A dual-enzyme immunoconjugate system was evaluated for its cytotoxic effect on Candida tropicalis. Glucose oxidase, which generates hydrogen peroxide in the presence of glucose and oxygen, and myeloperoxidase, which catalyzes the oxidation of halides in the presence of hydrogen peroxide, were each conjugated to a C. tropicalis-specffic monoclonal antibody. Neither the glucose oxidase nor the myeloperoxidase conjugates exhibited any significant cytotoxic effect by themselves. A combination of glucose oxidase conjugate (3.2 ng/ml) and myeloperoxidase conjugate (12.8 ng/ml) in the presence of 5 mg of glucose per ml, 150 mM chloride, and 50 FM iodide was cytotoxic to C. tropicalis, killing 99.9% of the treated sample. Flow cytometry was used to characterize the binding of the conjugates to yeast cells and demonstrated that the binding of both conjugates to the yeast cell surface is required for cytotoxicity. In addition, the concentrations of conjugates required for a cytotoxic effect were below the concentrations required to saturate all of the yeast cell surface antibodybinding sites.
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