先天免疫系统
核酸
脱氧核酶
高通量筛选
化学
酶
生物化学
免疫系统
DNA
激活剂(遗传学)
受体
计算生物学
细胞生物学
生物
免疫学
作者
Ryan J. Shirey,Lewis D. Turner,Luke L. Lairson,Kim D. Janda
标识
DOI:10.1016/j.bmcl.2021.128293
摘要
PLD3 and PLD4 have recently been revealed to be endosomal exonucleases that regulate the innate immune response by digesting the ligands of nucleic acid sensors. These enzymes can suppress RNA and DNA innate immune sensors like toll-like receptor 9, and PLD4-deficent mice exhibit inflammatory disease. Targeting these immunoregulatory enzymes presents an opportunity to indirectly regulate innate immune nucleic acid sensors that could yield immunotherapies, adjuvants, and nucleic acid drug stabilizers. To aid in delineating the therapeutic potential of these targets, we have developed a high-throughput fluorescence enzymatic assay to identify modulators of PLD3 and PLD4. Screening of a diversity library (N = 17952) yielded preferential inhibitors of PLD3 and PLD4 in addition to a PLD3 selective activator. The modulation models of these compounds were delineated by kinetic analysis. This work presents an inexpensive and simple method to identify modulators of these immunoregulatory exonucleases.
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