We use bacterial toxins as killing agents to eliminate cancer cells. To accomplish this, we modify the toxin so it no longer binds via its own cell-binding domain and substitute in place of the binding domain a monoclonal antibody. The antibody is chosen to bind cancer cells preferentially over normal cells. These toxin-antibody molecules are called immunotoxins. Immunotoxins are promising but imperfect anticancer agents. Our goal is to understand the interaction of various toxins with eukaryotic cells and use this information to design better agents for treating cancer. To study interactions, we add toxins to mammalian cells and study the pathway of death. In tracking the killing of cancer cells by immunotoxins, we made the observation that cells grown to high density are resistant to killing. We wish to understand this phenomenon and determine its relevance for cancer therapy in general. A convenient and potentially useful way to study cell-killing pathways is to use RNA interference to identify pathways that participate in toxin delivery to the cytosol - where it acts. Recently, we initiated studies with a newly described toxin from V cholera, called Vibrio Cholera Exotoxin (CET). This toxin is related to the exotoxin from Pseudomonas, exhibiting about 50% identity in selected domains (domains II and III). However, antibodies that neutralize the exotoxin from Pseudomonas do not neutralize CET, despite the close similarity. Truncated versions of Pseudomonas Exotoxin (PE) have been fused with antibody fragments to produce potent cytotoxic agents termed recombinant immunotoxins. These agents are targeted to kill cancer cells based on the binding specificity of the antibody fragment. Potency is derived from the enzymatic nature of the toxin as it translocates to the cytosol, ADP-ribosylates elongation factor 2 and terminates the synthesis of new cellular protein. Most prior investigations reported that PE and PE-immunotoxins kill cells via apoptosis. Here we report that PE and PE immunotoxin inhibit protein synthesis and cell growth of colon cancer cell lines but do not provoke an apoptotic response. However, the addition of the BH3-only mimetic, ABT-737 in combination with the immunotoxin produces a profound apoptotic response in these cells that neither agent alone can achieve.
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