Fc Effector Function of Immune Checkpoint Blocking Antibodies in Oncology.

Abstract

Antagonistic monoclonal antibodies (mAbs) targeting inhibitory immune checkpoints have revolutionized the field of oncology. CTLA-4, PD-1, and LAG3 are three co-inhibitory receptors, which can be expressed by subsets of T cells and which play a role in the regulation of adaptive immune responses. Blocking these immune checkpoints receptors (or their ligands) with antagonistic antibodies can lead to tumor regressions and lasting remissions in some patients with cancer. Two anti-CTLA4, six anti-PD1, three anti-PD-L1, and one anti-LAG3 antibodies are currently approved by the FDA and EMA. Their mechanism of action, safety, and efficacy are linked to their affinity with Fc gamma receptors (FcγR) (so called "effector functions"). The anti-CTLA-4 antibodies ipilimumab (IgG1) and tremilimumab (IgG2a), and the anti-PD-L1 avelumab (IgG1) have isotypes with high affinity for activating FcγR and thereby can induce ADCC/ADCP. The effector function is required for the invivo efficacy of anti-CTLA4 antibodies. For anti-PD(L)1 antibodies, where a pure antagonistic function ("checkpoint blockade") is sufficient, some mAbs are IgG1 but have been mutated in their Fc sequence (e.g., durvalumab and atezolizumab) or are IgG4 (e.g., nivolumab and pembrolizumab) to have low affinity for FcγR. Here, we review the impact of FcγR effector function on immune checkpoint blockers safety and efficacy in oncology.