Induction of an immune network cascade in cancer patients treated with monoclonal antibodies (ab1)

Abstract

The antitumor effector functions of unconjugated monoclonal antibodies (mAb) in cancer therapy are not fully understood. Direct cytotoxic mechanisms such as antibody-dependent cellular cytotoxicity, complement-dependent cytolysis and apoptosis have been suggested. Induction of anti-idiotypic (ab₂) and anti-anti-idiotypic (ab₃) antibodies as well as the corresponding T cells (T₂ and T₃) has also been proposed to be of therapeutic significance. In this study induction of an immune network cascade in ten patients with colorectal carcinoma, treated with mAb 17-1A (ab₁) was assessed. After treatment, all ten patients had anti-idiotypic antibodies and anti-anti-idiotypic antibodies with ab₁-like binding specificity while only five of ten patients had T cells corresponding to ab₃ (T₃) as assessed by a proliferation assay (DNA synthesis), and an assay of interferon γ production (ELISPOT) (Enzyme-linked immuno SPOT) in vitro or by a delayed-type hypersensitivity reaction in vivo. Purified T cells from four of the five patients with a positive T₃ test responded with DNA synthesis after stimulation using human anti-mAb 17-1A anti-idiotypic monoclonal antibodies. These four patients had a clinical response showing a tumor reduction after therapy, while all six patients lacking a proliferative response failed to show tumor regression. Induction of a cell-mediated immune network cascade might accordingly be an important anti-tumor effector function of mAb and should be considered in the future design of mAb-based therapy protocols in cancer patients.