铁蛋白纳米笼作为高效的纳米载体，为 COVID-19 和其他疫苗的开发提供了有前途的平台。

Ferritin nanocages as efficient nanocarriers and promising platforms for COVID-19 and other vaccines development.

机构信息

Department of Chemistry, State University of New York, Potsdam, NY 13676, USA.

Department of Molecular and Translational Medicine, University of Brescia, 25121 Brescia, Italy.

出版信息

Biochim Biophys Acta Gen Subj. 2023 Mar;1867(3):130288. doi: 10.1016/j.bbagen.2022.130288. Epub 2022 Dec 5.

DOI:10.1016/j.bbagen.2022.130288

PMID:36470367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9721431/

Abstract

BACKGROUND

The development of safe and effective vaccines against SARS-CoV-2 and other viruses with high antigenic drift is of crucial importance to public health. Ferritin is a well characterized and ubiquitous iron storage protein that has emerged not only as a useful nanoreactor and nanocarrier, but more recently as an efficient platform for vaccine development.

SCOPE OF REVIEW

This review discusses ferritin structure-function properties, self-assembly, and novel bioengineering strategies such as interior cavity and exterior surface modifications for cargo encapsulation and delivery. It also discusses the use of ferritin as a scaffold for biomedical applications, especially for vaccine development against influenza, Epstein-Barr, HIV, hepatitis-C, Lyme disease, and respiratory viruses such as SARS-CoV-2. The use of ferritin for the synthesis of mosaic vaccines to deliver a cocktail of antigens that elicit broad immune protection against different viral variants is also explored.

MAJOR CONCLUSIONS

The remarkable stability, biocompatibility, surface functionalization, and self-assembly properties of ferritin nanoparticles make them very attractive platforms for a wide range of biomedical applications, including the development of vaccines. Strong immune responses have been observed in pre-clinical studies against a wide range of pathogens and have led to the exploration of ferritin nanoparticles-based vaccines in multiple phase I clinical trials.

GENERAL SIGNIFICANCE

The broad protective antibody response of ferritin nanoparticles-based vaccines demonstrates the usefulness of ferritin as a highly promising and effective approaches for vaccine development.

摘要

背景

开发针对 SARS-CoV-2 及其他抗原漂移率高的病毒的安全有效的疫苗对公共卫生至关重要。铁蛋白是一种特征明确、广泛存在的铁储存蛋白，不仅是一种有用的纳米反应器和纳米载体，而且最近还成为疫苗开发的有效平台。

综述范围

本文讨论了铁蛋白的结构-功能特性、自组装，以及用于货物封装和递送的内腔和外表面修饰等新型生物工程策略。还讨论了铁蛋白在生物医学应用中的用途，特别是在针对流感、爱泼斯坦-巴尔病毒、艾滋病毒、丙型肝炎、莱姆病和呼吸道病毒（如 SARS-CoV-2）的疫苗开发中的用途。还探讨了使用铁蛋白合成镶嵌疫苗，以递送电离抗原混合物，从而引发针对不同病毒变体的广泛免疫保护。

主要结论

铁蛋白纳米颗粒的显著稳定性、生物相容性、表面功能化和自组装特性，使它们成为广泛的生物医学应用的极具吸引力的平台，包括疫苗开发。临床前研究观察到针对广泛病原体的强烈免疫反应，促使人们在多项 I 期临床试验中探索铁蛋白纳米颗粒疫苗。

一般意义

铁蛋白纳米颗粒疫苗产生的广泛保护性抗体反应表明，铁蛋白作为疫苗开发的一种极具前景和有效的方法非常有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/77c7/9721431/049a7e14ecaf/ga1_lrg.jpg

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铁蛋白纳米笼作为高效的纳米载体，为 COVID-19 和其他疫苗的开发提供了有前途的平台。

Ferritin nanocages as efficient nanocarriers and promising platforms for COVID-19 and other vaccines development.

机构信息

出版信息

BACKGROUND

SCOPE OF REVIEW

MAJOR CONCLUSIONS

GENERAL SIGNIFICANCE

背景

综述范围

主要结论

一般意义

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