SARS-CoV-2 Mpro inhibitor identification using a cellular gain-of-signal assay for high-throughput screening

IF 2.7 4区生物学 Q2 BIOCHEMICAL RESEARCH METHODS

SLAS Discovery Pub Date : 2024-09-01 DOI:10.1016/j.slasd.2024.100181

Renee Delgado , Jyoti Vishwakarma , Seyed Arad Moghadasi , Yuka Otsuka , Justin Shumate , Ashley Cuell , Megan Tansiongco , Christina B. Cooley , Yanjun Chen , Agnieszka Dabrowska , Rahul Basu , Paulina Duhita Anindita , Dahai Luo , Peter I. Dosa , Daniel A. Harki , Thomas Bannister , Louis Scampavia , Timothy P. Spicer , Reuben S. Harris

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引用次数: 0

Abstract

Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2, SARS2) is responsible for the COVID-19 pandemic and infections that continue to affect the lives of millions of people worldwide, especially those who are older and/or immunocompromised. The SARS2 main protease enzyme, M^pro (also called 3C-like protease, 3CL^pro), is a bona fide drug target as evidenced by potent inhibition with nirmatrelvir and ensitrelvir, the active components of the drugs Paxlovid and Xocova, respectively. However, the existence of nirmatrelvir and ensitrelvir-resistant isolates underscores the need to develop next-generation drugs with different resistance profiles and/or distinct mechanisms of action. Here, we report the results of a high-throughput screen of 649,568 compounds using a cellular gain-of-signal assay. In this assay, M^pro inhibits expression of a luciferase reporter, and 8,777 small molecules were considered hits by causing a gain in luciferase activity 3x SD above the sample field activity (6.8% gain-of-signal relative to 100 µM GC376). Single concentration and dose-response gain-of-signal experiments confirmed 3,522/8,762 compounds as candidate inhibitors. In parallel, all initial high-throughput screening hits were tested in a peptide cleavage assay with purified M^pro and only 39/8,762 showed inhibition. Importantly, 19/39 compounds (49%) re-tested positive in both SARS2 assays, including two previously reported M^pro inhibitors, demonstrating the efficacy of the overall screening strategy. This approach led to the rediscovery of known M^pro inhibitors such as calpain inhibitor II, as well as to the discovery of novel compounds that provide chemical information for future drug development efforts.

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利用细胞信号增益试验进行高通量筛选，鉴定 SARS-CoV-2 Mpro 抑制剂。

严重急性呼吸系统综合征冠状病毒 2（SARS-CoV-2，SARS2）是 COVID-19 大流行和感染的罪魁祸首，它继续影响着全球数百万人的生活，尤其是老年人和/或免疫力低下者。SARS2 的主要蛋白酶 Mpro（又称 3C 样蛋白酶，3CLpro）是一个真正的药物靶点，这一点可以从药物 Paxlovid 和 Xocova 的活性成分 nirmatrelvir 和 ensitrelvir 的强效抑制作用中得到证明。然而，耐纳曲韦和恩西曲韦的分离株的存在突出表明，有必要开发具有不同耐药性特征和/或不同作用机制的下一代药物。在此，我们报告了利用细胞信号增益试验对 649,568 种化合物进行高通量筛选的结果。在该试验中，Mpro 可抑制荧光素酶报告基因的表达，8777 个小分子的荧光素酶活性的增益为样本场活性的 3 倍标准差（相对于 100 µM GC376 的信号增益为 6.8%），因此被认为是命中化合物。单浓度和剂量反应信号增益实验确认了 3,522/8,762 个化合物为候选抑制剂。与此同时，用纯化的 Mpro 在肽裂解实验中测试了所有最初的高通量筛选结果，只有 39/8,762 个化合物显示出抑制作用。重要的是，19/39 个化合物（49%）在两种 SARS2 试验中都再次检测出了阳性结果，其中包括两种以前报道过的 Mpro 抑制剂，这证明了整个筛选策略的有效性。这种方法重新发现了已知的 Mpro 抑制剂（如钙蛋白酶抑制剂 II），并发现了新型化合物，为今后的药物开发工作提供了化学信息。

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来源期刊

SLAS Discovery Chemistry-Analytical Chemistry

CiteScore

7.00

自引率

3.20%

发文量

审稿时长

39 days

期刊介绍： Advancing Life Sciences R&D: SLAS Discovery reports how scientists develop and utilize novel technologies and/or approaches to provide and characterize chemical and biological tools to understand and treat human disease. SLAS Discovery is a peer-reviewed journal that publishes scientific reports that enable and improve target validation, evaluate current drug discovery technologies, provide novel research tools, and incorporate research approaches that enhance depth of knowledge and drug discovery success. SLAS Discovery emphasizes scientific and technical advances in target identification/validation (including chemical probes, RNA silencing, gene editing technologies); biomarker discovery; assay development; virtual, medium- or high-throughput screening (biochemical and biological, biophysical, phenotypic, toxicological, ADME); lead generation/optimization; chemical biology; and informatics (data analysis, image analysis, statistics, bio- and chemo-informatics). Review articles on target biology, new paradigms in drug discovery and advances in drug discovery technologies. SLAS Discovery is of particular interest to those involved in analytical chemistry, applied microbiology, automation, biochemistry, bioengineering, biomedical optics, biotechnology, bioinformatics, cell biology, DNA science and technology, genetics, information technology, medicinal chemistry, molecular biology, natural products chemistry, organic chemistry, pharmacology, spectroscopy, and toxicology. SLAS Discovery is a member of the Committee on Publication Ethics (COPE) and was published previously (1996-2016) as the Journal of Biomolecular Screening (JBS).