Cephalosporin resistance, tolerance, and approaches to improve their activities

Alison H. Araten, Rachel S. Brooks, Sarah D. W. Choi, Laura L. Esguerra, Diana Savchyn, Emily J. Wu, Gabrielle Leon, Katherine J. Sniezek, Mark P. Brynildsen
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Abstract

Cephalosporins comprise a β-lactam antibiotic class whose first members were discovered in 1945 from the fungus Cephalosporium acremonium. Their clinical use for Gram-negative bacterial infections is widespread due to their ability to traverse outer membranes through porins to gain access to the periplasm and disrupt peptidoglycan synthesis. More recent members of the cephalosporin class are administered as last resort treatments for complicated urinary tract infections, MRSA, and other multi-drug resistant pathogens, such as Neisseria gonorrhoeae. Unfortunately, there has been a global increase in cephalosporin-resistant strains, heteroresistance to this drug class has been a topic of increasing concern, and tolerance and persistence are recognized as potential causes of cephalosporin treatment failure. In this review, we summarize the cephalosporin antibiotic class from discovery to their mechanisms of action, and discuss the causes of cephalosporin treatment failure, which include resistance, tolerance, and phenomena when those qualities are exhibited by only small subpopulations of bacterial cultures (heteroresistance and persistence). Further, we discuss how recent efforts with cephalosporin conjugates and combination treatments aim to reinvigorate this antibiotic class.

Abstract Image

头孢菌素的耐药性、耐受性和改善其活性的方法
头孢菌素属于β-内酰胺类抗生素,其第一批成员于1945年从真菌头孢菌素中发现。由于头孢菌素能通过孔隙穿过外膜进入外质,破坏肽聚糖的合成,因此临床上广泛用于革兰氏阴性细菌感染。头孢菌素类的最新成员被用作治疗复杂性尿路感染、MRSA 和其他耐多药病原体(如淋病奈瑟菌)的最后手段。不幸的是,头孢菌素耐药菌株在全球范围内呈上升趋势,该类药物的异质性耐药性已成为一个日益受到关注的话题,耐受性和持久性被认为是头孢菌素治疗失败的潜在原因。在这篇综述中,我们总结了头孢菌素类抗生素从发现到作用机制的整个过程,并讨论了头孢菌素治疗失败的原因,其中包括耐药性、耐受性以及仅有小部分细菌培养物表现出这些特性的现象(异质性耐药性和持久性)。此外,我们还讨论了最近在头孢菌素共轭物和联合治疗方面所做的努力,这些努力旨在为这一类抗生素注入新的活力。
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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