Binding of Acanthamoeba to [corrected] mannose-glycoproteins of corneal epithelium: effect of injury.

PURPOSE: Acanthamoeba keratitis is a sight-threatening corneal infection. It is known that: (i) more amoebae bind to the surface of injured corneas than to the normal corneal surface and (ii) mannose-containing glycoproteins (GPs) possess binding sites for Acanthamoeba. The present study was undertaken to determine whether subtle corneal surface injury exposes mannose-GPs and whether more amoebae bind to the mannose-GPs of injured corneas than to those of normal corneas. METHODS: Corneal cup assays were developed to determine whether corneal surface injury exposes binding sites for a mannose/glucose-specific lectin, succinylated-concanavalin A (s-ConA). To determine whether injury exposes mannose-GPs, corneal surface proteins were biotinylated, biotin-labeled mannose-GPs were allowed to bind to s-ConA-agarose beads and were analyzed by SDS-polyacrylamide gel electrophoresis (PAGE). Amoeba binding to mannose-GPs of corneal epithelia was analyzed by PAGE-blot overlay assays. RESULTS: S-ConA binding site density was 2.4 times greater on the injured corneal surface than on the surface of normal corneas. Based on the analysis of the s-ConA-bound, biotin-labeled corneal surface proteins, approximately 5.2 times greater amounts of mannose-GPs were present on the surface of injured corneas than on the normal corneal surface. PAGE-blot overlay assays of s-ConA bound GPs of unlabeled corneal epithelia revealed that, on a per mg total cell protein basis, injured corneal epithelium contained 1.8 times greater amounts of Acanthamoeba-reactive mannose-GPs than normal corneal epithelium. CONCLUSIONS: Subtle corneal injury exposes mannose-GPs on the surface of injured corneas. The newly exposed GPs may serve to provide additional attachment sites for the amoebae. This, in turn, could render the cornea susceptible to the infection.

Identification of endogenous soluble glycoprotein receptors of bovine brain grey matter 14 kDa beta-galactoside-binding lectin.

The 14 kDa beta-galactoside-binding lectin from bovine brain grey matter (BBL) covalently attached to caproic acid-Sepharose by the N-hydroxy succinimide procedure was used to isolate endogenous glycoprotein receptors of this lectin. BBL-Sepharose could sugar-specifically retain several endogenous soluble glycoproteins with subunit molecular mass (in kDA) 44, 51, 60, 123 and 186. BBL, conjugated with horse radish peroxidase, could sugar-specifically recognize several glycoprotein subunits with molecular mass (in kDA) 58, 87, and 117 and 186 on Western blots. The only protein from an extract of bovine brain grey matter, that retained on Sepharose-immobilized endogenous N-linked glycoproteins and subsequently eluted with beta-galactosides was BBL as confirmed by electrophoresis and agglutination inhibition measurement. N-linked glycoproteins from bovine heart and even from human placenta were also efficient receptors of BBL. These results suggest that 14 kDa beta-galactoside-binding lectin is the major protein, if not the only one, that sugar-specifically interacts with endogenous soluble glycoproteins in bovine brain grey matter.

Rapid isolation of human plasma anti-alpha-galactoside antibody using sugar-specific binding to guar galactomannan or agarose.

A method of purifying the naturally occurring antibody to alpha-galactoside moiety (anti-alpha-Gal) in human plasma by a single-step affinity chromatography on cross-linked guar galactomannan (CLGG) or agarose (Sepharose 4B) is described. IgG nature of the two preparations, as revealed by agar gel diffusion, as well as their preference for alpha-anomer of galactose, as revealed in inhibition of their agglutination of trypsinized rabbit erythrocytes by sugars, identified them with anti-alpha-Gal. The antibody binding capacity of Sepharose 4B was only a third of that of CLGG. Both gels showed similar dependence on ionic strength for binding. The pH optimum for binding of anti-alpha-Gal to CLGG was 8.0. Significantly anti-alpha-Gal binding to Sepharose was unaffected by CNBr activation and ligand coupling to the gel, thus warning that contaminating plasma could introduce artifacts in agarose-based chromatography of human tissue biomolecules.