Clostridium difficile toxin A binding to human intestinal epithelial cells

Abstract

Clostridium diflcile radiolabelled toxin A ((3H)-toxin A) bound to human duodenal and colonic epithelial cells isolated from endoscopic biopsies. Binding was greater at 4°C than 37"C, consistent with the thermal binding characteristic of toxin A to a carbohydrate moiety. At 37°C colonic cells bound significantly more (3H)-toxin A than duodenal cells. The amount of (3H)-toxin A binding varied considerably between individuals. (3H)-toxin A was displaced by unlabelled toxin A by 50% for duodenal cells and 70% for colonic cells with 94.3 nM unlabelled toxin A. Low non-displacable binding was observed in some samples at 4°C and 37"C, suggesting that these cells came from individuals incapable of specifically binding toxin. Pre-treating cells with a- or /?- galactosidases to cleave terminal d- and /?-galactose residues reduced (3H)-toxin A binding. There was also a reduction in (3H)-toxin A binding after heat treating cells, which is suggestive of protein binding. The reduction in binding varied between individuals. The reduction of (3H)-toxin A binding, after the removal of /?-linked galactose units, implicates these as components of the receptor and adds credence to the idea that the Lewis X, Y and I antigens may be involved in toxin A binding to human intestinal epithelial cells. However, because the Lewis antigens do not possess terminal a- galactose units, the reduction in binding after a-galactosidase treatment suggests that other receptors may be involved in toxin A binding to some human intestinal cells. These data are the first demonstration of direct toxin A binding to human intestinal epithelial cells.