Neopentyl glycol-based radiohalogen-labeled amino acid derivatives for cancer radiotheranostics

Yuta Kaizuka; Hiroyuki Suzuki; Tadashi Watabe; Kazuhiro Ooe; Atsushi Toyoshima; Kazuhiro Takahashi; Koichi Sawada; Takashi Iimori; Yoshitada Masuda; Takashi Uno; Kento Kannaka; Tomoya Uehara

doi:10.1186/s41181-024-00244-4

EJNMMI Radiopharmacy and Chemistry (Feb 2024)

Neopentyl glycol-based radiohalogen-labeled amino acid derivatives for cancer radiotheranostics

Yuta Kaizuka,
Hiroyuki Suzuki,
Tadashi Watabe,
Kazuhiro Ooe,
Atsushi Toyoshima,
Kazuhiro Takahashi,
Koichi Sawada,
Takashi Iimori,
Yoshitada Masuda,
Takashi Uno,
Kento Kannaka,
Tomoya Uehara

Affiliations

Yuta Kaizuka: Graduate School of Pharmaceutical Sciences, Chiba University
Hiroyuki Suzuki: Graduate School of Pharmaceutical Sciences, Chiba University
Tadashi Watabe: Department of Nuclear Medicine and Tracer Kinetics, Graduate School of Medicine, Osaka University
Kazuhiro Ooe: Institute for Radiation Sciences, Osaka University
Atsushi Toyoshima: Institute for Radiation Sciences, Osaka University
Kazuhiro Takahashi: Advanced Clinical Research Center, Fukushima Medical University
Koichi Sawada: Department of Radiology, Chiba University Hospital
Takashi Iimori: Department of Radiology, Chiba University Hospital
Yoshitada Masuda: Department of Radiology, Chiba University Hospital
Takashi Uno: Department of Radiology, Chiba University Hospital
Kento Kannaka: Graduate School of Pharmaceutical Sciences, Chiba University
Tomoya Uehara: Graduate School of Pharmaceutical Sciences, Chiba University

DOI: https://doi.org/10.1186/s41181-024-00244-4
Journal volume & issue: Vol. 9, no. 1
pp. 1 – 13

Abstract

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Abstract Background L-type amino acid transporter 1 (LAT1) is overexpressed in various cancers; therefore, radiohalogen-labeled amino acid derivatives targeting LAT1 have emerged as promising candidates for cancer radiotheranostics. However, 211At-labeled amino acid derivatives exhibit instability against deastatination in vivo, making it challenging to use 211At for radiotherapy. In this study, radiohalogen-labeled amino acid derivatives with high dehalogenation stability were developed. Results We designed and synthesized new radiohalogen-labeled amino acid derivatives ([211At]At-NpGT, [125I]I-NpGT, and [18F]F-NpGT) in which L-tyrosine was introduced into the neopentyl glycol (NpG) structure. The radiolabeled amino acid derivatives were recognized as substrates of LAT1 in the in vitro studies using C6 glioma cells. In a biodistribution study using C6 glioma-bearing mice, these agents exhibited high stability against in vivo dehalogenation and similar biodistributions. The similarity of [211At]At-NpGT and [18F]F-NpGT indicated that these pairs of radiolabeled compounds would be helpful in radiotheranostics. Moreover, [211At]At-NpGT exhibited a dose-dependent inhibitory effect on the growth of C6 glioma-bearing mice. Conclusions [211At]At-NpGT exhibited a dose-dependent inhibitory effect on the tumor growth of glioma-bearing mice, and its biodistribution was similar to that of other radiohalogen-labeled amino acid derivatives. These findings suggest that radiotheranostics using [18F]F-NpGT and [123/131I]I-NpGT for diagnostic applications and [211At]At-NpGT and [131I]I-NpGT for therapeutic applications are promising.

Published in EJNMMI Radiopharmacy and Chemistry

ISSN: 2365-421X (Online)
Publisher: SpringerOpen
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General): Medical physics. Medical radiology. Nuclear medicine; Medicine: Therapeutics. Pharmacology
Website: http://ejnmmipharmchem.springeropen.com/

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