Structural modification strategies for ferritin nanoparticles and their applications in biomedicine: a narrative review

生物医学 纳米技术 叙述的 纳米颗粒 叙述性评论 铁蛋白 材料科学 化学 医学 艺术 生物信息学 生物 生物化学 重症监护医学 文学类
作者
Y. L. Wang,Lei Shi,Chengzhi Zou,Zizhong Liu,Jia Wang
出处
期刊:Nanoscale [Royal Society of Chemistry]
卷期号:17 (30): 17428-17442 被引量:8
标识
DOI:10.1039/d5nr01369k
摘要

transferrin receptor 1 (TfR1)), and reversible self-assembly make it a promising nanoplatform for various applications, including drug delivery, targeted imaging, environmental remediation, and nanocatalysis. To overcome the limitations of native ferritin and expand its functional repertoire, researchers have employed strategies such as chemical modification, genetic engineering, and biomimetic mineralization. In particular, chemical modification approaches enable conjugation of targeting ligands, fluorescent probes, or polymer coating onto the ferritin surface, which can prolong the circulation time and improve delivery efficiency. Site-directed mutagenesis and fusion protein strategies enhance its stability and specificity while biomimetic mineralization utilizes the inner cavity of ferritin to synthesize metal nanoparticles and construct multifunctional composites. These advancements significantly broaden the scope of ferritin applications with great potential in precision medicine, treatment of neurodegenerative diseases, and biocatalysis. Yet, challenges remain regarding biosafety, scalable preparation, and clinical translation. Future research needs to focus on optimizing modification strategies to improve the stability and targeting efficiency of nano-delivery systems, and integrate new technologies such as artificial intelligence and synthetic biology to construct efficient, low toxicity and multifunctional nano-delivery systems. This review systematically summarizes the progress on ferritin nanoparticles, focusing on their structural characteristics, the potential of their native properties, and key modification strategies to enhance their functionality. We discuss their diverse biomedical applications, providing theoretical and technical references for related research and promoting the development of precision nanomedicine.
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