Siu Tony, Brubaker Jason, Fuller Peter, Torres Luis, Zeng Hongbo, Close Joshua, Mampreian Dawn M, Shi Feng, Liu Duan, Fradera Xavier, Johnson Kevin, Bays Nathan, Kadic Elma, He Fang, Goldenblatt Peter, Shaffer Lynsey, Patel Sangita B, Lesburg Charles A, Alpert Carla, Dorosh Lauren, Deshmukh Sujal V, Yu Hongshi, Klappenbach Joel, Elwood Fiona, Dinsmore Christopher J, Fernandez Rafael, Moy Lily, Young Jonathan R
Department of Medicinal Chemistry, ‡Department of Discovery Process Chemistry, §Department of Modeling & Informatics, ∥Department of In Vitro Pharmacology, ⊥Department of Structural Chemistry, #Department of Pharmacokinetics Pharmacodynamics and Drug Metabolism, ∇Department of Discovery Pharmaceutical Sciences, ○Department of Molecular Biomarkers, ¶Department of In Vivo Pharmacology, $Department of Respiratory and Immunology, Merck & Co., Inc. , 33 Avenue Louis Pasteur, Boston, Massachusetts 02115, United States.
Department of Chemistry and ◇Department of Biology, Pharmaron Beijing Co. Ltd , 6 Taihe Road BDA, Beijing 100176, P.R. China.
J Med Chem. 2017 Dec 14;60(23):9676-9690. doi: 10.1021/acs.jmedchem.7b01135. Epub 2017 Dec 4.
The discovery of a potent selective low dose Janus kinase 1 (JAK1) inhibitor suitable for clinical evaluation is described. As part of an overall goal to minimize dose, we pursued a medicinal chemistry strategy focused on optimization of key parameters that influence dose size, including lowering human Cl and increasing intrinsic potency, bioavailability, and solubility. To impact these multiple parameters simultaneously, we used lipophilic ligand efficiency as a key metric to track changes in the physicochemical properties of our analogs, which led to improvements in overall compound quality. In parallel, structural information guided advancements in JAK1 selectivity by informing on new vector space, which enabled the discovery of a unique key amino acid difference between JAK1 (Glu966) and JAK2 (Asp939). This difference was exploited to consistently produce analogs with the best balance of JAK1 selectivity, efficacy, and projected human dose, ultimately culminating in the discovery of compound 28.
本文描述了一种适用于临床评估的强效选择性低剂量 Janus 激酶 1(JAK1)抑制剂的发现过程。作为将剂量降至最低这一总体目标的一部分,我们采用了一种药物化学策略,重点优化影响剂量大小的关键参数,包括降低人体清除率(Cl)以及提高内在活性、生物利用度和溶解度。为了同时影响这些多个参数,我们使用亲脂性配体效率作为关键指标来跟踪类似物物理化学性质的变化,这使得化合物的整体质量得到了改善。与此同时,结构信息通过揭示新的向量空间来指导 JAK1 选择性方面的进展,从而发现了 JAK1(Glu966)和 JAK2(Asp939)之间一个独特的关键氨基酸差异。利用这一差异,我们始终能够得到在 JAK1 选择性、效力和预计人体剂量之间达到最佳平衡的类似物,最终发现了化合物 28。
