4-acetamido-2,4,6-trideoxygalactose, fucose, and 3-hydroxybutanoic acid. PS A2 is zwitterionic and carries one cationic free amine and one anionic carboxylate in each repeating unit. It forms an extended right-handed helix with two repeating units per turn and a pitch of 20 Å. Positive and negative charges are exposed on the outer surface of the polymer in a regularly spaced pattern, which renders them easily accessible to other molecules. The helix is characterized by repeated large grooves whose lateral boundaries are occupied by the charges. The three-dimensional structure of PS A2 explicitly suggests mechanisms of interaction between zwitterionic polysaccharides and proteins.

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Bacterial Pathogens Induce Abscess Formation by CD4⁺T-Cell Activation via the CD28–B7-2 Costimulatory Pathway

Tzianabos¹,

Chandraker

Kalka-Moll³

et al. 2000

Infect Immun

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Abscesses are a classic host response to infection by many pathogenic bacteria. The immunopathogenesis of this tissue response to infection has not been fully elucidated. Previous studies have suggested that T cells are involved in the pathologic process, but the role of these cells remains unclear. To delineate the mechanism by which T cells mediate abscess formation associated with intra-abdominal sepsis, the role of T-cell activation and the contribution of antigen-presenting cells via CD28-B7 costimulation were investigated. T cells activated in vitro by zwitterionic bacterial polysaccharides (Zps) known to induce abscess formation required CD28-B7 costimulation and, when adoptively transferred to the peritoneal cavity of naïve rats, promoted abscess formation. Blockade of T-cell activation via the CD28-B7 pathway in animals with CTLA4Ig prevented abscess formation following challenge with different bacterial pathogens, including Staphylococcus aureus, Bacteroides fragilis, and a combination of Enterococcus faecium and Bacteroides distasonis. In contrast, these animals had an increased abscess rate following in vivo T-cell activation via CD28 signaling. Abscess formation in vivo and T-cell activation in vitro required costimulation by B7-2 but not B7-1. These results demonstrate that abscess formation by pathogenic bacteria is under the control of a common effector mechanism that requires T-cell activation via the CD28-B7-2 pathway.Abscess formation is a distinct pathological response to certain bacterial pathogens. In clinical situations, the development of abscesses associated with intra-abdominal sepsis causes chronic illness and can be fatal in infected patients. Bacteroides fragilis is the most commonly isolated anaerobic bacterium isolated from these cases (23). Studies with rodent models have shown that the ability of B. fragilis to cause these infections is mainly attributable to the presence of a unique capsular polysaccharide (CP) on this organism (22). Intraperitoneal implantation of a monomicrobial culture of B. fragilis or its purified capsular polysaccharide, PS A, in conjunction with sterile cecal contents promotes abscess formation (37). Abscess induction by PS A is dependent on the presence of positively and negatively charged groups associated with its repeating unit structure. Structurally distinct polymers that possess this zwitterionic charge motif, such as PS B from B. fragilis or the Streptococcus pneumoniae type 1 CP can also induce abscesses in this manner (37). The presence of positively charged groups on bacterial polysaccharides is rare, and those polysaccharides lacking the zwitterionic charge motif do not possess this activity.Attempts to define the immunologic events leading to the development of abscesses by B. fragilis have been carried out with athymic or T-cell-depleted animals and suggest that T cells may be required for the induction of this host response (21,28,30). However, the mechanism by which these cells mediate this process is not known. Recently, we have demonstra...

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Transport of Streptococcus pneumoniae Capsular Polysaccharide in MHC Class II Tubules

et al. 2007

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Bacterial capsular polysaccharides are virulence factors and are considered T cell–independent antigens. However, the capsular polysaccharide Sp1 from Streptococcus pneumoniae serotype 1 has been shown to activate CD4+ T cells in a major histocompatibility complex (MHC) class II–dependent manner. The mechanism of carbohydrate presentation to CD4+ T cells is unknown. We show in live murine dendritic cells (DCs) that Sp1 translocates from lysosomal compartments to the plasma membrane in MHCII-positive tubules. Sp1 cell surface presentation results in reduction of self-peptide presentation without alteration of the MHCII self peptide repertoire. In DM-deficient mice, retrograde transport of Sp1/MHCII complexes resulting in T cell–dependent immune responses to the polysaccharide in vitro and in vivo is significantly reduced. The results demonstrate the capacity of a bacterial capsular polysaccharide antigen to use DC tubules as a vehicle for its transport as an MHCII/saccharide complex to the cell surface for the induction of T cell activation. Furthermore, retrograde transport requires the functional role of DM in self peptide–carbohydrate exchange. These observations open new opportunities for the design of vaccines against microbial encapsulated pathogens.

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