Affinity of β-Lactam Antibiotics for Neisseria gonorrhoeae Penicillin-Binding Protein 2 Having Wild, Cefixime-Reduced-Susceptible, and Cephalosporin (Ceftriaxone)-Resistant penA Alleles.

IF 2.3 4区 医学 Q3 INFECTIOUS DISEASES Microbial drug resistance Pub Date : 2024-03-01 Epub Date: 2024-01-12 DOI:10.1089/mdr.2023.0256
Yoshiki Hiyama, Soh Yamamoto, Toyotaka Sato, Noriko Ogasawara, Naoya Masumori, Satoshi Takahashi, Shin-Ichi Yokota
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Abstract

Multidrug-resistant Neisseria gonorrhoeae is a serious concern worldwide. Resistance to β-lactam antibiotics occurs through mutations in penicillin-binding proteins (PBPs), acquisition of β-lactamases, and alteration of antibiotic penetration. Mosaic structures of penA, which encodes PBP2, play a major role in resistance to β-lactams, especially cephalosporins. Ceftriaxone (CRO) is recognized as the only satisfiable antibiotic for the treatment of gonococcal infections; however, CRO-resistant isolates have emerged in the community. Here, we examined the affinity of β-lactam antibiotics for recombinant PBP2 in a competition assay using fluorescence-labeled penicillin. We found no or little difference in the affinities of penicillins and meropenem (MEM) for PBP2 from cefixime (CFM)-reduced-susceptible strain and cephalosporin-resistant strain. However, the affinity of cephalosporins, including CRO, for PBP2 from the cephalosporin-resistant strain was markedly lower than that for PBP2 from the CFM-reduced-susceptible-resistant strain. Notably, piperacillin (PIP) showed almost the same affinity for PBP2 from penicillin-susceptible, CFM-reduced-susceptible, and cephalosporin (including CRO)-resistant strains. Thus, PIP/tazobactam and MEM are candidate antibiotics for the treatment of CRO-resistant/multidrug-resistant N. gonorrhoeae.

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具有野生、头孢克肟还原型易感和头孢菌素(头孢曲松)耐药 penA 等位基因的淋病奈瑟菌青霉素结合蛋白 2 对 β-内酰胺类抗生素的亲和力。
对多种药物产生耐药性的淋病奈瑟菌是全球严重关切的问题。对β-内酰胺类抗生素的耐药性是通过青霉素结合蛋白(PBPs)的突变、β-内酰胺酶的获得以及抗生素渗透性的改变产生的。编码 PBP2 的 penA 的镶嵌结构在对β-内酰胺类(尤其是头孢菌素)产生耐药性方面起着重要作用。头孢曲松(CRO)被认为是治疗淋球菌感染唯一令人满意的抗生素;然而,社区中出现了对头孢曲松耐药的分离株。在此,我们使用荧光标记的青霉素在竞争试验中检测了β-内酰胺类抗生素对重组 PBP2 的亲和力。我们发现,青霉素类和美罗培南(MEM)对头孢克肟(CFM)减毒株和头孢菌素耐药株的 PBP2 的亲和力没有或几乎没有差异。然而,头孢菌素类(包括 CRO)对头孢菌素耐药菌株 PBP2 的亲和力明显低于对 CFM 降敏耐药菌株 PBP2 的亲和力。值得注意的是,哌拉西林(PIP)对青霉素耐药菌株、CFM 还原型耐药菌株和头孢菌素(包括 CRO)耐药菌株的 PBP2 的亲和力几乎相同。因此,PIP/他唑巴坦和 MEM 是治疗耐 CRO/耐多药淋球菌的候选抗生素。
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来源期刊
Microbial drug resistance
Microbial drug resistance 医学-传染病学
CiteScore
6.00
自引率
3.80%
发文量
118
审稿时长
6-12 weeks
期刊介绍: Microbial Drug Resistance (MDR) is an international, peer-reviewed journal that covers the global spread and threat of multi-drug resistant clones of major pathogens that are widely documented in hospitals and the scientific community. The Journal addresses the serious challenges of trying to decipher the molecular mechanisms of drug resistance. MDR provides a multidisciplinary forum for peer-reviewed original publications as well as topical reviews and special reports. MDR coverage includes: Molecular biology of resistance mechanisms Virulence genes and disease Molecular epidemiology Drug design Infection control.
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