How Clavulanic Acid Inhibits Serine β-Lactamases

IF 2.6 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

ChemBioChem Pub Date : 2024-07-25 DOI:10.1002/cbic.202400280

Pauline A. Lang, Mariska de Munnik, Abraham O. Oluwole, Timothy D. W. Claridge, Carol V. Robinson, Jürgen Brem, Christopher J. Schofield

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Abstract

Clavulanic acid is a medicinally important inhibitor of serine β-lactamases (SBLs). We report studies on the mechanisms by which clavulanic acid inhibits representative Ambler class A (TEM-116), C (Escherichia coli AmpC), and D (OXA-10) SBLs using denaturing and non-denaturing mass spectrometry (MS). Similarly to observations with penam sulfones, most of the results support a mechanism involving acyl enzyme complex formation, followed by oxazolidine ring opening without efficient subsequent scaffold fragmentation (at pH 7.5). This observation contrasts with previous MS studies, which identified clavulanic acid scaffold fragmented species as the predominant SBL bound products. In all the SBLs studied here, fragmentation was promoted by acidic conditions, which are commonly used in LC–MS analyses. Slow fragmentation was, however, observed under neutral conditions with TEM-116 on prolonged reaction with clavulanic acid. Although our results imply clavulanic acid scaffold fragmentation is likely not crucial for SBL inhibition in vivo, development of inhibitors that fragment to give stable covalent complexes is of interest.

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克拉维酸如何抑制丝氨酸 β-内酰胺酶？

克拉维酸是一种重要的丝氨酸β-内酰胺酶（SBLs）药用抑制剂。我们报告了利用变性和非变性质谱（MS）对克拉维酸抑制具有代表性的安布勒 A 类（TEM-116）、C 类（大肠杆菌 AmpC）和 D 类（OXA-10）SBLs 的机制进行的研究。与对五南砜的观察结果类似，大多数结果都支持一种涉及酰基酶复合物形成的机制，随后是恶唑烷开环，但随后的支架碎裂（pH 值为 7.5）并不有效。这一观察结果与之前的 MS 研究结果形成鲜明对比，之前的 MS 研究发现克拉维酸支架碎片是 SBL 的主要结合产物。在本文研究的所有 SBLs 中，酸性条件（通常用于 LC-MS 分析）都能促进碎裂。不过，在中性条件下，TEM-116 与克拉维酸长时间反应后，碎片的速度较慢。尽管我们的研究结果表明克拉维酸支架的破碎对体内 SBL 的抑制作用可能并不重要，但开发能破碎产生稳定共价复合物的抑制剂仍是令人感兴趣的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ChemBioChem 生物-生化与分子生物学

CiteScore

6.10

自引率

3.10%

发文量

407

审稿时长

1 months

期刊介绍： ChemBioChem (Impact Factor 2018: 2.641) publishes important breakthroughs across all areas at the interface of chemistry and biology, including the fields of chemical biology, bioorganic chemistry, bioinorganic chemistry, synthetic biology, biocatalysis, bionanotechnology, and biomaterials. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies, and supported by the Asian Chemical Editorial Society (ACES).