Implantation of hydrogel-liposome nanoplatform inhibits glioblastoma relapse by inducing ferroptosis

IF 10.7 1区 医学 Q1 PHARMACOLOGY & PHARMACY Asian Journal of Pharmaceutical Sciences Pub Date : 2023-05-01 DOI:10.1016/j.ajps.2023.100800
Zixiao Wang , Zihao Liu , Shan Wang , Xin Bing , Xiaoshuai Ji , Dong He , Min Han , Yanbang Wei , Chanyue Wang , Qian Xia , Jianqiao Yang , Jiajia Gao , Xianyong Yin , Zhihai Wang , Zehan Shang , Jiacan Xu , Tao Xin , Qian Liu
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引用次数: 2

Abstract

Glioblastoma is acknowledged as the most aggressive cerebral tumor in adults. However, the efficacy of current standard therapy is seriously undermined by drug resistance and suppressive immune microenvironment. Ferroptosis is a recently discovered form of iron-dependent cell death that may have excellent prospect as chemosensitizer. The utilization of ferropotosis inducer Erastin could significantly mediate chemotherapy sensitization of Temozolomide and exert anti-tumor effects in glioblastoma. In this study, a combination of hydrogel-liposome nanoplatform encapsulated with Temozolomide and ferroptosis inducer Erastin was constructed. The αvβ3 integrin-binding peptide cyclic RGD was utilized to modify codelivery system to achieve glioblastoma targeting strategy. As biocompatible drug reservoirs, cross-linked GelMA (gelatin methacrylamide) hydrogel and cRGD-coated liposome realized the sustained release of internal contents. In the modified intracranial tumor resection model, GelMA-liposome system achieved slow release of Temozolomide and Erastin in situ for more than 14 d. The results indicated that nanoplatform (T+E@LPs-cRGD+GelMA) improved glioblastoma sensitivity to chemotherapeutic temozolomide and exerted satisfactory anti-tumor effects. It was demonstrated that the induction of ferroptosis could be utilized as a therapeutic strategy to overcome drug resistance. Furthermore, transcriptome sequencing was conducted to reveal the underlying mechanism that the nanoplatform (T+E@LPs-cRGD+GelMA) implicated in. It is suggested that GelMA-liposome system participated in the immune response and immunomodulation of glioblastoma via interferon/PD-L1 pathway. Collectively, this study proposed a potential combinatory therapeutic strategy for glioblastoma treatment.

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水凝胶-脂质体纳米平台通过诱导铁下垂抑制胶质母细胞瘤复发
胶质母细胞瘤是公认的成人最具侵袭性的脑肿瘤。然而,目前标准治疗的疗效受到耐药性和抑制性免疫微环境的严重破坏。脱铁症是最近发现的一种铁依赖性细胞死亡形式,可能具有作为化学增敏剂的良好前景。利用铁蛋白病诱导剂Erastin可以显著介导替莫唑胺的化疗增敏,并在胶质母细胞瘤中发挥抗肿瘤作用。在本研究中,构建了一种由替莫唑胺和脱铁诱导剂Erastin包裹的水凝胶脂质体纳米平台。利用αvβ3整合素结合肽环RGD修饰共递送系统,实现胶质母细胞瘤靶向策略。交联GelMA(明胶-甲基丙烯酰胺)水凝胶和cRGD包被脂质体作为生物相容性药物库,实现了内部内容物的持续释放。在改良的颅内肿瘤切除模型中,GelMA脂质体系统实现了替莫唑胺和Erastin的原位缓释14d以上。结果表明,纳米平台(T+E@LPs-cRGD+GelMA)提高了胶质母细胞瘤对化疗药物替莫唑酰胺的敏感性,并发挥了令人满意的抗肿瘤效果。研究表明,诱导脱铁性贫血可以作为克服耐药性的治疗策略。此外,通过转录组测序揭示了纳米平台(T+E@LPs-cRGD+GelMA)参与胶质母细胞瘤免疫反应和免疫调节的潜在机制。总之,本研究为胶质母细胞瘤的治疗提出了一种潜在的组合治疗策略。
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来源期刊
Asian Journal of Pharmaceutical Sciences
Asian Journal of Pharmaceutical Sciences Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
18.30
自引率
2.90%
发文量
11
审稿时长
14 days
期刊介绍: The Asian Journal of Pharmaceutical Sciences (AJPS) serves as the official journal of the Asian Federation for Pharmaceutical Sciences (AFPS). Recognized by the Science Citation Index Expanded (SCIE), AJPS offers a platform for the reporting of advancements, production methodologies, technologies, initiatives, and the practical application of scientific knowledge in the field of pharmaceutics. The journal covers a wide range of topics including but not limited to controlled drug release systems, drug targeting, physical pharmacy, pharmacodynamics, pharmacokinetics, pharmacogenomics, biopharmaceutics, drug and prodrug design, pharmaceutical analysis, drug stability, quality control, pharmaceutical engineering, and material sciences.
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