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Long-range allosteric regulation of the human 26S proteasome by 20S proteasome-targeting cancer drugs

机译：靶向20S蛋白酶体的抗癌药物对人26S蛋白酶体的远距离变构调节

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The proteasome holoenzyme is the major non-lysosomal protease; its proteolytic activity is essential for cellular homeostasis. Thus, it is an attractive target for the development of chemotherapeutics. While the structural basis of core particle (CP) inhibitors is largely understood, their structural impact on the proteasome holoenzyme remains entirely elusive. Here, we determined the structure of the 26S proteasome with and without the inhibitor Oprozomib. Drug binding modifies the energy landscape of conformational motion in the proteasome regulatory particle (RP). Structurally, the energy barrier created by Oprozomib triggers a long-range allosteric regulation, resulting in the stabilization of a non-productive state. Thereby, the chemical drug-binding signal is converted, propagated and amplified into structural changes over a distance of more than 150 Å from the proteolytic site to the ubiquitin receptor Rpn10. The direct visualization of changes in conformational dynamics upon drug binding allows new ways to screen and develop future allosteric proteasome inhibitors.

机译：蛋白酶体全酶是主要的非溶酶体蛋白酶。它的蛋白水解活性对于细胞稳态是必不可少的。因此，它是化学疗法发展的有吸引力的目标。尽管人们对核心颗粒（CP）抑制剂的结构基础已广为人知，但它们对蛋白酶体全酶的结构影响仍然完全难以捉摸。在这里，我们确定了有和没有抑制剂奥普佐米的26S蛋白酶体的结构。药物结合改变了蛋白酶体调节颗粒（RP）中构象运动的能量格局。在结构上，由Oprozomib产生的能垒触发了长期的变构调节，从而导致了非生产状态的稳定。因此，化学药物结合信号在从蛋白水解位点到遍在蛋白受体Rpn10的超过150Å的距离上被转换，传播和放大为结构变化。药物结合后构象动力学变化的直接可视化提供了筛选和开发未来变构蛋白酶体抑制剂的新方法。

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期刊名称 Nature Communications
作者
David Haselbach; Jil Schrader; Felix Lambrecht; Fabian Henneberg; Ashwin Chari; Holger Stark;
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年(卷),期 -1(8),-1
年度 -1
页码 15578
总页数 8
原文格式 PDF
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入库时间 2022-08-21 10:55:17

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1. Long-range allosteric regulation of the human 26S proteasome by 20S proteasome-targeting cancer drugs [J] . David Haselbach, Jil Schrader, Felix Lambrecht, Nature Communications . 2017,第1期

机译：靶向20S蛋白酶体的抗癌药物对人26S蛋白酶体的远距离变构调节
2. Phosphorylation of 20S proteasome alpha subunit C8 (alpha7) stabilizes the 26S proteasome and plays a role in the regulation of proteasome complexes by gamma-interferon [J] . A. Jennifer RIVETT, Fiona L. L. STRATFORD, Grant G. F. MASON, The biochemical journal . 2004,第1期

机译：20S蛋白酶体α亚基C8（alpha7）的磷酸化稳定了26S蛋白酶体，并在γ-干扰素对蛋白酶体复合物的调节中发挥作用
3. Phosphorylation of 20S proteasome alpha subunit C8 (alpha7) stabilizes the 26S proteasome and plays a role in the regulation of proteasome complexes by gamma-interferon. [J] . Bose S, Stratford FL, Broadfoot KI, The Biochemical Journal . 2004,第Pta1期

机译：20S蛋白酶体α亚基C8（alpha7）的磷酸化稳定了26S蛋白酶体，并在γ-干扰素对蛋白酶体复合物的调节中发挥作用。
4. Development of a Rapid Data Analysis Workflow for Mapping In Vivo Human 26S Proteasome Interactions [C] . Athit Kao, Wynne Kandur, Yingying Yang, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2013

机译：开发用于在体内植物26S蛋白酶体相互作用中映射的快速数据分析工作流程
5. Explore the murine cardiac 20S proteasomes: Molecular composition and regulation. [D] . Zong, Chenggong. 2005

机译：探索鼠心脏20S蛋白酶体：分子组成和调控。
6. Phosphorylation of 20S proteasome alpha subunit C8 (alpha7) stabilizes the 26S proteasome and plays a role in the regulation of proteasome complexes by gamma-interferon. [O] . Suchira Bose, Fiona L L Stratford, Kerry I Broadfoot, 2004

机译：20S蛋白酶体α亚基C8（alpha7）的磷酸化稳定了26S蛋白酶体并在γ-干扰素对蛋白酶体复合物的调节中发挥作用。
7. Long-range allosteric regulation of the human 26S proteasome by 20S proteasome-targeting cancer drugs. [O] . Haselbach, D., Schrader, J., Lambrecht, F., 2017

机译：20s蛋白酶体靶向癌症药物对人类26s蛋白酶体的远程变构调节。
8. Regulation of the Response to Radiotherapy and Hyperthermia in Prostate Cancer by the 26s Proteasome. [R] . McBride, W. H. 2003

机译：26s蛋白酶体对前列腺癌放疗和热疗反应的调节。

Long-range allosteric regulation of the human 26S proteasome by 20S proteasome-targeting cancer drugs

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