小分子 RNA 类似物的研发进展。
Progress toward the development of the small molecule equivalent of small interfering RNA.
机构信息
Scripps Research, Department of Chemistry, 110 Scripps Way, Jupiter, FL, 33458, USA.
Scripps Research, Department of Chemistry, 110 Scripps Way, Jupiter, FL, 33458, USA.
出版信息
Curr Opin Chem Biol. 2020 Jun;56:63-71. doi: 10.1016/j.cbpa.2020.01.001. Epub 2020 Feb 6.
Abstract
Given that many small molecules could bind to structured regions at sites that will not affect function, approaches that trigger degradation of RNA could provide a general way to affect biology. Indeed, targeted RNA degradation is an effective strategy to selectively and potently modulate biology. We describe several approaches to endow small molecules with the power to cleave RNAs. Central to these strategies is Inforna, which designs small molecules targeting RNA from human genome sequence. Inforna deduces the uniqueness of a druggable pocket, enables generation of hypotheses about functionality of the pocket, and defines on- and off-targets to drive compound optimization. RNA-binding compounds are then converted into cleavers that degrade the target directly or recruit an endogenous nuclease to do so. Cleaving compounds have significantly contributed to understanding and manipulating biological functions. Yet, there is much to be learned about how to affect human RNA biology with small molecules.
摘要
鉴于许多小分子可以结合到不会影响功能的结构区域的位点上,因此能够引发 RNA 降解的方法可能为影响生物学提供一种通用方法。事实上,靶向 RNA 降解是一种有效策略,可以选择性地和有效地调节生物学。我们描述了几种赋予小分子切割 RNA 能力的方法。这些策略的核心是 Inforna,它设计针对人类基因组序列中 RNA 的小分子。Inforna 推断出可成药口袋的独特性,能够生成关于口袋功能的假设,并定义靶内和靶外目标以推动化合物优化。然后将 RNA 结合化合物转化为可直接降解靶标或招募内源性核酸酶来实现降解的切割剂。切割化合物为理解和操纵生物学功能做出了重大贡献。然而,对于如何用小分子来影响人类 RNA 生物学,还有很多需要了解的地方。
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