Department of Chemistry, City University of Hong Kong, Tat Chee Avenue, Kowloon, Hong Kong SAR, China.
Nanoscale. 2021 Feb 7;13(5):3184-3193. doi: 10.1039/d0nr06765b. Epub 2021 Feb 2.
Short circulation lifetime, poor blood-brain barrier (BBB) permeability and low targeting specificity limit nanovehicles from crossing the vascular barrier and reaching the tumor site. Consequently, the precise diagnosis of malignant brain tumors remains a great challenge. This study demonstrates the imaging of photostable biopolymer-coated nanodiamonds (NDs) with tumor targeting properties inside the brain. NDs are labeled with PEGylated denatured bovine serum albumin (BSA) and tumor vasculature targeting tripeptides RGD. The modified NDs show high colloidal stability in different buffer systems. Moreover, it is found that discrete dcBSA-PEG-NDs cross the in vitro BBB model more effectively than aggregated NDs. Importantly, compared with the non-targeting NDs, RGD-dcBSA-PEG-NDs can selectively target the tumor site in U-87 MG bearing mice after systemic injection. Overall, this discrete ND system enables efficacious brain tumor visualization with minimal toxicity to other major organs, and is worthy of further investigation into the applications as a unique platform for noninvasive theragnostics and/or thermometry at different stages of human diseases in the brain.
短循环寿命、较差的血脑屏障 (BBB) 通透性和低靶向特异性限制了纳米载体穿过血管屏障到达肿瘤部位。因此,恶性脑肿瘤的精确诊断仍然是一个巨大的挑战。本研究展示了具有肿瘤靶向特性的光稳定生物聚合物包覆纳米金刚石 (ND) 在大脑内部的成像。NDs 用聚乙二醇化变性牛血清白蛋白 (BSA) 和肿瘤血管靶向三肽 RGD 标记。修饰后的 NDs 在不同的缓冲系统中表现出高胶体稳定性。此外,研究发现,与聚集的 NDs 相比,离散的 dcBSA-PEG-NDs 更有效地穿过体外 BBB 模型。重要的是,与非靶向 NDs 相比,在系统性注射后,RGD-dcBSA-PEG-NDs 可以选择性地靶向 U-87 MG 荷瘤小鼠的肿瘤部位。总的来说,这种离散的 ND 系统能够有效地可视化脑肿瘤,对其他主要器官的毒性最小,并且值得进一步研究,作为一种独特的平台,用于在大脑的不同疾病阶段进行非侵入性治疗学和/或温度测量。
