Yuuri Hashimoto 1 , Kumiko Koyama 1 , Yasuki Kamai 2 , Kenji Hirotani 1 , Yusuke Ogitani 1 , Akiko Zembutsu 1 , Manabu Abe 1 , Yuki Kaneda 1 , Naoyuki Maeda 1 , Yoshinobu Shiose 1 , Takuma Iguchi 1 , Tomomichi Ishizaka 1 , Tsuyoshi Karibe 1 , Ichiro Hayakawa 1 , Koji Morita 1 , Takashi Nakada 1 , Taisei Nomura 3 , Kenichi Wakita 1 , Takashi Kagari 1 , Yuki Abe 1 , Masato Murakami 1 , Suguru Ueno 1 , Toshinori Agatsuma 1 Show Affiliations »
Abstract
PURPOSE: HER3 is a compelling target for cancer treatment; however, no HER3-targeted therapy is currently clinically available. Here, we produced U3-1402, an anti-HER3 antibody-drug conjugate with a topoisomerase I inhibitor exatecan derivative (DXd), and systematically investigated its targeted drug delivery potential and antitumor activity in preclinical models. EXPERIMENTAL DESIGN: In vitro pharmacologic activities and the mechanisms of action of U3-1402 were assessed in several human cancer cell lines. Antitumor activity of U3-1402 was evaluated in xenograft mouse models, including patient-derived xenograft (PDX) models. Safety assessments were also conducted in rats and monkeys. RESULTS: U3-1402 showed HER3-specific binding followed by highly efficient cancer cell internalization. Subsequently, U3-1402 was translocated to the lysosome and released its payload DXd. While U3-1402 was able to inhibit HER3-activated signaling similar to its naked antibody patritumab, the cytotoxic activity of U3-1402 in HER3-expressing cells was predominantly mediated by released DXd through DNA damage and apoptosis induction. In xenograft mouse models, U3-1402 exhibited dose-dependent and HER3-dependent antitumor activity. Furthermore, U3-1402 exerted potent antitumor activity against PDX tumors with HER3 expression. Acceptable toxicity was noted in both rats and monkeys. CONCLUSIONS: U3-1402 demonstrated promising antitumor activity against HER3-expressing tumors with tolerable safety profiles. The activity of U3-1402 was driven by HER3-mediated payload delivery via high internalization into tumor cells. ©2019 American Association for Cancer Research.
PURPOSE: HER3 is a compelling target for cancer treatment; however, no HER3 -targeted therapy is currently clinically available. Here, we produced U3-1402 , an anti-HER3 antibody-drug conjugate with a topoisomerase I inhibitor exatecan derivative (DXd ), and systematically investigated its targeted drug delivery potential and antitumor activity in preclinical models. EXPERIMENTAL DESIGN: In vitro pharmacologic activities and the mechanisms of action of U3-1402 were assessed in several human cancer cell lines. Antitumor activity of U3-1402 was evaluated in xenograft mouse models, including patient -derived xenograft (PDX) models. Safety assessments were also conducted in rats and monkeys. RESULTS: U3-1402 showed HER3 -specific binding followed by highly efficient cancer cell internalization. Subsequently, U3-1402 was translocated to the lysosome and released its payload DXd . While U3-1402 was able to inhibit HER3 -activated signaling similar to its naked antibody patritumab , the cytotoxic activity of U3-1402 in HER3 -expressing cells was predominantly mediated by released DXd through DNA damage and apoptosis induction. In xenograft mouse models, U3-1402 exhibited dose-dependent and HER3 -dependent antitumor activity. Furthermore, U3-1402 exerted potent antitumor activity against PDX tumors with HER3 expression. Acceptable toxicity was noted in both rats and monkeys. CONCLUSIONS: U3-1402 demonstrated promising antitumor activity against HER3 -expressing tumors with tolerable safety profiles. The activity of U3-1402 was driven by HER3 -mediated payload delivery via high internalization into tumor cells. ©2019 American Association for Cancer Research.
Entities: Chemical
Disease
Gene
Species
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Year: 2019
PMID: 31471314 DOI: 10.1158/1078-0432.CCR-19-1745
Source DB: PubMed Journal: Clin Cancer Res ISSN: 1078-0432 Impact factor: 12.531