Impact of interleukin‐2‐receptor‐targeted cytotoxins on a unique model of murine interleukin‐2‐receptor‐expressing malignancy

Abstract

DAB₄₈₆IL-2 is a genetically engineered fusion protein consisting of a portion of diphtheria toxin fused to human IL-2. It is specifically cytotoxic for tumor cells which bear high-affinity IL-2 receptors (IL-2R). DAB₃₈₉IL-2 is a similarly constructed hybrid protein which is smaller than DAB₄₈₆IL-2 and is slightly more potent in vitro. We have developed a murine model of IL-2R-expressing malignancy to study the in vivo efficacy of these genetically engineered cytotoxins. Following intravenous administration of CP3 cells, C57BL/6 mice develop tumors which are lymphatic in distribution. When mice are injected i.v. with 10⁶ CP3 cells, 90% of the animals show signs of observable tumor by day 10 to 20; death occurs in 50% of untreated animals by day 30. Intravenous treatment of mice with DAB₄₈₆IL-2 (10 μg daily for 10 days), beginning 24 hr after administration of CP3 cells, increases mean survival time by approximately 50%. In comparative studies, DAB³⁸⁹IL-2 is more potent in vivo than DAB₄₈₆IL-2, with approximately 90% of treated animals with no evidence of tumor at 60 days. The mechanism of action of tumor inhibition by DAB₄₈₆IL-2 is specific, since treatment of animals which have 1L-2R-negative EL4 tumors has not resulted in increased survival time. In addition, treatment of such tumors with DA_glu53B₄₈₆IL-2, a fusion protein which can bind to the IL-2R but is incapable of inhibiting protein synthesis, is ineffective.