用于硼中子俘获疗法的聚乙烯醇增效惰性 D-氨基酸药物。

IF 10.5 1区 医学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Kakeru Konarita, Kaito Kanamori, Minoru Suzuki, Daiki Tokura, Shota Tanaka, Yuto Honda, Nobuhiro Nishiyama, Takahiro Nomoto
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引用次数: 0

摘要

自发现 D- 氨基酸以来,它们一直被认为没有活性,也没有被用作强效药物。在这里,我们报告了在硼中子俘获疗法(BNCT)中,D-氨基酸与聚(乙烯醇)(PVA)的简单混合释放了其潜在的潜力。PVA 与看似无用的硼化 D-氨基酸形成硼酸酯,诱导肿瘤相关氨基酸转运体超选择性内化并延长细胞内滞留时间,从而彻底治愈肿瘤。超选择性内化是通过将无效通过转运体的内化途径转换为转运体介导的内吞来实现的。内吞/溶酶体中的酸性环境解离了硼酸酯,激发了药物的隐蔽性,阻止了药物外排,延长了药物在细胞内的保留时间。在皮下肿瘤模型中,该系统实现了传统方法无法达到的惊人的高肿瘤选择性蓄积,并诱导了剧烈的 BNCT 效应。PVA 可能是释放看似惰性分子潜能的一种独特材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Poly(vinyl alcohol) potentiating an inert D-amino acid-based drug for boron neutron capture therapy.

Since the discovery of D-amino acids, they have been considered inactive and have not been used as potent drugs. Here, we report that simple mixing with poly(vinyl alcohol) (PVA) unleashed latent potentials of D-amino acids in boron neutron capture therapy (BNCT). PVA formed boronate esters with seemingly useless boronated D-amino acids and induced tumor-associated amino acid transporter-superselective internalization and prolonged intracellular retention, accomplishing complete cure of tumors. The superselective internalization was achieved by switching the internalization pathway from ineffective pass through the transporter to the transporter-mediated endocytosis. The acidic environment in the endo-/lysosome dissociated the boronate esters and elicited the stealthiness of the drugs, preventing their externalization and prolonging intracellular retention time. In a subcutaneous tumor model, this system accomplished surprisingly high tumor-selective accumulation that could not be achieved by conventional approaches and induced drastic BNCT effects. PVA may be a unique material to unlock potentials of seemingly inert molecules.

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来源期刊
Journal of Controlled Release
Journal of Controlled Release 医学-化学综合
CiteScore
18.50
自引率
5.60%
发文量
700
审稿时长
39 days
期刊介绍: The Journal of Controlled Release (JCR) proudly serves as the Official Journal of the Controlled Release Society and the Japan Society of Drug Delivery System. Dedicated to the broad field of delivery science and technology, JCR publishes high-quality research articles covering drug delivery systems and all facets of formulations. This includes the physicochemical and biological properties of drugs, design and characterization of dosage forms, release mechanisms, in vivo testing, and formulation research and development across pharmaceutical, diagnostic, agricultural, environmental, cosmetic, and food industries. Priority is given to manuscripts that contribute to the fundamental understanding of principles or demonstrate the advantages of novel technologies in terms of safety and efficacy over current clinical standards. JCR strives to be a leading platform for advancements in delivery science and technology.
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