Pharmaceutical Engineering Research Center, College of Pharmacy, Chongqing Medical University, Chongqing 400000, China.
J Mater Chem B. 2021 May 26;9(20):4134-4142. doi: 10.1039/d1tb00432h.
Atherosclerosis (AS) is a major cause of cardiovascular diseases, but its effective theranostic measure remains challenging thus far. Macrophages contribute to AS progress in diverse ways such as producing cytokines and reactive oxygen species (ROS), foaming macrophages, and differentiating into pro-inflammatory macrophages. With the aim of constructing a facile and efficacious theranostic system for diagnosis and treatment of AS, a templated self-assembly approach was developed. This strategy involves using indole molecule (indocyanine green (ICG) or IR783) as a template to assemble with probucol (PB) to gain multifunctional nanoparticles (IPNPs or IRPNPs). IPNPs and IRPNPs both showed excellent physicochemical properties, which testified the generality of the indole molecular self-assembly strategy for PB delivery. Besides, the nanoparticles have superior pharmaceutical characteristics including preventing macrophages from differentiating, more efficiently internalizing in inflammatory macrophages, eliminating overproduced ROS, lowering the level of inflammation cytokines, and inhibiting foaming. More importantly, IPNPs displayed effective therapeutic effects in AS model mice when administered via intravenous (i.v.) route. In addition, IPNPs and IRPNPs accumulated more effectively than ICG and IR783 via i.v. injection in the lesion area, and the blood circulation time was extended beyond 24 h. More interestingly, we discovered that the fluorescence imaging ability of IR783 and IRPNPs was more excellent than ICG and IPNPs, respectively. Moreover, a long-term treatment with IPNPs or IRPNPs revealed an excellent safety profile in mice. Accordingly, this self-assembly strategy developed herein is a universal and promising way for the delivery of lipophilic drugs. This study also provides new insights into developing effective theranostic agents for AS.
动脉粥样硬化(AS)是心血管疾病的主要病因,但迄今为止,其有效的治疗方法仍然具有挑战性。巨噬细胞通过多种方式促进 AS 的进展,例如产生细胞因子和活性氧(ROS)、泡沫化巨噬细胞以及分化为促炎巨噬细胞。为了构建一种用于 AS 诊断和治疗的简便有效治疗策略,开发了一种模板自组装方法。该策略涉及使用吲哚分子(吲哚菁绿(ICG)或 IR783)作为模板与普罗布考(PB)组装,以获得多功能纳米颗粒(IPNPs 或 IRPNPs)。IPNPs 和 IRPNPs 均表现出优异的物理化学性质,证明了吲哚分子自组装策略用于 PB 传递的通用性。此外,这些纳米颗粒具有卓越的药物特性,包括防止巨噬细胞分化、更有效地被炎症巨噬细胞内化、消除过量产生的 ROS、降低炎症细胞因子水平和抑制泡沫化。更重要的是,当通过静脉内(i.v.)途径给药时,IPNPs 在 AS 模型小鼠中显示出有效的治疗效果。此外,与 ICG 和 IR783 相比,IPNPs 和 IRPNPs 通过静脉注射在病变部位更有效地积累,并且血液循环时间延长至 24 小时以上。更有趣的是,我们发现 IR783 和 IRPNPs 的荧光成像能力分别比 ICG 和 IPNPs 更出色。此外,长期使用 IPNPs 或 IRPNPs 在小鼠中显示出极好的安全性。因此,本文开发的这种自组装策略为亲脂性药物的传递提供了一种通用且有前途的方法。本研究还为开发用于 AS 的有效治疗策略提供了新的思路。
