Polyamidoamine dendrimer-mediated hydrogel for solubility enhancement and anti-cancer drug delivery.

IF 2.3 4区 医学 Q3 ENGINEERING, BIOMEDICAL Journal of Biomaterials Applications Pub Date : 2024-01-01 Epub Date: 2023-11-07 DOI:10.1177/08853282231213712
Xiangdong Bi, Darra B Watts, Ian Dorman, Casianna M Kirk, Marisa Thomas, Isaiah Singleton, Colleen Malcom, Taylor Barnes, Colby Carter, Aiye Liang
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Abstract

The application of hydrogels for anti-cancer drug delivery has garnered considerable interest in the medical field. Current cancer treatment approaches, such as chemotherapy and radiation therapy, often induce severe side effects, causing significant distress and substantial health complications to patients. Hydrogels present an appealing solution as they can be precisely injected into specific sites within the body, facilitating the sustainable release of encapsulated drugs. This localized treatment approach holds great potential for reducing toxicity levels and improving drug delivery efficacy. In this study we developed a hydrogel delivery system containing polyamidoamine (PAMAM) dendrimer and polyethylene glycol (PEG) for solubility enhancement and sustained delivery of hydrophobic anti-cancer drugs. The three selected model drugs, e.g. silibinin, camptothecin, and methotrexate, possess limited aqueous solubility and thus face restricted application. In the presence of vinyl sulfone functionalized PAMAM dendrimer at 45 mg/mL concentration, drug solubility is increased by 37-fold, 4-fold, and 10-fold for silibinin, camptothecin, and methotrexate, respectively. By further crosslinking of the functionalized PAMAM dendrimer and thiolated PEG, we successfully developed a fast-crosslinking hydrogel capable of encapsulating a significant payload of solubilized cancer drugs for sustained release. In water, the drug encapsulated hydrogels release 30%-80% of their loads in 1-4 days. MTT assays of J82 and MCF7 cells with various doses of drug encapsulated hydrogels reveal that cytotoxicity is observed for all three drugs on both J82 and MCF7 cell lines after 48 h. Notably, camptothecin exhibits higher cytotoxicity to both cell lines than silibinin and methotrexate, achieving up to 95% cell death at experimental conditions, despite its lower solubility. Our experiments provide evidence that the PAMAM dendrimer-mediated hydrogel system significantly improves the solubility of hydrophobic drugs and facilitates their sustained release. These findings position the system as a promising platform for controlled delivery of hydrophobic drugs for intratumoral cancer treatment.

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多胺树枝状大分子介导的水凝胶用于提高溶解度和抗癌药物递送。
水凝胶在抗癌药物递送中的应用已经在医学领域引起了相当大的兴趣。目前癌症的治疗方法,如化疗和放射治疗,通常会导致严重的副作用,给患者带来严重的痛苦和严重的健康并发症。水凝胶是一种很有吸引力的解决方案,因为它们可以精确地注射到体内的特定部位,促进胶囊药物的可持续释放。这种局部治疗方法在降低毒性水平和提高药物递送效率方面具有巨大潜力。在这项研究中,我们开发了一种含有聚酰胺胺(PAMAM)树枝状聚合物和聚乙二醇(PEG)的水凝胶递送系统,用于提高疏水性抗癌药物的溶解度和持续递送。所选择的三种模型药物,如水飞蓟宾、喜树碱和甲氨蝶呤,具有有限的水溶性,因此应用受到限制。在45mg/mL浓度的乙烯基砜官能化PAMAM树状大分子存在下,水飞蓟宾、喜树碱和甲氨蝶呤的药物溶解度分别增加了37倍、4倍和10倍。通过功能化PAMAM树枝状大分子和硫基化PEG的进一步交联,我们成功地开发了一种快速交联水凝胶,能够包裹溶解癌症药物的显著有效载荷以持续释放。在水中,药物包封的水凝胶在1-4天内释放30%-80%的负载。用不同剂量的药物包封的水凝胶对J82和MCF7细胞进行的MTT分析显示,48小时后,所有三种药物对J82细胞系和MCF7-细胞系都观察到细胞毒性。值得注意的是,与水飞蓟宾和甲氨蝶呤相比,喜树碱对两种细胞系都表现出更高的细胞毒性,尽管其溶解度较低,但在实验条件下可实现高达95%的细胞死亡。我们的实验提供了证据,证明PAMAM树状大分子介导的水凝胶系统显著提高了疏水性药物的溶解度,并促进了它们的持续释放。这些发现将该系统定位为用于肿瘤内癌症治疗的疏水性药物的控制递送的有前途的平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Biomaterials Applications
Journal of Biomaterials Applications 工程技术-材料科学:生物材料
CiteScore
5.10
自引率
3.40%
发文量
144
审稿时长
1.5 months
期刊介绍: The Journal of Biomaterials Applications is a fully peer reviewed international journal that publishes original research and review articles that emphasize the development, manufacture and clinical applications of biomaterials. Peer-reviewed articles by biomedical specialists from around the world cover: New developments in biomaterials, R&D, properties and performance, evaluation and applications Applications in biomedical materials and devices - from sutures and wound dressings to biosensors and cardiovascular devices Current findings in biological compatibility/incompatibility of biomaterials The Journal of Biomaterials Applications publishes original articles that emphasize the development, manufacture and clinical applications of biomaterials. Biomaterials continue to be one of the most rapidly growing areas of research in plastics today and certainly one of the biggest technical challenges, since biomaterial performance is dependent on polymer compatibility with the aggressive biological environment. The Journal cuts across disciplines and focuses on medical research and topics that present the broadest view of practical applications of biomaterials in actual clinical use. The Journal of Biomaterial Applications is devoted to new and emerging biomaterials technologies, particularly focusing on the many applications which are under development at industrial biomedical and polymer research facilities, as well as the ongoing activities in academic, medical and applied clinical uses of devices.
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