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蛋白质精氨酸脱亚氨酶2选择性抑制剂的研发

Development of a Selective Inhibitor of Protein Arginine Deiminase 2.

作者信息

Muth Aaron, Subramanian Venkataraman, Beaumont Edward, Nagar Mitesh, Kerry Philip, McEwan Paul, Srinath Hema, Clancy Kathleen, Parelkar Sangram, Thompson Paul R

机构信息

Department of Biochemistry and Molecular Pharmacology, University of Massachusetts Medical School , 364 Plantation Street, Worcester, Massachusetts 01605, United States.

Department of Pharmaceutical Sciences, College of Pharmacy and Health Sciences, St. John's University , Queens, New York 11439, United States.

出版信息

J Med Chem. 2017 Apr 13;60(7):3198-3211. doi: 10.1021/acs.jmedchem.7b00274. Epub 2017 Mar 31.

DOI:10.1021/acs.jmedchem.7b00274
PMID:28328217
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5477668/
Abstract

Protein arginine deiminase 2 (PAD2) plays a key role in the onset and progression of multiple sclerosis, rheumatoid arthritis, and breast cancer. To date, no PAD2-selective inhibitor has been developed. Such a compound will be critical for elucidating the biological roles of this isozyme and may ultimately be useful for treating specific diseases in which PAD2 activity is dysregulated. To achieve this goal, we synthesized a series of benzimidazole-based derivatives of Cl-amidine, hypothesizing that this scaffold would allow access to a series of PAD2-selective inhibitors with enhanced cellular efficacy. Herein, we demonstrate that substitutions at both the N-terminus and C-terminus of Cl-amidine result in >100-fold increases in PAD2 potency and selectivity (30a, 41a, and 49a) as well as cellular efficacy (30a). Notably, these compounds use the far less reactive fluoroacetamidine warhead. In total, we predict that 30a will be a critical tool for understanding cellular PAD2 function and sets the stage for treating diseases in which PAD2 activity is dysregulated.

摘要

蛋白质精氨酸脱亚氨酶2(PAD2)在多发性硬化症、类风湿性关节炎和乳腺癌的发病及进展过程中起着关键作用。迄今为止,尚未开发出PAD2选择性抑制剂。这样一种化合物对于阐明这种同工酶的生物学作用至关重要,并且最终可能有助于治疗PAD2活性失调的特定疾病。为实现这一目标,我们合成了一系列基于苯并咪唑的胍脒衍生物,推测该骨架将有助于获得一系列具有增强细胞效能的PAD2选择性抑制剂。在此,我们证明胍脒N端和C端的取代导致PAD2效力和选择性(30a、41a和49a)以及细胞效能(30a)提高100倍以上。值得注意的是,这些化合物使用的是反应性低得多的氟代脒弹头。总体而言,我们预计30a将成为理解细胞PAD2功能的关键工具,并为治疗PAD2活性失调的疾病奠定基础。

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