基于苯磺酰胺的抑制剂对碳酸酐酶同工酶特异性的构效关系

Structure-Activity Relationships of Benzenesulfonamide-Based Inhibitors towards Carbonic Anhydrase Isoform Specificity.

作者信息

Bhatt Avni, Mahon Brian P, Cruzeiro Vinicius Wilian D, Cornelio Benedetta, Laronze-Cochard Marie, Ceruso Mariangela, Sapi Janos, Rance Graham A, Khlobystov Andrei N, Fontana Antonella, Roitberg Adrian, Supuran Claudiu T, McKenna Robert

机构信息

Department of, Biochemistry and Molecular Biology, College of Medicine, University of Florida, P. O. Box 100245, Gainesville, FL, 32610, USA.

Department of Chemistry, College of Liberal Arts and Sciences, University of Florida, P. O. Box 117200, Gainesville, FL postCode/>32610, USA.

出版信息

Chembiochem. 2017 Jan 17;18(2):213-222. doi: 10.1002/cbic.201600513. Epub 2016 Dec 22.

DOI:10.1002/cbic.201600513

PMID:27860128

Abstract

Carbonic anhydrases (CAs) are implicated in a wide range of diseases, including the upregulation of isoforms CA IX and XII in many aggressive cancers. However, effective inhibition of disease-implicated CAs should minimally affect the ubiquitously expressed isoforms, including CA I and II, to improve directed distribution of the inhibitors to the cancer-associated isoforms and reduce side effects. Four benzenesulfonamide-based inhibitors were synthesized by using the tail approach and displayed nanomolar affinities for several CA isoforms. The crystal structures of the inhibitors bound to a CA IX mimic and CA II are presented. Further in silico modeling was performed with the inhibitors docked into CA I and XII to identify residues that contributed to or hindered their binding interactions. These structural studies demonstrated that active-site residues lining the hydrophobic pocket, especially positions 92 and 131, dictate the positional binding and affinity of inhibitors, whereas the tail groups modulate CA isoform specificity. Geometry optimizations were performed on each ligand in the crystal structures and showed that the energetic penalties of the inhibitor conformations were negligible compared to the gains from active-site interactions. These studies further our understanding of obtaining isoform specificity when designing small molecule CA inhibitors.

摘要

碳酸酐酶（CAs）与多种疾病有关，包括许多侵袭性癌症中CA IX和XII亚型的上调。然而，对与疾病相关的CAs的有效抑制应最大限度地减少对普遍表达的亚型（包括CA I和II）的影响，以改善抑制剂向癌症相关亚型的定向分布并减少副作用。通过采用尾部方法合成了四种基于苯磺酰胺的抑制剂，它们对几种CA亚型表现出纳摩尔亲和力。本文展示了与CA IX模拟物和CA II结合的抑制剂的晶体结构。使用对接至CA I和XII的抑制剂进行了进一步的计算机模拟，以确定有助于或阻碍其结合相互作用的残基。这些结构研究表明，位于疏水口袋内的活性位点残基，尤其是92位和131位，决定了抑制剂的位置结合和亲和力，而尾部基团调节CA亚型特异性。对晶体结构中的每个配体进行了几何优化，结果表明，与活性位点相互作用所带来的收益相比，抑制剂构象的能量惩罚可以忽略不计。这些研究进一步加深了我们对设计小分子CA抑制剂时获得亚型特异性的理解。

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Structure-Activity Relationships of Benzenesulfonamide-Based Inhibitors towards Carbonic Anhydrase Isoform Specificity.基于苯磺酰胺的抑制剂对碳酸酐酶同工酶特异性的构效关系

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基于苯磺酰胺的抑制剂对碳酸酐酶同工酶特异性的构效关系

Structure-Activity Relationships of Benzenesulfonamide-Based Inhibitors towards Carbonic Anhydrase Isoform Specificity.

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