Self‐Folding Macromolecular Drug Carrier for Cancer Imaging and Therapy

Shan Gao; Yutaka Miura; Akira Sumiyoshi; Satoshi Ohno; Keisuke Ogata; Takahiro Nomoto; Makoto Matsui; Yuto Honda; Minoru Suzuki; Megumi Iiyama; Kensuke Osada; Ichio Aoki; Nobuhiro Nishiyama

doi:10.1002/advs.202304171

Advanced Science (Feb 2024)

Self‐Folding Macromolecular Drug Carrier for Cancer Imaging and Therapy

Shan Gao,
Yutaka Miura,
Akira Sumiyoshi,
Satoshi Ohno,
Keisuke Ogata,
Takahiro Nomoto,
Makoto Matsui,
Yuto Honda,
Minoru Suzuki,
Megumi Iiyama,
Kensuke Osada,
Ichio Aoki,
Nobuhiro Nishiyama

Affiliations

Shan Gao: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Yutaka Miura: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Akira Sumiyoshi: Institute for Quantum Medical Science National Institutes for Quantum Science and Technology Anagawa 4‐9‐1, Inage Chiba 263‐8555 Japan
Satoshi Ohno: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Keisuke Ogata: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Takahiro Nomoto: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Makoto Matsui: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Yuto Honda: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan
Minoru Suzuki: Division of Particle Radiation Oncology Particle Radiation Oncology Research Center Institute for Integrated Radiation and Nuclear Science Kyoto University 2–1010, Asashiro‐nishi, Kumatori‐cho, Sennan‐gun Osaka 590‐0494 Japan
Megumi Iiyama: Institute for Quantum Medical Science National Institutes for Quantum Science and Technology Anagawa 4‐9‐1, Inage Chiba 263‐8555 Japan
Kensuke Osada: Institute for Quantum Medical Science National Institutes for Quantum Science and Technology Anagawa 4‐9‐1, Inage Chiba 263‐8555 Japan
Ichio Aoki: Institute for Quantum Medical Science National Institutes for Quantum Science and Technology Anagawa 4‐9‐1, Inage Chiba 263‐8555 Japan
Nobuhiro Nishiyama: Laboratory for Chemistry and Life Science Tokyo Institute of Technology R1‐11, 4259 Nagatsuta‐cho, Midori‐ku Yokohama Kanagawa 226‐8503 Japan

DOI: https://doi.org/10.1002/advs.202304171
Journal volume & issue: Vol. 11, no. 7
pp. n/a – n/a

Abstract

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Abstract Nano‐sized contrast agents (NCAs) hold potential for highly specific tumor contrast enhancement during magnetic resonance imaging. Given the quantity of contrast agents loaded into a single nano‐carrier and the anticipated relaxation effects, the current molecular design approaches its limits. In this study, a novel molecular mechanism to augment the relaxation of NCAs is introduced and demonstrated. NCA formation is driven by the intramolecular self‐folding of a single polymer chain that possesses systematically arranged hydrophilic and hydrophobic segments in water. Utilizing this self‐folding molecular design, the relaxivity value can be elevated with minimal loading of gadolinium complexes, enabling sharp tumor imaging. Furthermore, the study reveals that this NCA can selectively accumulate into tumor tissues, offering effective anti‐tumor results through gadolinium neutron capture therapy. The efficacy and versatility of this self‐folding molecular design underscore its promise for cancer diagnosis and treatment.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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