Servicio de Microbiología-INIBIC, Complejo Hospitalario Universitario A Coruña, La Coruña, Spain.
Antimicrob Agents Chemother. 2011 Sep;55(9):4361-8. doi: 10.1128/AAC.00298-11. Epub 2011 Jul 5.
The CTX-M β-lactamases are an increasingly prevalent group of extended-spectrum β-lactamases (ESBL). Point mutations in CTX-M β-lactamases are considered critical for enhanced hydrolysis of cefotaxime. In order to clarify the structural determinants of the activity against cefotaxime in CTX-M β-lactamases, screening for random mutations was carried out to search for decreased activity against cefotaxime, with the CTX-M-1 gene as a model. Thirteen single mutants with a considerable reduction in cefotaxime MICs were selected for biochemical and stability studies. The 13 mutated genes of the CTX-M-1 β-lactamase were expressed, and the proteins were purified for kinetic studies against cephalothin and cefotaxime (as the main antibiotics). Some of the positions, such as Val103Asp, Asn104Asp, Asn106Lys, and Pro107Ser, are located in the (103)VNYN(106) loop, which had been described as important in cefotaxime hydrolysis, although this has not been experimentally confirmed. There are four mutations located close to catalytic residues-Thr71Ile, Met135Ile, Arg164His, and Asn244Asp-that may affect the positioning of these residues. We show here that some distant mutations, such as Ala219Val, are critical for cefotaxime hydrolysis and highlight the role of this loop at the top of the active site. Other distant substitutions, such as Val80Ala, Arg191, Ala247Ser, and Val260Leu, are in hydrophobic cores and may affect the dynamics and flexibility of the enzyme. We describe here, in conclusion, new residues involved in cefotaxime hydrolysis in CTX-M β-lactamases, five of which are in positions distant from the catalytic center.
CTX-Mβ-内酰胺酶是一组日益流行的扩展谱β-内酰胺酶(ESBL)。CTX-Mβ-内酰胺酶中的点突变被认为对头孢噻肟的水解增强至关重要。为了阐明 CTX-Mβ-内酰胺酶对头孢噻肟水解活性的结构决定因素,进行了随机突变筛选,以寻找对头孢噻肟活性降低的突变,CTX-M-1 基因作为模型。选择了 13 个头孢噻肟 MIC 值显著降低的单突变体进行生化和稳定性研究。表达了 CTX-M-1β-内酰胺酶的 13 个突变基因,并对头孢噻肟和头孢噻肟(作为主要抗生素)的动力学研究进行了蛋白纯化。一些位置,如 Val103Asp、Asn104Asp、Asn106Lys 和 Pro107Ser,位于(103)VNYN(106)环中,该环已被描述为头孢噻肟水解的重要位置,尽管这尚未得到实验证实。有四个突变位置靠近催化残基-Thr71Ile、Met135Ile、Arg164His 和 Asn244Asp-可能会影响这些残基的定位。我们在这里表明,一些远位突变,如 Ala219Val,对头孢噻肟水解至关重要,并突出了该环在活性位点顶部的作用。其他远位取代,如 Val80Ala、Arg191、Ala247Ser 和 Val260Leu,位于疏水区,可能会影响酶的动力学和灵活性。我们在这里描述了 CTX-Mβ-内酰胺酶中涉及头孢噻肟水解的新残基,其中 5 个残基位于远离催化中心的位置。