Mesoporous Cerium Oxide Nanoparticles with High Scavenging Properties of Reactive Oxygen Species for Treating Age-Related Macular Degeneration

IF 4 Q2 ENGINEERING, BIOMEDICAL
Seung Woo Choi, Ye Eun Kim, Jaeyun Kim
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Abstract

Age-related macular degeneration (AMD), the leading cause of vision loss among older individuals, is characterized by damage to photoreceptors and retinal pigment epithelial cells (RPEs). Oxidative stress and chronic inflammation in the retina play notable roles in AMD pathogenesis, rendering them attractive therapeutic targets. Cerium oxide nanoparticles (CeNPs) have shown promise in scavenging reactive oxygen species (ROS) by mimicking antioxidant enzymes, whereas mesoporous materials have emerged as versatile drug carriers. Herein, mesoporous CeNPs (mCeNPs) that integrate the advantages of CeNPs and mesoporous materials are presented. The mCeNPs can be synthesized using 1,1′-carbonyldiimidazole and imidazole in acetone without heating and pressurization. The resulting mCeNPs exhibit mesoporous structures comprising assembled small CeNPs, exerting excellent ROS-scavenging capabilities, biocompatibility, and cytoprotective and anti-inflammatory effects against H2O2-induced damage in RPEs. Using a sodium iodate-induced AMD mouse model, it is demonstrated that intravitreal mCeNP administration can exhibit disease-preventive effects. These findings indicate the therapeutic potential of mCeNPs against AMD.

Abstract Image

具有高度清除活性氧特性的介孔氧化铈纳米粒子用于治疗老年性黄斑变性症
老年性黄斑变性(AMD)是老年人视力丧失的主要原因,其特征是光感受器和视网膜色素上皮细胞(RPEs)受损。氧化应激和视网膜慢性炎症在AMD发病机制中起着重要作用,使其成为有吸引力的治疗靶点。氧化铈纳米颗粒(CeNPs)通过模拟抗氧化酶来清除活性氧(ROS),而介孔材料已成为多功能药物载体。本文介绍了一种集CeNPs和介孔材料优点于一体的介孔CeNPs。用1,1′-羰基二咪唑和咪唑在丙酮中合成mCeNPs无需加热加压。所得到的mCeNPs具有介孔结构,由组装的小CeNPs组成,具有出色的ros清除能力、生物相容性以及对h2o2诱导的rpe损伤的细胞保护和抗炎作用。使用碘酸钠诱导的AMD小鼠模型,证明玻璃体内给药mCeNP可以表现出疾病预防作用。这些发现表明mCeNPs治疗AMD的潜力。
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来源期刊
Advanced Nanobiomed Research
Advanced Nanobiomed Research nanomedicine, bioengineering and biomaterials-
CiteScore
5.00
自引率
5.90%
发文量
87
审稿时长
21 weeks
期刊介绍: Advanced NanoBiomed Research will provide an Open Access home for cutting-edge nanomedicine, bioengineering and biomaterials research aimed at improving human health. The journal will capture a broad spectrum of research from increasingly multi- and interdisciplinary fields of the traditional areas of biomedicine, bioengineering and health-related materials science as well as precision and personalized medicine, drug delivery, and artificial intelligence-driven health science. The scope of Advanced NanoBiomed Research will cover the following key subject areas: ▪ Nanomedicine and nanotechnology, with applications in drug and gene delivery, diagnostics, theranostics, photothermal and photodynamic therapy and multimodal imaging. ▪ Biomaterials, including hydrogels, 2D materials, biopolymers, composites, biodegradable materials, biohybrids and biomimetics (such as artificial cells, exosomes and extracellular vesicles), as well as all organic and inorganic materials for biomedical applications. ▪ Biointerfaces, such as anti-microbial surfaces and coatings, as well as interfaces for cellular engineering, immunoengineering and 3D cell culture. ▪ Biofabrication including (bio)inks and technologies, towards generation of functional tissues and organs. ▪ Tissue engineering and regenerative medicine, including scaffolds and scaffold-free approaches, for bone, ligament, muscle, skin, neural, cardiac tissue engineering and tissue vascularization. ▪ Devices for healthcare applications, disease modelling and treatment, such as diagnostics, lab-on-a-chip, organs-on-a-chip, bioMEMS, bioelectronics, wearables, actuators, soft robotics, and intelligent drug delivery systems. with a strong focus on applications of these fields, from bench-to-bedside, for treatment of all diseases and disorders, such as infectious, autoimmune, cardiovascular and metabolic diseases, neurological disorders and cancer; including pharmacology and toxicology studies.
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