Institute for Experimental Molecular Imaging (ExMI), RWTH Aachen University, Aachen, Germany.
Electron Microscopy Facility, Institute for Pathology, University Clinic RWTH Aachen, Aachen, Germany.
Drug Deliv Transl Res. 2024 Oct;14(10):2629-2641. doi: 10.1007/s13346-024-01561-6. Epub 2024 Mar 18.
Drug delivery to central nervous pathologies is compromised by the blood-brain barrier (BBB). A clinically explored strategy to promote drug delivery across the BBB is sonopermeation, which relies on the combined use of ultrasound (US) and microbubbles (MB) to induce temporally and spatially controlled opening of the BBB. We developed an advanced in vitro BBB model to study the impact of sonopermeation on the delivery of the prototypic polymeric drug carrier pHPMA as a larger molecule and the small molecule antiviral drug ribavirin. This was done under standard and under inflammatory conditions, employing both untargeted and RGD peptide-coated MB. The BBB model is based on human cerebral capillary endothelial cells and human placental pericytes, which are co-cultivated in transwell inserts and which present with proper transendothelial electrical resistance (TEER). Sonopermeation induced a significant decrease in TEER values and facilitated the trans-BBB delivery of fluorescently labeled pHPMA (Atto488-pHPMA). To study drug delivery under inflamed endothelial conditions, which are typical for e.g. tumors, neurodegenerative diseases and CNS infections, tumor necrosis factor (TNF) was employed to induce inflammation in the BBB model. RGD-coated MB bound to and permeabilized the inflamed endothelium-pericyte co-culture model, and potently improved Atto488-pHPMA and ribavirin delivery. Taken together, our work combines in vitro BBB bioengineering with MB-mediated drug delivery enhancement, thereby providing a framework for future studies on optimization of US-mediated drug delivery to the brain.
药物递送至中枢神经病变受血脑屏障(BBB)的限制。一种临床上探索的促进药物穿过 BBB 递送至中枢神经系统的策略是声渗透,该策略依赖于超声(US)和微泡(MB)的联合使用,以诱导 BBB 的时间和空间控制开放。我们开发了一种先进的体外 BBB 模型,以研究声渗透对原型聚合物药物载体 pHPMA 作为较大分子和小分子抗病毒药物利巴韦林的递送的影响。这是在标准和炎症条件下进行的,同时使用了未靶向和 RGD 肽包被的 MB。该 BBB 模型基于人脑血管内皮细胞和人胎盘周细胞,它们在 Transwell 插入物中共同培养,具有适当的跨内皮电阻(TEER)。声渗透诱导 TEER 值显著降低,并促进了荧光标记的 pHPMA(Atto488-pHPMA)的跨 BBB 递送。为了研究在炎症条件下的药物递送,例如在肿瘤、神经退行性疾病和中枢神经系统感染中,肿瘤坏死因子(TNF)被用于诱导 BBB 模型中的炎症。RGD 肽包被的 MB 结合并渗透到炎症内皮细胞-周细胞共培养模型中,强烈改善了 Atto488-pHPMA 和利巴韦林的递送。总之,我们的工作将体外 BBB 生物工程与 MB 介导的药物递送增强相结合,为未来优化 US 介导的脑内药物递送的研究提供了框架。
