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Visualization of Intratumor Pharmacokinetics of [fam-] Trastuzumab Deruxtecan (DS-8201a) in HER2 Heterogeneous Model Using Phosphor-integrated Dots Imaging Analysis

Mikiko Suzuki, Shigehiro Yagishita, Kiyoshi Sugihara, Yusuke Ogitani, Tadaaki Nishikawa, Mayu Ohuchi, Takashi Teishikata, Takahiro Jikoh, Yasushi Yatabe, Kan Yonemori, Kenji Tamura, Kosei Hasegawa, Akinobu Hamada

2021Clinical Cancer Research39 citationsDOIOpen Access PDF

Abstract

PURPOSE: We assessed the intratumor pharmacokinetics of [fam-] trastuzumab deruxtecan, T-DXd (known as DS-8201a), a novel HER2-targeted antibody-drug conjugate, using phosphor-integrated dots (PID)-imaging analysis to elucidate its pharmacologic mechanism. EXPERIMENTAL DESIGN: We used two mouse xenograft models administered T-DXd at the concentration of 4 mg/kg: (i) a heterogeneous model in which HER2-positive and HER2-negative cell lines were mixed, and (ii) a homogeneous model in which both cell types were transplanted separately into the same mouse. PID imaging involved immunostaining using novel high-intensity fluorescent nanoparticles. The distribution of T-DXd was assessed by PID imaging targeting the parent antibody, trastuzumab, and the payload, DXd, in serial frozen sections, respectively. RESULTS: After T-DXd administration in the heterogeneous model, HER2 expression tended to decrease in a time-dependent manner. The distribution of trastuzumab and DXd was observed by PID imaging along the HER2-positive area throughout the observation period. A detailed comparison of the PID distribution between trastuzumab and DXd showed that trastuzumab matched almost perfectly with the HER2-positive area. In contrast, DXd exhibited widespread distribution in the surrounding HER2-negative area as well. In the HER2-negative tumor of the homogeneous model, the PID distribution of trastuzumab and DXd remained extremely low throughout the observation period. CONCLUSIONS: Our results suggest that T-DXd is distributed to tumor tissues via trastuzumab in a HER2-dependent manner and then to adjacent HER2-negative areas. We successfully visualized the intratumor distribution of T-DXd and its mechanism of action, the so-called "bystander effect."

Topics & Concepts

TrastuzumabMedicineDistribution (mathematics)PharmacokineticsAntibodyCancer researchPathologyInternal medicineImmunologyCancerBreast cancerMathematicsMathematical analysisHER2/EGFR in Cancer ResearchAdvanced Biosensing Techniques and ApplicationsMonoclonal and Polyclonal Antibodies Research
Visualization of Intratumor Pharmacokinetics of [fam-] Trastuzumab Deruxtecan (DS-8201a) in HER2 Heterogeneous Model Using Phosphor-integrated Dots Imaging Analysis | Litcius