Synthesis and Application of a Caged Bioluminescent Probe for the Immunoproteasome

Cody A. Loy, Darci J. Trader
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Abstract

Monitoring the catalytic activity of the proteasome and its various isoforms has become increasingly important with the continued development of core particle inhibitors and targeted protein degraders as potential therapies for diseases with high protein accumulation. The immunoproteasome (iCP) is expressed in a variety of diseases due to inflammatory signals, such as interferon-gamma, that alert the cell to begin generating iCP preferentially over the standard proteasome. There is a need to understand iCP activity and expression both in cells and in vivo because it is becoming a widely targeted isoform in a variety of diseases. Activity-based probes for the iCP have been developed, but their application has been limited due to their difficult synthesis and choice of fluorescent reporter. There has yet to be a selective iCP probe developed that incorporates a luminescent reporter that could be applied to a variety of different applications. The protocols presented here describe the synthesis of a cleavable activity-based bioluminescent probe that is selective for the iCP, and the application of the synthesized probe in immunoproteasome activity assays using a luminescent plate reader. Having this bioluminescent reporter, a better understanding of how the iCP is implicated in disease progression, as well as identification of small molecule interactors, can be achieved. © 2024 Wiley Periodicals LLC.

Basic Protocol 1: Synthesis of a bioluminescent immunoproteasome probe

Basic Protocol 2: Expression of the immunoproteasome in cells

Basic Protocol 3: Immunoproteasome probe application in live cells using a luminescent plate reader

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免疫蛋白酶体笼式生物发光探针的合成与应用
随着核心颗粒抑制剂和靶向蛋白质降解剂的不断开发,监测蛋白酶体及其各种异构体的催化活性已变得越来越重要,它们是治疗蛋白质高积累疾病的潜在疗法。免疫蛋白酶体(iCP)在多种疾病中都有表达,这是由于γ干扰素等炎症信号提醒细胞开始优先生成 iCP,而不是标准蛋白酶体。由于 iCP 已成为多种疾病的广泛靶向异构体,因此有必要了解 iCP 在细胞和体内的活性和表达。基于 iCP 活性的探针已经开发出来,但由于难以合成和荧光报告物的选择,其应用受到了限制。目前还没有开发出一种结合了发光报告物的选择性 iCP 探针,这种探针可用于各种不同的应用。本文介绍了一种可裂解的基于活性的生物发光探针(对 iCP 具有选择性)的合成方法,以及将合成的探针应用于使用发光平板阅读器进行免疫蛋白酶体活性检测的方法。有了这种生物发光报告物,就能更好地了解 iCP 与疾病进展的关系,并确定小分子相互作用物。© 2024 Wiley Periodicals LLC.基本方案 1:合成生物发光免疫蛋白酶体探针 基本方案 2:在细胞中表达免疫蛋白酶体 基本方案 3:使用发光平板阅读器在活细胞中应用免疫蛋白酶体探针。
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