The use of monoclonal antibodies (MABs) for the therapy of malignant diseases offers the potential advantage of greater target cell specificity, and therefore less toxicity. A major limitation of this therapeutic approach has been the inability of most MABs to kill the cell once bound to the target antigen. We have previously reported the development of two murine IgM MABs, WM63 (CD48) and WM66 (unclustered), that react with panleucocyte antigens widely expressed on cells from lymphoproliferative disorders, and are lytic with human complement. These antibodies have subsequently been administered intravenously to patients with chronic lymphocytic leukaemia (CLL) in a Phase One trial. Seven patients with progressive CLL received increasing daily doses of WM66 (Patients 1-3) or WM63 (Patients 4-7), with one patient also receiving a continuous infusion of WM63 over 20 hours. All patients demonstrated a significant but transient reduction in the number of circulating leucocytes, and no overall effect on disease progression was observed. Antibody coating of circulating lymphocytes was seen in patients receiving WM-63. Patients receiving large doses of WM63 (cases 5-7) demonstrated a decline in complement levels during treatment. There were no major adverse reactions to WM66, but two patients developed dose limiting side effects to WM63. No human anti-mouse antibody (HAMA) responses were documented. These findings indicate that in vitro cytotoxicity mediated by Mabs fixing human complement correlates poorly with clinical responses, and support earlier observations which indicate that cell-mediated cytotoxicity is necessary for effective antibody therapy.
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