Identification of a Selective Pharmacologic IRE1/XBP1s Activator with Enhanced Tissue Exposure

IF 3.5 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

ACS Chemical Biology Pub Date : 2025-04-15 DOI:10.1021/acschembio.4c0086710.1021/acschembio.4c00867

Jie Sun, Kyunga Lee, Sergei Kutseikin, Adrian Guerrero, Bibiana Rius, Aparajita Madhavan, Chavin Buasakdi, Ka-Neng Cheong, Priyadarshini Chatterjee, Dorian A. Rosen, Leonard Yoon, Maziar S. Ardejani, Alejandra Mendoza, Jessica D. Rosarda, Enrique Saez*, Jeffery W. Kelly* and R. Luke Wiseman*,

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引用次数: 0

Abstract

Activation of the IRE1/XBP1s signaling arm of the unfolded protein response (UPR) has emerged as a promising strategy to mitigate etiologically diverse diseases. Despite this promise, few compounds are available to selectively activate IRE1/XBP1s signaling to probe the biologic and therapeutic implications of this pathway in human disease. Recently, we identified the compound IXA4 as a highly selective activator of protective IRE1/XBP1s signaling. While IXA4 has proven useful for increasing IRE1/XBP1s signaling in cultured cells and mouse liver, the utility of this compound is restricted by its limited activity in other tissues. To broaden our ability to pharmacologically interrogate the impact of IRE1/XBP1s signaling in vivo, we sought to identify IRE1/XBP1s activators with greater tissue activity than IXA4. We reanalyzed ‘hits’ from the high throughput screen used to identify IXA4, selecting compounds from structural classes not previously pursued. We then performed global RNAseq to confirm that these compounds showed transcriptome-wide selectivity for IRE1/XBP1s activation. Functional profiling revealed compound IXA62 as a selective IRE1/XBP1s activator that reduced Aβ secretion from CHO^7PA2 cells and enhanced glucose-stimulated insulin secretion from rat insulinoma cells, mimicking the effects of IXA4 in these assays. IXA62 robustly and selectively activated IRE1/XBP1s signaling in the liver of mice dosed compound intraperitoneally or orally. In treated mice, IXA62 showed broader tissue activity, relative to IXA4, inducing expression of IRE1/XBP1s target genes in additional tissues such as kidney and lung. Collectively, our results designate IXA62 as a selective IRE1/XBP1s signaling activating compound with enhanced tissue activity, which increases our ability to pharmacologically probe the biologic significance and potential therapeutic utility of enhancing adaptive IRE1/XBP1s signaling in vivo.

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增强组织暴露的IRE1/XBP1s选择性药理学激活剂的鉴定

激活未折叠蛋白反应（UPR）的IRE1/XBP1s信号臂已成为缓解病因多样化疾病的一种有希望的策略。尽管有这样的前景，但很少有化合物可以选择性地激活IRE1/XBP1s信号，以探索该途径在人类疾病中的生物学和治疗意义。最近，我们发现化合物IXA4是保护性IRE1/XBP1s信号的高选择性激活剂。虽然IXA4已被证明对增加培养细胞和小鼠肝脏中的IRE1/XBP1s信号传导有用，但该化合物在其他组织中的活性有限，因此其效用受到限制。为了扩大我们药理学研究IRE1/XBP1s信号在体内的影响的能力，我们试图确定IRE1/XBP1s激活剂具有比IXA4更大的组织活性。我们重新分析了用于鉴定IXA4的高通量筛选中的“命中”，选择了以前没有研究过的结构类化合物。然后，我们进行了全局RNAseq，以确认这些化合物对IRE1/XBP1s的激活具有转录组选择性。功能分析显示，化合物IXA62是一种选择性IRE1/XBP1s激活剂，可减少CHO7PA2细胞的a β分泌，并增强葡萄糖刺激的大鼠胰岛素瘤细胞的胰岛素分泌，在这些实验中模拟IXA4的作用。IXA62在腹腔或口服给药小鼠肝脏中强有力地、选择性地激活IRE1/XBP1s信号通路。在处理过的小鼠中，IXA62表现出比IXA4更广泛的组织活性，诱导IRE1/XBP1s靶基因在肾和肺等其他组织中的表达。总之，我们的研究结果表明，IXA62是一种具有增强组织活性的选择性IRE1/XBP1s信号激活化合物，这增加了我们从药理学上探索增强体内适应性IRE1/XBP1s信号的生物学意义和潜在治疗用途的能力。

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来源期刊

ACS Chemical Biology 生物-生化与分子生物学

CiteScore

7.50

自引率

5.00%

发文量

353

审稿时长

3.3 months

期刊介绍： ACS Chemical Biology provides an international forum for the rapid communication of research that broadly embraces the interface between chemistry and biology. The journal also serves as a forum to facilitate the communication between biologists and chemists that will translate into new research opportunities and discoveries. Results will be published in which molecular reasoning has been used to probe questions through in vitro investigations, cell biological methods, or organismic studies. We welcome mechanistic studies on proteins, nucleic acids, sugars, lipids, and nonbiological polymers. The journal serves a large scientific community, exploring cellular function from both chemical and biological perspectives. It is understood that submitted work is based upon original results and has not been published previously.