Target arm affinities determine preclinical efficacy and safety of anti-HER2/CD3 bispecific antibody
Karin Staflin, Christina L. Zuch de Zafra, Leah K. Schutt, Vanessa Clark, Fiona Zhong, Maria Hristopoulos, Robyn Clark, Ji Li, Mary Mathieu, Xiaocheng Chen, Jennifer Johnston, Justin Low, Ryan Ybarra, Dionysos Slaga, Jihong Yang, Meric Ovacik, Noël O. Dybdal, Klara Totpal, Melissa R. Junttila, Diego Ellerman, Genee Lee, Mark S. Dennis, Rodney Prell, Teemu T. Junttila
Karin Staflin, Christina L. Zuch de Zafra, Leah K. Schutt, Vanessa Clark, Fiona Zhong, Maria Hristopoulos, Robyn Clark, Ji Li, Mary Mathieu, Xiaocheng Chen, Jennifer Johnston, Justin Low, Ryan Ybarra, Dionysos Slaga, Jihong Yang, Meric Ovacik, Noël O. Dybdal, Klara Totpal, Melissa R. Junttila, Diego Ellerman, Genee Lee, Mark S. Dennis, Rodney Prell, Teemu T. Junttila
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Research Article Oncology

Target arm affinities determine preclinical efficacy and safety of anti-HER2/CD3 bispecific antibody

Abstract

Systemic cytokine release and on-target/off-tumor toxicity to normal tissues are the main adverse effects limiting the clinical utility of T cell–redirecting therapies. This study was designed to determine how binding affinity for CD3 and tumor target HER2 impact the efficacy and nonclinical safety of anti-HER2/CD3 T cell–dependent antibodies (TDBs). Affinity was found to be a major determinant for the overall tolerability. Higher affinity for CD3 associated with rapidly elevated peripheral cytokine concentrations, weight loss in mice, and poor tolerability in cynomolgus monkeys. A TDB with lower CD3 affinity was better tolerated in cynomolgus monkeys compared with a higher CD3–affinity TDB. In contrast to tolerability, T cell binding affinity had only limited impact on in vitro and in vivo antitumor activity. High affinity for HER2 was critical for the tumor-killing activity of anti-HER2/CD3 TDBs, but higher HER2 affinity also associated with a more severe toxicity profile, including cytokine release and damage to HER2-expressing tissues. The tolerability of the anti-HER2/CD3 was improved by implementing a dose-fractionation strategy. Fine-tuning the affinities for both the tumor target and CD3 is likely a valuable strategy for achieving maximal therapeutic index of CD3 bispecific antibodies.

Authors

Karin Staflin, Christina L. Zuch de Zafra, Leah K. Schutt, Vanessa Clark, Fiona Zhong, Maria Hristopoulos, Robyn Clark, Ji Li, Mary Mathieu, Xiaocheng Chen, Jennifer Johnston, Justin Low, Ryan Ybarra, Dionysos Slaga, Jihong Yang, Meric Ovacik, Noël O. Dybdal, Klara Totpal, Melissa R. Junttila, Diego Ellerman, Genee Lee, Mark S. Dennis, Rodney Prell, Teemu T. Junttila

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Figure 6

Dose fractionation reduces anti-HER2/CD3 TDB–induced systemic cytokine release in cynomolgus monkey but retains antitumor activity in mice.

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Dose fractionation reduces anti-HER2/CD3 TDB–induced systemic cytokine r...
(A) Effect of dose fractionation of HER2–TDB 3 on systemic exposure in cynomolgus monkey. Animals in group 1A (0.2 mg/kg on days 0 and 1, 0.4 mg/kg on day 7; n = 1) and group 1B (0.1 mg/kg on days 0 and 1, 0.4 mg/kg on day 7; n = 2) were dosed using dose fractionation. Animals in group 2 (n = 4) received 0.5 mg/kg on days 0 and 7. Blood samples were collected at indicated time points, and human IgG was detected by ELISA. Data are presented as mean ± SD for group 2 and as exposure for individual animal for group 1. PK parameters are presented in Supplemental Table 1. (B) Serum cytokine analysis using Luminex from cynomolgus monkeys dosed using the dose fractionation strategy (n = 3, individual animal data depicted). (C) Individual tumor volume response of HER2-amplified KPL4 breast cancer xenografts to anti-HER2/CD3 TDB in NSG mice supplemented with human PBMCs. Mice were treated with 0.05 mg/kg (once a week x2) dose (blue). Alternatively, the initial dose was fractionated to 2 doses of 0.025 mg/kg administered on days 0 and 1 (red). n = 8–9 for each dose group. Arrows indicate time of dosing.