Inhibition of OSBP blocks retrograde trafficking by inducing partial Golgi degradation

IF 12.9 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Nature chemical biology Pub Date : 2024-06-21 DOI:10.1038/s41589-024-01653-x

Nianzhe He, Laura Depta, Cecilia Rossetti, Lucie Caramelle, Marko Cigler, Hogan P. Bryce-Rogers, Marine Michon, Oliver Rafn Dan, Joseph Hoock, Julien Barbier, Daniel Gillet, Alison Forrester, Georg E. Winter, Luca Laraia

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Abstract

Sterol-binding proteins are important regulators of lipid homeostasis and membrane integrity; however, the discovery of selective modulators can be challenging due to structural similarities in the sterol-binding domains. We report the discovery of potent and selective inhibitors of oxysterol-binding protein (OSBP), which we term oxybipins. Sterol-containing chemical chimeras aimed at identifying new sterol-binding proteins by targeted degradation, led to a significant reduction in levels of Golgi-associated proteins. The degradation occurred in lysosomes, concomitant with changes in protein glycosylation, indicating that the degradation of Golgi proteins was a downstream effect. By establishing a sterol transport protein biophysical assay panel, we discovered that the oxybipins potently inhibited OSBP, resulting in blockage of retrograde trafficking and attenuating Shiga toxin toxicity. As the oxybipins do not target other sterol transporters and only stabilized OSBP in intact cells, we advocate their use as tools to study OSBP function and therapeutic relevance.

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抑制 OSBP 可通过诱导部分高尔基体降解来阻止逆行运输

固醇结合蛋白是脂质平衡和膜完整性的重要调节剂；然而，由于固醇结合结构域的结构相似性，发现选择性调节剂可能具有挑战性。我们报告了对氧固醇结合蛋白（OSBP）强效选择性抑制剂的发现，我们称之为氧联苯。含固醇的化学嵌合体旨在通过定向降解鉴定新的固醇结合蛋白，从而显著降低高尔基相关蛋白的水平。降解发生在溶酶体中，与蛋白质糖基化的变化同时发生，这表明高尔基体蛋白质的降解是一种下游效应。通过建立固醇转运蛋白生物物理检测小组，我们发现氧环黄酮能有效抑制 OSBP，从而阻断逆向转运，减轻志贺毒素的毒性。由于氧化苦参碱不针对其他固醇转运体，而且只能稳定完整细胞中的 OSBP，我们主张将其用作研究 OSBP 功能和治疗相关性的工具。

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来源期刊

Nature chemical biology 生物-生化与分子生物学

CiteScore

23.90

自引率

1.40%

发文量

238

审稿时长

12 months

期刊介绍： Nature Chemical Biology stands as an esteemed international monthly journal, offering a prominent platform for the chemical biology community to showcase top-tier original research and commentary. Operating at the crossroads of chemistry, biology, and related disciplines, chemical biology utilizes scientific ideas and approaches to comprehend and manipulate biological systems with molecular precision. The journal embraces contributions from the growing community of chemical biologists, encompassing insights from chemists applying principles and tools to biological inquiries and biologists striving to comprehend and control molecular-level biological processes. We prioritize studies unveiling significant conceptual or practical advancements in areas where chemistry and biology intersect, emphasizing basic research, especially those reporting novel chemical or biological tools and offering profound molecular-level insights into underlying biological mechanisms. Nature Chemical Biology also welcomes manuscripts describing applied molecular studies at the chemistry-biology interface due to the broad utility of chemical biology approaches in manipulating or engineering biological systems. Irrespective of scientific focus, we actively seek submissions that creatively blend chemistry and biology, particularly those providing substantial conceptual or methodological breakthroughs with the potential to open innovative research avenues. The journal maintains a robust and impartial review process, emphasizing thorough chemical and biological characterization.

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