Quorum regulated latent environmental cells of toxigenic Vibrio cholerae and their role in cholera outbreaks.

IF 4.3 3区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY Gut Pathogens Pub Date : 2024-09-29 DOI:10.1186/s13099-024-00647-3

Shah Nayeem Faruque, Shinji Yamasaki, Shah M Faruque

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Abstract

Background: Diverse bacterial group behaviors are controlled by quorum sensing, a regulatory network of bacterial gene expression based on cell density, and involving communication through chemical signal molecules called autoinducers. Multidisciplinary research in toxigenic Vibrio cholerae the etiologic agent of cholera, appear to suggest group behavior in the ecology, epidemiology, pathogenesis and transmission of the pathogen. This review summarizes latest advances and known aspects of quorum regulated environmental survival form of V. cholerae, and their role in cholera outbreaks, as well as the significance of this knowledge in tracking the pathogen for prevention of cholera.

Main body: Pathogenic V. cholerae naturally exists in aquatic reservoirs, and infects humans, often leading to epidemic outbreaks of cholera. Effective detection and monitoring of the pathogen in surface waters have been a research focus in preventing cholera outbreaks. However, in the aquatic reservoirs, V. cholerae persists mostly in a quiescent state referred to as viable but non-culturable (VBNC), or conditionally viable environmental cells (CVEC), which fail to grow in routine bacteriological culture. The presence of CVEC can, however, be observed by fluorescent antibody based microscopy, and they appear as clumps of cells embedded in an exopolysaccharide matrix. Current studies suggest that CVEC found in water are derived from in-vivo formed biofilms excreted by cholera patients. The transition to CVEC occurs when dilution of autoinducers in water blocks quorum-mediated regulatory responses that would normally disperse the cellular aggregates. Consequently, CVEC are resuscitated to actively growing cells if autoinducers are replenished, either in the laboratory, or naturally by other environmental bacteria or the intestinal microbiota when CVEC are ingested by humans or aquatic animals.

Conclusion: Quorum sensing plays a crucial role in the environmental persistence of toxigenic V. cholerae in a latent state, and their periodic emergence to cause cholera outbreaks. Furthermore, the autoinducer driven resuscitation of these cells may be a basis for improving the detection of V. cholerae in water samples, and monitoring V. cholerae in their aquatic reservoirs in cholera endemic areas.

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致毒霍乱弧菌的定量调节潜伏环境细胞及其在霍乱爆发中的作用。

背景：多种细菌的群体行为受法定人数感应控制，法定人数感应是一种基于细胞密度的细菌基因表达调控网络，涉及通过称为自动诱导剂的化学信号分子进行交流。对霍乱病原体霍乱弧菌的多学科研究似乎表明，群体行为与病原体的生态学、流行病学、致病机理和传播有关。这篇综述总结了霍乱弧菌定量调节环境生存形式的最新进展和已知方面，及其在霍乱爆发中的作用，以及这些知识在追踪病原体以预防霍乱方面的意义：主要内容：致病性霍乱弧菌自然存在于水生水库中，并感染人类，经常导致霍乱爆发流行。有效检测和监测地表水中的病原体一直是预防霍乱爆发的研究重点。然而，在水生水库中，霍乱弧菌大多以静止状态存在，称为有活力但不可培养（VBNC）或有条件有活力环境细胞（CVEC），在常规细菌培养中无法生长。不过，可以通过荧光抗体显微镜观察到 CVEC 的存在，它们表现为嵌入外多糖基质的细胞团块。目前的研究表明，水中的 CVEC 来自霍乱患者排出的体内形成的生物膜。当水中的自诱导物稀释时，会阻断通常会驱散细胞聚集体的法定量介导的调节反应，从而向 CVEC 过渡。因此，如果自诱导物得到补充，CVEC 就会恢复为生长活跃的细胞，这种自诱导物可以是在实验室中补充的，也可以是在人类或水生动物摄入 CVEC 后由其他环境细菌或肠道微生物群自然补充的：法定量感应在致毒霍乱弧菌潜伏于环境中并周期性出现导致霍乱爆发的过程中起着至关重要的作用。此外，由自身诱导因子驱动的这些细胞的复苏可能是改进水样中霍乱弧菌检测和监测霍乱流行地区水生水库中霍乱弧菌的基础。

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来源期刊

Gut Pathogens GASTROENTEROLOGY & HEPATOLOGY-MICROBIOLOGY

CiteScore

7.70

自引率

2.40%

发文量

期刊介绍： Gut Pathogens is a fast publishing, inclusive and prominent international journal which recognizes the need for a publishing platform uniquely tailored to reflect the full breadth of research in the biology and medicine of pathogens, commensals and functional microbiota of the gut. The journal publishes basic, clinical and cutting-edge research on all aspects of the above mentioned organisms including probiotic bacteria and yeasts and their products. The scope also covers the related ecology, molecular genetics, physiology and epidemiology of these microbes. The journal actively invites timely reports on the novel aspects of genomics, metagenomics, microbiota profiling and systems biology. Gut Pathogens will also consider, at the discretion of the editors, descriptive studies identifying a new genome sequence of a gut microbe or a series of related microbes (such as those obtained from new hosts, niches, settings, outbreaks and epidemics) and those obtained from single or multiple hosts at one or different time points (chronological evolution).