AMG 701 induces cytotoxicity of multiple myeloma cells and depletes plasma cells in cynomolgus monkeys

  • Blood Adv. 2020 Sep 8;4(17):4180-4194. doi: 10.1182/bloodadvances.2020002565.
Rebecca L Goldstein  1 Ana Goyos  1 Chi-Ming Li  1 Petra Deegen  2 Pamela Bogner  2 Alexander Sternjak  2 Oliver Thomas  2 Matthias Klinger  2 Joachim Wahl  2 Matthias Friedrich  2 Benno Rattel  2 Edwin Lamas  3 Xiaoshan Min  1 Athena Sudom  1 Mozhgan Farshbaf  1 Angela Coxon  3 Mercedesz Balazs  1 Tara Arvedson  1
Affiliations
  • 1. Amgen Research, Amgen Inc., South San Francisco, CA.
  • 2. Amgen Research (Munich) GmbH, Munich, Germany; and.
  • 3. Amgen Research, Amgen Inc., Thousand Oaks, CA.
Abstract

Multiple myeloma (MM) is a hematologic malignancy that is characterized by the accumulation of abnormal plasma cells (PCs) in the bone marrow (BM). Patient outcome may be improved with BiTE (bispecific T-cell engager) molecules, which redirect T cells to lyse tumor cells. B-cell maturation antigen (BCMA) supports PC survival and is highly expressed on MM cells. A half-life extended anti-BCMA BiTE molecule (AMG 701) induced selective cytotoxicity against BCMA-expressing MM cells (average half-maximal effective concentration, 18.8 ± 14.8 pM), T-cell activation, and cytokine release in vitro. In a subcutaneous mouse xenograft model, at all doses tested, AMG 701 completely inhibited tumor formation (P < .001), as well as inhibited growth of established tumors (P ≤ .001) and extended survival in an orthotopic MM model (P ≤ .01). To evaluate AMG 701 bioactivity in cynomolgus monkeys, a PC surface phenotype and specific genes were defined to enable a quantitative digital droplet polymerase chain reaction assay (sensitivity, 0.1%). Dose-dependent pharmacokinetic and pharmacodynamic behavior was observed, with depletion of PC-specific genes reaching 93% in blood and 85% in BM. Combination with a programmed cell death protein 1 (PD-1)-blocking antibody significantly increased AMG 701 potency in vitro. A model of AMG 701 binding to BCMA and CD3 indicates that the distance between the T-cell and target cell membranes (ie, the immunological synapse) is similar to that of the major histocompatibility complex class I molecule binding to a T-cell receptor and suggests that the synapse would not be disrupted by the half-life extending Fc domain. These data support the clinical development of AMG 701.

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