OV-TL3 and MOv 18 MAbs, due to their restricted specificity, have been successfully used to visualize ovarian cancer in patients and might therefore be used to develop therapies for ovarian cancer. The bi-specific MAbs alpha T3/OC2 and alpha OC/TR (both being combinations of MOv18 and alpha CD3) have been shown to lyse ovarian tumor cells in vitro. To evaluate the relative merits of MOv18/CD3 and OV-TL 3/CD3, the present study was undertaken in which the bi-specific MAbs alpha T3/OC2 and alpha OC/TR, and a newly developed bi-specific MAb, OV-TL 3/CD3, were highly purified and compared for specificity, stability, purification and cytolytic potential. The dual specificity of the hybrid-hybridoma supernatants was analyzed by immunohistochemistry, and by testing bi-specific MAb-mediated cytotoxicity against relevant target cells in the presence of effector cells. Stability testing of bi-specific MAb-producing hybridomas showed that, after sub-cloning, clones stably produced up to 40% bi-specific MAb even after prolonged in vitro culture. The purification of the bi-specific fractions was performed with protein A and by ion-exchange high-pressure liquid chromatography, depending on the sub-class combination of the bi-specific MAb. The purified bi-specific MAbs were tested for their ability to mediate target-cell lysis with the use of cytotoxic T-cell clones and activated peripheral-blood lymphocytes. The purified alpha T3/OC2, alpha OC/TR, and OV-TL3/CD3 were all able to mediate highly specific lysis of various ovarian-carcinoma cell lines. No correlation was found between the level of antigen expression and bi-specific MAb-mediated cytolysis.