Abstract 295: Implementing fully automated kinase inhibitor characterization using a robotic system

D. Thomas, Tom A. Fleming, M. Bittner
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Abstract

About 50 kinase inhibitors have been approved by the FDA for different indications so far. On the way from target validation to approval, the biochemical characterisation of a novel kinase inhibitor is a challenging, yet absolutely critical task. High resolution, kinetic molecular profiling can enable better data-driven decision making early on in the drug discovery process, not only saving time and resources, but also leading to superior molecular design. Arctoris developed a robotics-enabled process for fully automated kinase inhibitor characterisation, providing an unparalleled depth of data capture, going beyond the current state-of-the-art of biochemical assay setup. We validated our technology platform establishing assays against four members of the Janus Kinase family (JAK1, JAK2, JAK3, TYK2), profiling a set of JAK inhibitors. Of note, several JAK inhibitors with prior FDA approval for other indications entered clinical trials for COVID-19 treatment, making this target class particularly relevant for an in-depth study. Reagent validation, assay development, calibration, and optimization were expedited through systematic multifactorial experimental design, high density assay plate formats and versatile automated liquid handling. The Arctoris Ulysses platform affords 9 orders of magnitude range in liquid volume handling, with picolitre precision and contact-free digital dispensing for true, non-serial, independent experimentation. Fully automated protocols were optimized, validated, versioned, and explicitly encoded. Robust potency measurements of all inhibitors were established against each of the JAK targets, revealing molecules with distinct isoform selectivity. Designing and selecting molecules with specific activity profiles enables the fine tuning of pharmacology and the avoidance of unwanted off-target toxicity. Our unique platform, assay design, and deep expertise enabled the identification of molecules within the JAK inhibitor set that exhibit a range of kinetic properties. Our mechanistic analyses can help to elucidate the mode of inhibition (competitive, allosteric, synergistic etc.) as well as provide information pertaining to the kinetic selectivity that may be present but missed by focusing solely on potency.
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摘要295:利用机器人系统实现全自动激酶抑制剂表征
到目前为止,FDA已经批准了大约50种激酶抑制剂用于不同的适应症。在从靶标验证到批准的过程中,一种新型激酶抑制剂的生化表征是一项具有挑战性但绝对关键的任务。高分辨率、动态分子分析可以在药物发现过程的早期实现更好的数据驱动决策,不仅节省了时间和资源,而且还带来了卓越的分子设计。Arctoris开发了一种机器人驱动的过程,用于全自动激酶抑制剂表征,提供无与伦比的数据捕获深度,超越了目前最先进的生化分析设置。我们验证了我们的技术平台,建立了针对Janus激酶家族的四个成员(JAK1, JAK2, JAK3, TYK2)的检测,分析了一组JAK抑制剂。值得注意的是,一些事先获得FDA批准用于其他适应症的JAK抑制剂已进入COVID-19治疗的临床试验,这使得这类靶标与深入研究特别相关。通过系统的多因子实验设计、高密度分析板格式和多功能自动化液体处理,加快了试剂验证、分析开发、校准和优化。Arctoris Ulysses平台提供9个数量级的液体体积处理范围,具有皮升精度和无接触数字点胶,可进行真正的,非串行的,独立的实验。完全自动化的协议得到了优化、验证、版本化和显式编码。针对每个JAK靶标建立了所有抑制剂的强大效价测量,揭示了具有不同同种异构体选择性的分子。设计和选择具有特定活性谱的分子可以对药理学进行微调,并避免不必要的脱靶毒性。我们独特的平台、分析设计和深厚的专业知识能够鉴定出JAK抑制剂组中具有一系列动力学性质的分子。我们的机制分析有助于阐明抑制模式(竞争、变构、协同等),并提供与动力学选择性相关的信息,这些信息可能存在,但仅关注效力而忽略了。
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