Somaya A. Abdel-Rahman , Longfei Zhang , Moustafa T. Gabr
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引用次数: 2
Abstract
Lymphocyte activation gene 3 (LAG-3) is a negative immune checkpoint and a key regulator of immune homeostasis with multiple biological activities related to T-cell functions. Fibrinogen-like protein 1 (FGL1) is a major LAG-3 functional ligand that is upregulated in various human cancers. LAG-3 positive T cells bind FGL1 expressed by cancer cells, which inhibits T-cell activation and cytokine secretion via indirect blocking of T cell receptor (TCR) signaling. High expression of LAG-3 and FGL1 in patients with solid tumors is associated with drug resistance and decreased survival in response to FDA-approved immune checkpoint inhibitors. Therefore, targeting the LAG-3/FGL1 pathway represents a promising therapeutic strategy to maximize the number of patients benefiting from checkpoint blockade therapy. However, there are no small molecules in existence that target LAG-3/FGL1 interaction. Herein, we report a time-resolved fluorescence resonance energy transfer (TR-FRET) assay to evaluate the ability of small molecules to inhibit LAG-3/FGL1 interaction. We further demonstrate the implementation of the developed assay in screening chemical libraries of small molecules from the NCI Diversity Set VII, FDA-approved drugs, and a focused library of NF-κB modulators. This work will pave the way for drug discovery efforts focused on therapeutic targeting of LAG-3/FGL1 interaction using small molecules.
淋巴细胞活化基因3(LAG-3)是一种阴性免疫检查点,是免疫稳态的关键调节因子,具有与T细胞功能相关的多种生物活性。纤维蛋白原样蛋白1(FGL1)是一种主要的LAG-3功能配体,在各种人类癌症中上调。LAG-3阳性T细胞结合癌症细胞表达的FGL1,其通过间接阻断T细胞受体(TCR)信号传导来抑制T细胞活化和细胞因子分泌。LAG-3和FGL1在实体瘤患者中的高表达与对FDA批准的免疫检查点抑制剂的耐药性和生存率降低有关。因此,靶向LAG-3/FGL1途径是一种很有前途的治疗策略,可以最大限度地增加受益于检查点阻断治疗的患者数量。然而,目前还没有靶向LAG-3/FGL1相互作用的小分子。在此,我们报道了一种时间分辨荧光共振能量转移(TR-FRET)测定法,以评估小分子抑制LAG-3/FGL1相互作用的能力。我们进一步证明了所开发的检测方法在筛选来自NCI Diversity Set VII、FDA批准的药物和NF-κB调节剂的集中库的小分子化学文库中的应用。这项工作将为利用小分子靶向LAG-3/FGL1相互作用的药物发现工作铺平道路。
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).
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