化学
药代动力学
腺苷
免疫系统
分解代谢
药理学
细胞外
核苷
药效学
药品
酶
生物化学
免疫学
医学
作者
Kenneth V. Lawson,Jarosław Kalisiak,Erick A. Lindsey,Eric T. Newcomb,Manmohan R. Leleti,Laurent Debien,Brandon R. Rosen,Dillon H. Miles,Ehesan U. Sharif,Jenna L. Jeffrey,Joanne B.L. Tan,Ada Chen,Sharon Zhao,Guifen Xu,Lijuan Fu,Lixia Jin,Tim W. Park,W.K. Berry,Susanne Moschütz,Emma Rose Scaletti
标识
DOI:10.1021/acs.jmedchem.0c00525
摘要
Extracellular adenosine (ADO), present in high concentrations in the tumor microenvironment (TME), suppresses immune function via inhibition of T cell and NK cell activation. Intratumoral generation of ADO depends on the sequential catabolism of ATP by two ecto-nucleotidases, CD39 (ATP → AMP) and CD73 (AMP → ADO). Inhibition of CD73 eliminates a major pathway of ADO production in the TME and can reverse ADO-mediated immune suppression. Extensive interrogation of structure–activity relationships (SARs), structure-based drug design, and optimization of pharmacokinetic properties culminated in the discovery of AB680, a highly potent (Ki = 5 pM), reversible, and selective inhibitor of CD73. AB680 is further characterized by very low clearance and long half-lives across preclinical species, resulting in a PK profile suitable for long-acting parenteral administration. AB680 is currently being evaluated in phase 1 clinical trials. Initial data show AB680 is well tolerated and exhibits a pharmacokinetic profile suitable for biweekly (Q2W) iv-administration in human.
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