Qin Yaxin, Dai Qi, Zhang Zhicheng, Sun Xiaoyan, Jiang Ruolin, Bao Xiaoyan, Wu Linjie, Tan Xin, Ying Xufang, Ben Zhiqing, Wei Qichun, Han Min
Institute of Pharmaceutics, College of Pharmaceutical Sciences, Zhejiang University, Hangzhou, China.
Department of Radiation Oncology, Key Laboratory of Cancer Prevention and Intervention, The Second Affiliated Hospital, College of Medicine, Zhejiang University, Hangzhou, China.
Drug Dev Ind Pharm. 2025 Feb;51(2):123-131. doi: 10.1080/03639045.2025.2452607. Epub 2025 Jan 15.
Boron Neutron Capture Therapy (BNCT) is a novel precision radiotherapy. The key to BNCT application lies in the effective targeting and retention of the boron-10 (B) carrier. Among the various compounds studied in clinical settings, 4-boronophenylalanine (BPA) become the most prevalent one currently. However, challenges such as inadequate solubility and restricted tumor accumulation have affected the clinical efficacy of treatment with BPA. Therefore, there is an urgent need to prepare formulations with higher tumor uptake efficiency and increased intratumoral accumulation.
polyethylene glycol 400 and BPA were added to methanol and stirred until completely dissolved. The solution was then evaporated to remove methanol, yielding a pale-yellow clear liquid of the PEG400-BPA complex. This complex was then used for and experiments, and it was evaluated for inhibition effects after BNCT irradiation in GL261 cells.
Compared to the clinically used fructose-BPA, PEG400-BPA increased the boron uptake in tumor cells nearly twice and exhibited a better tumor-to-normal tissue ratio (T/N) in the studies. Due to the BNCT efficacy with PEG400-BPA through experiments, the PEG400-BPA group also had showed significant cell-killing effects.
We discovered that PEG400 can form a complex with BPA, significantly improving its water solubility. It provides a simple, long-term stable, easily convertible, and injectable formulation method for the delivery of BPA in BNCT treatment. It also offers new insights for BPA solubilization and formulation as well as compound forms of administration of boron drugs on the delivery of boron drugs in BNCT.
硼中子俘获疗法(BNCT)是一种新型的精确放射疗法。BNCT应用的关键在于硼-10(B)载体的有效靶向和保留。在临床研究的各种化合物中,4-硼苯丙氨酸(BPA)成为目前最普遍使用的一种。然而,诸如溶解度不足和肿瘤蓄积受限等挑战影响了BPA治疗的临床疗效。因此,迫切需要制备具有更高肿瘤摄取效率和增加肿瘤内蓄积的制剂。
将聚乙二醇400和BPA加入甲醇中搅拌至完全溶解。然后蒸发溶液以除去甲醇,得到PEG400-BPA复合物的淡黄色澄清液体。然后将该复合物用于[具体实验内容缺失]实验,并在GL261细胞中进行BNCT照射后评估其抑制效果。
与临床使用的果糖-BPA相比,PEG400-BPA使肿瘤细胞中的硼摄取增加了近两倍,并且在[具体研究内容缺失]研究中表现出更好的肿瘤与正常组织比(T/N)。由于通过[具体实验内容缺失]实验证明了PEG400-BPA的BNCT疗效,PEG400-BPA组也显示出显著的细胞杀伤作用。
我们发现PEG400可以与BPA形成复合物,显著提高其水溶性。它为BNCT治疗中BPA的递送提供了一种简单、长期稳定、易于转化且可注射的制剂方法。它还为BPA的增溶和制剂以及硼药物的复合给药形式在BNCT中硼药物递送方面提供了新的见解。
