Wilders Harry, Biggs George, Rowe Sam M, Cawood Emma E, Riziotis Ioannis G, Rendina Alan R, Grant Emma K, Pettinger Jonathan, Fallon David J, Skehel Mark, House David, Tomkinson Nicholas C O, Bush Jacob T
Chemical Biology, GSK, Gunnels Wood Road, Stevenage, Hertfordshire, SG1 2NY, UK.
Crick-GSK Biomedical Linklabs, GSK, Gunnels Wood Road, Stevenage, Hertfordshire, SG1 2NY, UK.
Angew Chem Int Ed Engl. 2025 Feb 3;64(6):e202418314. doi: 10.1002/anie.202418314. Epub 2024 Dec 10.
Reactive fragment (RF) screening has emerged as an efficient method for ligand discovery across the proteome, irrespective of a target's perceived tractability. To date, however, the efficiency of subsequent optimisation campaigns has largely been low-throughput, constrained by the need for synthesis and purification of target compounds. We report an efficient platform for 'direct-to-biology' (D2B) screening of cysteine-targeting chloroacetamide RFs, wherein synthesis is performed in 384-well plates allowing direct assessment in downstream biological assays without purification. Here, the developed platform was used to optimise inhibitors of SARS-CoV-2 main protease (M), an established drug target for the treatment of COVID-19. An initial RF hit was developed into a series of potent inhibitors, and further exploration using D2B screening enabled a 'switch' to a reversible inhibitor series. This example of ligand discovery for M illustrates the acceleration that D2B chemistry can offer for optimising RFs towards covalent inhibitor candidates, as well as providing future impetus to explore the evolution of RFs into non-covalent ligands.
反应性片段(RF)筛选已成为一种在整个蛋白质组中发现配体的有效方法,无论目标的可处理性如何。然而,迄今为止,后续优化活动的效率在很大程度上一直是低通量的,受到目标化合物合成和纯化需求的限制。我们报告了一个用于对半胱氨酸靶向氯乙酰胺RFs进行“直接用于生物学”(D2B)筛选的高效平台,其中合成在384孔板中进行,无需纯化即可在下游生物学测定中进行直接评估。在此,所开发的平台用于优化严重急性呼吸综合征冠状病毒2(SARS-CoV-2)主要蛋白酶(M)的抑制剂,M是治疗2019冠状病毒病的既定药物靶点。最初的RF命中物被开发成一系列强效抑制剂,并且使用D2B筛选的进一步探索使得能够“切换”到可逆抑制剂系列。M的这种配体发现实例说明了D2B化学在将RFs优化为共价抑制剂候选物方面所能提供的加速作用,同时也为探索RFs向非共价配体的演变提供了未来的动力。
