ABSTRACT: IL-2 is a cytokine approved for the treatment of melanoma and renal cell carcinoma and induced complete, durable tumor regression in some patients. ​However, its broader use in cancer immunotherapy has been limited by severe toxicity. A new generation of IL-2 therapies with decreased binding to IL-2 receptor alpha chain (IL-2Rα), intended to mitigate toxicity and Treg expansion, are being developed. However to date these have had limited clinical success. Here, we demonstrate that the ability to engage IL-2Rα is critical for the anti-tumor activity of a systemic IL-2 therapy. Despite inducing systemic expansion of CD8+ T cells and NK cells over Tregs, an IL-2 mutein with abolished IL-2Rα binding demonstrated limited anti-tumor efficacy compared to wild-type IL-2. Based on these findings, we developed a PD-1-targeted, receptor-masked IL-2 immunocytokine, PD1-IL2Ra-IL2, with attenuated systemic IL-2 activity but maintained the capacity to engage IL-2Rα on PD-1+ T cells. PD1-IL2Ra-IL2 (REGN10597) shows PD-1-targeting-dependent IL-2 activity in vitro and drives selective expansion of tumor-infiltrating PD-1+ CD8+ T cells with vigorous effector profiles in vivo. PD1-IL2Ra-IL2 treated mice displayed no signs of systemic toxicities observed with unmasked IL-2 treatment, yet achieved robust tumor growth control. Finally, we demonstrate that PD1-IL2Ra-IL2 can be effectively combined with several other T cell-mediated immunotherapies (anti-PD-1, CD3 bispecific antibodies, and CAR-T cells) to potentiate antitumor responses. Collectively, these results provide unique insights into the functional mechanism of IL-2 based therapeutics and highlight the therapeutic potential of PD1-IL2Ra-IL2 as a novel targeted, receptor masked, and “α-maintained” IL-2 therapy for cancer treatment.