Pharmaceuticals (Sep 2021)

Evaluation of <sup>64</sup>Cu-Labeled New Anti-EGFR Antibody NCAB001 with Intraperitoneal Injection for Early PET Diagnosis of Pancreatic Cancer in Orthotopic Tumor-Xenografted Mice and Nonhuman Primates

  • Hiroki Matsumoto,
  • Tadashi Watabe,
  • Chika Igarashi,
  • Tomoko Tachibana,
  • Fukiko Hihara,
  • Atsuo Waki,
  • Ming-Rong Zhang,
  • Hideaki Tashima,
  • Taiga Yamaya,
  • Kazuhiro Ooe,
  • Eku Shimosegawa,
  • Jun Hatazawa,
  • Sei Yoshida,
  • Kenichiro Naito,
  • Hiroaki Kurihara,
  • Makoto Ueno,
  • Kimiteru Ito,
  • Tatsuya Higashi,
  • Yukie Yoshii

DOI
https://doi.org/10.3390/ph14100950
Journal volume & issue
Vol. 14, no. 10
p. 950

Abstract

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Objectives: To improve the prognosis of pancreatic cancer, new imaging methods to identify tumor lesions at a size of 64Cu-labeled new anti-epidermal growth factor receptor (EGFR) antibody (encoded as NCAB001), called 64Cu-NCAB001 ipPET. Methods: NCAB001 was manufactured under cGMP conditions and labeled with 64Cu. The radiochemical and biological properties of 64Cu-NCAB001 were evaluated. Tumor uptake of an ip-administered 64Cu-NCAB001 in mice with orthotopic pancreatic tumor xPA1-DC xenografts was also evaluated. Pharmacokinetics and radiation dosimetry were examined using PET images acquired after the ip administration of 64Cu-NCAB001 into cynomolgus monkeys with pharmacologic safety monitoring. Results: Radio-chromatography, cell-binding assays, and biodistribution of 64Cu-NCAB001 in mice were identical to those of our previous data with clinically available cetuximab. Small tumor lesions in the pancreas (≥3 mm) of mice could be identified by 64Cu-NCAB001 ipPET. The ip administration of 64Cu-NCAB001 into monkeys was safely conducted using ultrasound imaging. PET images in monkeys showed that ip-administered 64Cu-NCAB001 was distributed throughout the intraperitoneal cavity for up to 6 h and cleared thereafter. Most of the radioactivity was distributed in the liver and the large intestine. The radioactivity around the pancreas became negligible 24 h after administration. The estimated human effective dose was 0.0174 mSv/MBq. Conclusion: Our data support the initiation of clinical trials of 64Cu-NCAB001 ipPET to transfer this promising tool for the early diagnosis of pancreatic cancers.

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