We describe the first clinical application of T-cell-recruiting bispecific antibodies directly into the tumor without the need to preactivate the effector cells. In a Phase I clinical trial, 10 patients with low-grade B-cell lymphoma were treated by a single locoregional injection of CD3xCD19 bispecific antibodies. Costimulatory signaling, which is required for the optimal activation of resting T cells, was provided by the simultaneous administration of CD28 antibodies. Equal amounts of both antibodies were injected together at 4 different dose levels (30 microg: 3 patients; 270 microg: 3 patients; 810 microg: 3 patients; 1,600 microg: 1 patient). The injection was well tolerated with mild to moderate adverse effects (2/10 patients) consisting of erythema and fever at the third dose level. The maximum tolerated dose was not reached at 810 microg of injected antibodies. Three patients showed a serum peak of TNFalpha on day 2 or 3 after the antibody application, reflecting rather an activation of CD4-positive T cells than an FcR-mediated effect. Five patients developed anti-mouse antibodies after injection of the murine immunoglobulins. Nine patients were evaluable for restaging examinations 6 weeks after the antibody application, with 2 of them (22%) showing a local clinical response. We found that a single locoregional injection of CD3xCD19+CD28 antibodies is feasible up to a dose of at least 1,600 microg of each antibody. However, the development of human anti-mouse antibodies points toward the requirement for new formats of bispecific proteins with reduced immunogenicity.
Copyright 2001 Wiley-Liss, Inc.