Certain strains of the anaerobic bacterium Bacteroides fragilis are known to produce an enterotoxin of about 20 kDa which is able to induce a fluid response in ligated intestinal loops and a cytotoxic response in HT-29 cells. It presents protease activity, belonging to a family of metalloproteases termed metzincins. In order to investigate the mode of action of the enterotoxin in cultured cells, we performed a study with HT-29 cells, using both fluorescence and electron microscopy. Treated cells underwent morphological changes, mainly consisting of the retraction of the cell body and the formation of numerous blebs on the cell surface. The microfilament system was reorganized, the F-actin being condensed as a ring at the cell periphery, whereas other cell organelles appeared to be unaffected. All these changes, clearly visible after 3 h of exposure to the toxin, were reversed within 24 h of treatment. By inhibiting the protease activity of the toxin with specific metal chelators, the cytoskeletal effects were also prevented. Thus, B. fragilis enterotoxin appears to act on cells by reversibly modifying the actin cytoskeleton, an effect probably dependent on its proteolytic activity. The anaerobic bacterium Bacteroides fragilis constitutes about 1% of the normal bacterial flora in humans (10). However, it has also been isolated from humans with abscesses, soft tissue infections, and bacteriemias (28). Strains of B. fragilis associated with epidemic and endemic diarrheal diseases in lambs and capable of stimulating a secretory response in the ligated intestinal loops of lambs and calves (17) were also associated with endemic diarrheal diseases in humans (18, 25). These enterotoxigenic B. fragilis strains produce a toxin which, in addition to the fluid response in ligated intestinal loops, induces a cytotoxic response in a colon carcinoma cell line, namely, HT-29 cells (30). The enterotoxin (ET) is produced in vitro as an extracellular protein with a molecular mass of about 20,000 Da with no subunits as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (29). Amino acid sequence studies of ET revealed a zinc-binding consensus motif characteristic of metalloproteases termed metzincins. Purified ET contains 1 g-atom of Zn 2ϩ per molecule and is capable of hydrolyzing several proteins such as gelatin, actin, and fibrinogen and also of undergoing autodigestion (16). Although a number of studies dealing with the cytotoxicity of ET have been recently reported (12, 26, 27), the mode of action of the toxin in cultured cells is still unknown. In order to gain more information about the cellular response to ET, we performed a morphological study by using both immunofluorescence and electron microscopy. HT-29 cells, derived from a human colon adenocarcinoma, were used because they are, so far, one of the most sensitive cell lines for ET (29, 30). MATERIALS AND METHODS Cell cultures. HT-29 cells were grown at 37ЊC in RPMI medium, supplemented with 10% fetal calf serum (Flow Laboratories, Irvine, United Kingd...
