globotriaosylceramide and Colitis

Endothelial damage is characteristic of infection with Shiga toxin (Stx)-producing Escherichia coli (STEC). Because Stx-mediated endothelial cell damage at the site of infection may lead to the characteristic hemorrhagic colitis of STEC infection, we compared the effects of Stx1 and Stx2 on primary and transformed human intestinal microvascular endothelial cells (HIMEC) to those on macrovascular endothelial cells from human saphenous vein (HSVEC). Adhesion molecule, interleukin-8 (IL-8), and Stx receptor expression, the effects of cytokine activation and Stx toxins on these responses, and Stx1 and Stx2 binding kinetics and bioactivity were measured. Adhesion molecule and IL-8 expression increased in activated HIMEC, but these responses were blunted in the presence of toxin, especially in the presence of Stx1. In contrast to HSVEC, unstimulated HIMEC constitutively expressed Stx receptor at high levels, bound large amounts of toxin, were highly sensitive to toxin, and were not further sensitized by cytokines. Although the binding capacities of HIMEC for Stx1 and Stx2 were comparable, the binding affinity of Stx1 to HIMEC was 50-fold greater than that of Stx2. Nonetheless, Stx2 was more toxic to HIMEC than an equivalent amount of Stx1. The decreased binding affinity and increased toxicity for HIMEC of Stx2 compared to those of Stx1 may be relevant to the preponderance of Stx2-producing STEC involved in the pathogenesis of hemorrhagic colitis and its systemic complications. The differences between primary and transformed HIMEC in these responses were negligible. We conclude that transformed HIMEC lines could represent a simple physiologically relevant model to study the role of Stx in the pathogenesis of hemorrhagic colitis.

Topics: Bacterial Toxins; Colitis; Endothelium, Vascular; Gastrointestinal Hemorrhage; Humans; Intercellular Adhesion Molecule-1; Interleukin-8; Shiga Toxins; Trihexosylceramides; Vascular Cell Adhesion Molecule-1

The glycosphingolipid globotriaosyl ceramide (CD77) and other globo-series glycolipids containing terminal galactose (Gal)alpha 1-4Gal residues function as receptors for the verotoxin (Shiga-like toxin) family of Escherichia coli-elaborated toxins. CD77 is also a marker for germinal center B lymphocytes and Burkitt's lymphoma cells. The pan B cell marker CD19 is a 95-kD membrane protein that appears early in B cell differentiation and is only lost upon terminal differentiation to plasma cells. CD19 is involved in signal transduction and has a regulatory role in B cell proliferation and differentiation in response to activation in vitro. However, an endogenous ligand for CD19 has not yet been identified. We report herein that the extracellular domain of CD19 has a potential CD77-binding site with extensive sequence similarity to the verotoxin B-subunits. These B-subunit-like sequences on CD19 are in close proximity following the organization of intervening amino acids into disulfide-linked domains. Cocapping of CD19 and CD77 on Burkitt's lymphoma-derived Daudi cells with anti-CD19 antibodies indicates that CD19 and CD77 are associated on the B cell surface. Cell surface binding of anti-CD19 antibodies is decreased on CD77-deficient mutant Daudi cells, suggesting that CD77 expression influences the surface expression of CD19. Wild-type Daudi cells, but not the CD19/CD77-deficient mutants, bind to matrices expressing the carbohydrate moiety of CD77 or other Gal alpha 1-4Gal containing glycolipids. This binding can be inhibited by anti-CD77 antibodies, the CD77-binding verotoxin B-subunit or anti-CD19 antibodies. Daudi cells exhibit a degree of spontaneous homotypic adhesion in culture while the CD77/CD19-deficient Daudi mutants grow as single cells. The stronger homotypic adhesion that occurs in B cells after antibody ligation of CD19 and that involves, to some extent, the integrin system, is also dramatically lower in the mutant cells relative to the parent cell line. However, reconstitution of mutant cells with CD77 restores the anti-CD19 mAb-induced adhesion to wild-type Daudi cell levels. These studies represent the first time that CD19-mediated signaling has been reconstituted in a low-responder B cell line. These convergent observations provide compelling evidence that CD19/CD77 interactions function in adhesion and signal transduction at a specific stage in B cell development and suggest that such interactions have a role in B lymphocyte homing and ge

Topics: Amino Acid Sequence; Antigens, CD; Antigens, CD19; Antigens, Differentiation, B-Lymphocyte; B-Lymphocytes; Bacterial Toxins; Binding Sites; Cell Adhesion; Colitis; Escherichia coli; Gastrointestinal Hemorrhage; Humans; Molecular Sequence Data; Shiga Toxin 1; Structure-Activity Relationship; Trihexosylceramides

Fresh and transformed human B lineage cells were found to be sensitive to the cytotoxic action of Shiga-like toxin (SLT), a bacterial cytotoxin. The toxin was specifically bound by the glycolipids globotriosylceramide and galabiosylceramide expressed on the surface of sensitive cells. Mutant Daudi cells selected for resistance to SLT cytotoxicity (SLTR20) were deficient in SLT-binding glycolipids and failed to bind SLT to their surface, suggesting a role for these glycolipids in the mediation of SLT cytotoxicity. Of a number of normal and transformed lymphoid and myeloid cells screened for SLT sensitivity, only B lymphoid cells were susceptible to SLT action. Moreover, B lymphoid cells were the only cells expressing the SLT binding glycolipids. In vitro B cell activation studies with Epstein-Barr virus and pokeweed mitogen both indicated that the vast majority of SLT-sensitive B cells belong to the IgG and IgA committed subset, whereas most IgM and IgM/D producing cells were resistant to SLT toxicity. The selective elimination of IgG and IgA committed cells may explain the production of only IgM class anti-SLT antibodies in Shigella-infected humans leading to the failure of long-term immunity to dysenteric disease.

Topics: Antibodies, Bacterial; B-Lymphocytes; Bacterial Toxins; Burkitt Lymphoma; Cells, Cultured; Colitis; Cytotoxins; Escherichia coli; Escherichia coli Infections; Gangliosides; Glycolipids; Hemolytic-Uremic Syndrome; Humans; Lymphocyte Activation; Receptors, Cell Surface; Shiga Toxin 1; Trihexosylceramides; Tumor Cells, Cultured