CPT: Pharmacometrics & Systems Pharmacology (Jun 2024)

Quantitative evaluation of trastuzumab deruxtecan pharmacokinetics and pharmacodynamics in mouse models of varying degrees of HER2 expression

  • Christina Vasalou,
  • Theresa A. Proia,
  • Laura Kazlauskas,
  • Anna Przybyla,
  • Matthew Sung,
  • Srinivas Mamidi,
  • Kim Maratea,
  • Matthew Griffin,
  • Rebecca Sargeant,
  • Jelena Urosevic,
  • Anton I. Rosenbaum,
  • Jiaqi Yuan,
  • Krishna C. Aluri,
  • Diane Ramsden,
  • Niresh Hariparsad,
  • Rhys D.O. Jones,
  • Jerome T. Mettetal

DOI
https://doi.org/10.1002/psp4.13133
Journal volume & issue
Vol. 13, no. 6
pp. 994 – 1005

Abstract

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Abstract Trastuzumab deruxtecan (T‐DXd; DS‐8201; ENHERTU®) is a human epithelial growth factor receptor 2 (HER2)‐directed antibody drug conjugate (ADC) with demonstrated antitumor activity against a range of tumor types. Aiming to understand the relationship between antigen expression and downstream efficacy outcomes, T‐DXd was administered in tumor‐bearing mice carrying NCI‐N87, Capan‐1, JIMT‐1, and MDA‐MB‐468 xenografts, characterized by varying HER2 levels. Plasma pharmacokinetics (PK) of total antibody, T‐DXd, and released DXd and tumor concentrations of released DXd were evaluated, in addition to monitoring γΗ2AX and pRAD50 pharmacodynamic (PD) response. A positive relationship was observed between released DXd concentrations in tumor and HER2 expression, with NCI‐N87 xenografts characterized by the highest exposures compared to the remaining cell lines. γΗ2AX and pRAD50 demonstrated a sustained increase over several days occurring with a time delay relative to tumoral‐released DXd concentrations. In vitro investigations of cell‐based DXd disposition facilitated the characterization of DXd kinetics across tumor cells. These outputs were incorporated into a mechanistic mathematical model, utilized to describe PK/PD trends. The model captured plasma PK across dosing arms as well as tumor PK in NCI‐N87, Capan‐1, and MDA‐MB‐468 models; tumor concentrations in JIMT‐1 xenografts required additional parameter adjustments reflective of complex receptor dynamics. γΗ2AX longitudinal trends were well characterized via a unified PD model implemented across xenografts demonstrating the robustness of measured PD trends. This work supports the application of a mechanistic model as a quantitative tool, reliably projecting tumor payload concentrations upon T‐DXd administration, as the first step towards preclinical‐to‐clinical translation.