2-氨基-3-氰基吡啶衍生物的合成及其碳酸酐酶抑制作用的研究。

Synthesis of 2-amino-3-cyanopyridine derivatives and investigation of their carbonic anhydrase inhibition effects.

作者信息

Altundas Aliye, Gül Berna, Çankaya Murat, Atasever Ali, Gülçin İlhami

机构信息

Department of Chemistry, Faculty of Science and Arts, Gazi University, Ankara, 06500, Turkey.

Department of Biology, Faculty of Science and Arts, Erzincan University, Erzincan, 24100, Turkey.

出版信息

J Biochem Mol Toxicol. 2017 Dec;31(12). doi: 10.1002/jbt.21998. Epub 2017 Sep 13.

DOI:10.1002/jbt.21998

PMID:28902455

Abstract

The conversion of carbon dioxide (CO ) and bicarbonate (HCO ) to each other is very important for living metabolism. Carbonic anhydrase (CA, E.C.4.2.1.1), a metalloenzyme familly, catalyzes the interconversion of these ions (CO and HCO ) and are very common in living organisms. In this study, a series of novel 2-amino-3-cyanopyridines supported with some functional groups was synthesized and tested as potential inhibition effects against both cytosolic human CA I and II isoenzymes (hCA I and II) using by Sepharose-4B-l-tyrosine-sulfanilamide affinity chromatography. The structural elucidations of novel 2-amino-3-cyanopyridines were achieved by NMR, IR, and elemental analyses. K values of the novel synthesized compounds were found in range of 2.84-112.44 μM against hCA I and 2.56-31.17 μM against hCA II isoenzyme. While compound 7d showed the best inhibition activity against hCA I (K : 2.84 μM), the compound 7b demonstrated the best inhibition profile against hCA II isoenzyme (K : 2.56 μM).

摘要

二氧化碳（CO₂）与碳酸氢根（HCO₃⁻）之间的相互转化对生命代谢非常重要。碳酸酐酶（CA，E.C.4.2.1.1）是一类金属酶，催化这些离子（CO₂和HCO₃⁻）的相互转化，在生物体内非常普遍。在本研究中，合成了一系列带有某些官能团的新型2-氨基-3-氰基吡啶，并使用琼脂糖-4B-L-酪氨酸-磺胺亲和色谱法测试了它们对胞质人CA I和II同工酶（hCA I和II）的潜在抑制作用。通过核磁共振（NMR）、红外光谱（IR）和元素分析对新型2-氨基-3-氰基吡啶进行了结构解析。发现新型合成化合物对hCA I的K值在2.84 - 112.44 μM范围内，对hCA II同工酶的K值在2.56 - 31.17 μM范围内。化合物7d对hCA I表现出最佳抑制活性（K：2.84 μM），而化合物7b对hCA II同工酶表现出最佳抑制效果（K：2.56 μM）。

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2-氨基-3-氰基吡啶衍生物的合成及其碳酸酐酶抑制作用的研究。

Synthesis of 2-amino-3-cyanopyridine derivatives and investigation of their carbonic anhydrase inhibition effects.

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