PROTAC® 技术及其在感染控制中的应用潜力

M. A. Zakharova, M. Chudinov
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引用次数: 0

摘要

目的介绍蛋白质分子可控降解制药技术(PROTAC®,Proteolysis Targeting Chimera)、PROTAC® 分子的设计方法、配体和连接体的选择与合成方法,以及该技术在治疗各种疾病方面的应用和可能的局限性。该综述涵盖 77 个资料来源,大部分来自 2020-2023 年。综述概述了 PROTAC® 技术的原理:构建由三个片段组成的嵌合分子。一个片段与生物靶标特异性结合,另一个片段招募宿主细胞的蛋白水解系统,第三个片段将它们结合在一起。本文介绍了该技术目前发展的主要领域,以及嵌合分子在抗击不同类型传染病方面的机遇和局限性。利用 PROTAC® 技术防治癌症、神经退行性疾病、自身免疫性疾病和传染性疾病的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PROTAC® technology and potential for its application in infection control
Objectives. To describe the pharmaceutical technology of controlled degradation of protein molecules (PROTAC®, Proteolysis Targeting Chimera), approaches to the design of the PROTAC® molecule, methods of ligand and linker selection and synthesis, as well as the application of this technology in dealing with a variety of diseases and the possible limitations of its use.Results. The review covers 77 sources, mostly from 2020–2023. The review outlines the principle of PROTAC® technology: the construction of a chimeric molecule consisting of three fragments. One fragment specifically binds to the biotarget, another recruits the proteolytic system of the host cell, and the third binds them together. The main areas of the current development of the technology are described herein, as well as the opportunities and limitations of chimeric molecules in the fight against different types of infectious diseases.Conclusion. The potential to use PROTAC® technology to combat cancer as well as neurodegenerative, autoimmune, and infectious diseases is shown.
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