Structure-Function Analysis of Streptomyces griseolus CYP105A1 in the Metabolism of Nonsteroidal Anti-inflammatory Drugs.

IF 2.9 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochemistry Biochemistry Pub Date : 2025-01-21 Epub Date: 2025-01-03 DOI:10.1021/acs.biochem.4c00652

Teisuke Takita, Moeka Wada, Masaya Yamagata, Seiei Kamata, Kimihiko Mizutani, Yuya Yogo, Masahiro Hamada, Kaori Yasuda, Bunzo Mikami, Toshiyuki Sakaki, Kiyoshi Yasukawa

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Abstract

Streptomyces griseolus CYP105A1 exhibits monooxygenase activity to a wide variety of structurally different substrates with regio- and stereospecificity, making its application range broad. Our previous studies have shown that CYP105A1 wild type and its variants metabolize 12 types of nonsteroidal anti-inflammatory drugs (NSAIDs). In particular, the R84A variant exhibited a high activity against many NSAIDs. We successfully crystallized complexes of wild-type CYP105A1 (WT) and the R84A variant with diclofenac (DIF) or flufenamic acid (FLF). In the WT, the carboxyl group of DIF formed a charged hydrogen bond with Arg84. In contrast, in R84A, the carboxyl group formed two bidentate charged hydrogen bonds with Arg73. The C4' atom of the benzene ring of DIF, which undergoes hydroxylation by WT and R84A, was positioned approximately 4 Å from the heme iron. Binding of FLF was nearly the same in both WT and R84A. The carboxyl group of FLF formed charged hydrogen bonds with Arg73. In both WT and R84A, FLF appeared to be fixed by this charged hydrogen bonding with Arg73 during the reaction, and the C4' atom, which undergoes hydroxylation, must face the heme iron. Thus, the dihedral angles of the two N-C bonds connecting the two benzene rings of FLF needed to rotate by 78° and -71°, respectively. The temperature factors of the F-G loop, helix F, and helix G of R84A were remarkably higher than those of WT. This suggests that these regions in R84A are much more flexible compared to those of WT, which may consequently affect substrate binding and product release.

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灰色链霉菌CYP105A1在非甾体抗炎药代谢中的结构-功能分析。

灰灰链霉菌CYP105A1对多种结构不同的底物表现出单加氧酶活性，具有区域特异性和立体特异性，应用范围广泛。我们之前的研究表明CYP105A1野生型及其变体代谢12种非甾体抗炎药（NSAIDs）。特别是，R84A变体对许多非甾体抗炎药表现出很高的活性。我们成功地结晶了野生型CYP105A1 （WT）和R84A变体与双氯芬酸（DIF）或氟芬酸（FLF）的复合物。在WT中，DIF的羧基与Arg84形成带电氢键。而在R84A中，羧基与Arg73形成了两个双齿带电荷的氢键。DIF苯环的C4'原子被WT和R84A羟基化，位于距离血红素铁约4 Å的位置。在WT和R84A中FLF的结合几乎相同。FLF的羧基与Arg73形成带电氢键。在WT和R84A中，FLF似乎在反应过程中通过与Arg73的带电氢键固定，并且经历羟基化的C4'原子必须面对血红素铁。因此，连接FLF两个苯环的两个N-C键的二面角需要分别旋转78°和-71°。R84A的F-G环、螺旋F和螺旋G的温度因子明显高于WT，这表明R84A的这些区域比WT更灵活，从而可能影响底物结合和产物释放。

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来源期刊

Biochemistry Biochemistry 生物-生化与分子生物学

CiteScore

5.50

自引率

3.40%

发文量

336

审稿时长

1-2 weeks

期刊介绍： Biochemistry provides an international forum for publishing exceptional, rigorous, high-impact research across all of biological chemistry. This broad scope includes studies on the chemical, physical, mechanistic, and/or structural basis of biological or cell function, and encompasses the fields of chemical biology, synthetic biology, disease biology, cell biology, nucleic acid biology, neuroscience, structural biology, and biophysics. In addition to traditional Research Articles, Biochemistry also publishes Communications, Viewpoints, and Perspectives, as well as From the Bench articles that report new methods of particular interest to the biological chemistry community.