Overcoming the Blood–Brain Tumor Barrier with Docetaxel-Loaded Mesoporous Silica Nanoparticles for Treatment of Temozolomide-Resistant Glioblastoma

替莫唑胺 纳米载体 多西紫杉醇 血脑屏障 胶质瘤 介孔二氧化硅 癌症研究 药理学 体内 医学 材料科学 化学 化疗 药品 内科学 生物 介孔材料 催化作用 中枢神经系统 生物技术 生物化学
作者
Tsung‐I Hsu,Yi‐Ping Chen,Ronglin Zhang,Zih-An Chen,Cheng‐Hsun Wu,Wen‐Chang Chang,Chung‐Yuan Mou,Hardy Wai-Hong Chan,Si‐Han Wu
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (17): 21722-21735 被引量:28
标识
DOI:10.1021/acsami.4c04289
摘要

While temozolomide (TMZ) has been a cornerstone in the treatment of newly diagnosed glioblastoma (GBM), a significant challenge has been the emergence of resistance to TMZ, which compromises its clinical benefits. Additionally, the nonspecificity of TMZ can lead to detrimental side effects. Although TMZ is capable of penetrating the blood-brain barrier (BBB), our research addresses the need for targeted therapy to circumvent resistance mechanisms and reduce off-target effects. This study introduces the use of PEGylated mesoporous silica nanoparticles (MSN) with octyl group modifications (C8-MSN) as a nanocarrier system for the delivery of docetaxel (DTX), providing a novel approach for treating TMZ-resistant GBM. Our findings reveal that C8-MSN is biocompatible in vitro, and DTX@C8-MSN shows no hemolytic activity at therapeutic concentrations, maintaining efficacy against GBM cells. Crucially, in vivo imaging demonstrates preferential accumulation of C8-MSN within the tumor region, suggesting enhanced permeability across the blood-brain tumor barrier (BBTB). When administered to orthotopic glioma mouse models, DTX@C8-MSN notably prolongs survival by over 50%, significantly reduces tumor volume, and decreases side effects compared to free DTX, indicating a targeted and effective approach to treatment. The apoptotic pathways activated by DTX@C8-MSN, evidenced by the increased levels of cleaved caspase-3 and PARP, point to a potent therapeutic mechanism. Collectively, the results advocate DTX@C8-MSN as a promising candidate for targeted therapy in TMZ-resistant GBM, optimizing drug delivery and bioavailability to overcome current therapeutic limitations.
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