Lee Jinny Claire, Shirey Ryan J, Turner Lewis D, Park Hyeri, Lairson Luke L, Janda Kim D
Departments of Chemistry and Immunology, The Skaggs Institute for Chemical Biology, Worm Institute for Research and Medicine (WIRM), The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, California 92037, United States.
Results Chem. 2024 Jan;7. doi: 10.1016/j.rechem.2024.101349. Epub 2024 Feb 8.
Phospholipase D3 (PLD3) and D4 (PLD4) are endolysosomal exonucleases of ssDNA and ssRNA that regulate innate immunity. Polymorphisms of these enzymes are correlated with numerous human diseases, including Alzheimer's, rheumatoid arthritis, and systemic sclerosis. Pharmacological modulation of these immunoregulatory proteins may yield novel immunotherapies and adjuvants. A previous study reported a high-throughput screen ( = 17,952) that discovered a PLD3-selective activator and inhibitor, as well as a nonselective inhibitor, but failed to identify selective modulators of PLD4. However, modulators selective for PLD4 are therapeutically pertinent, since recent reports have shown that regulating this protein has direct implications in cancer and autoimmune diseases. Furthermore, the high expression of PLD4 in dendritic and myeloid cells, in comparison to the broader expression of PLD3, presents the opportunity for a cell-targeted immunotherapy. Here, we describe screening of an expended diversity library ( = 45,760) with an improved platform and report the discovery of one inhibitor and three activators selective for PLD4. Furthermore, kinetic modeling and structural analysis suggest mechanistic differences in the modulation of these hits. These findings further establish the utility of this screening platform and provide a set of chemical scaffolds to guide future small-molecule development for this novel immunoregulator target.
磷脂酶D3(PLD3)和D4(PLD4)是单链DNA和单链RNA的溶酶体内核酸外切酶,可调节先天免疫。这些酶的多态性与多种人类疾病相关,包括阿尔茨海默病、类风湿性关节炎和系统性硬化症。对这些免疫调节蛋白进行药理调节可能会产生新的免疫疗法和佐剂。先前的一项研究报告了一项高通量筛选(=17952),发现了一种PLD3选择性激活剂和抑制剂以及一种非选择性抑制剂,但未能鉴定出PLD4的选择性调节剂。然而,对PLD4具有选择性的调节剂具有治疗意义,因为最近的报告表明,调节这种蛋白对癌症和自身免疫性疾病有直接影响。此外,与PLD3更广泛的表达相比,PLD4在树突状细胞和髓样细胞中的高表达为细胞靶向免疫治疗提供了机会。在此,我们描述了使用改进平台对一个扩展的多样性文库(=45760)进行筛选,并报告发现了一种对PLD4具有选择性的抑制剂和三种激活剂。此外,动力学建模和结构分析表明这些命中靶点在调节机制上存在差异。这些发现进一步确立了该筛选平台的实用性,并提供了一组化学支架,以指导针对这一新型免疫调节靶点的未来小分子开发。