环状核苷酸在细菌抗菌性和耐受性中的作用。

IF 14 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Trends in Microbiology Pub Date : 2024-09-05 DOI:10.1016/j.tim.2024.08.006

Yi Liu, Claudia Blanco-Toral, Gerald Larrouy-Maumus

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引用次数: 0

摘要

核苷酸信号分子--主要是环状 3',5'-腺苷磷酸（cAMP）、双（3',5'）-环状单磷酸二鸟苷（c-di-GMP）和双（3',5'）-环状单磷酸二腺苷（c-di-AMP）--有助于调节细胞通路。最近的许多研究都集中在这些环状核苷酸磷酸盐（cNPs）参与细菌对抗菌治疗的耐药性和耐受性方面。事实上，抗菌药耐药性（AMR）的上升对人类健康构成了日益严重的全球性威胁，而抗菌药耐药性的上升则是 AMR 和长期感染发展的基础，给这一问题带来了额外的负担。在此，我们总结了目前对细菌生理学中 cNP 信号的理解，重点是我们对 cNP 信号如何影响不同细菌物种的 AMR 和抗菌耐受性的理解。我们还讨论了细菌病原体中可能具有治疗潜力的其他 cNP 相关药物靶点。

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The role of cyclic nucleotides in bacterial antimicrobial resistance and tolerance.

Nucleotide signalling molecules - mainly cyclic 3',5'-adenosine phosphate (cAMP), bis-(3',5')-cyclic diguanosine monophosphate (c-di-GMP), and bis-(3',5')-cyclic diadenosine monophosphate (c-di-AMP) - contribute to the regulation of cellular pathways. Numerous recent works have focused on the involvement of these cyclic nucleotide phosphates (cNPs) in bacterial resistance and tolerance to antimicrobial treatment. Indeed, the rise of antimicrobial resistance (AMR) is a rising global threat to human health, while the rise of antimicrobial tolerance underlies the development of AMR and long-term infections, placing an additional burden on this problem. Here, we summarise the current understanding of cNP signalling in bacterial physiology with a focus on our understanding of how cNP signalling affects AMR and antimicrobial tolerance in different bacterial species. We also discuss additional cNP-related drug targets in bacterial pathogens that may have therapeutic potential.

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来源期刊

Trends in Microbiology 生物-生化与分子生物学

CiteScore

25.30

自引率

0.60%

发文量

193

审稿时长

6-12 weeks

期刊介绍： Trends in Microbiology serves as a comprehensive, multidisciplinary forum for discussing various aspects of microbiology, spanning cell biology, immunology, genetics, evolution, virology, bacteriology, protozoology, and mycology. In the rapidly evolving field of microbiology, technological advancements, especially in genome sequencing, impact prokaryote biology from pathogens to extremophiles, influencing developments in drugs, vaccines, and industrial enzyme research.