Leptospirosis: toward a better understanding of the environmental lifestyle of Leptospira

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-07-27 DOI:10.3389/frwa.2023.1195094
Grégoire Davignon, Julie Cagliero, L. Guentas, Emilie Bierque, P. Genthon, P. Gunkel-Grillon, F. Juillot, Malia Kainiu, C. Laporte-Magoni, M. Picardeau, Nazha Selmaoui-Folcher, Marie-Estelle Soupé-Gilbert, C. Tramier, Jessica Vilanova, K. Wijesuriya, Roman Thibeaux, C. Goarant
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Abstract

Leptospira is a complex bacterial genus which biodiversity has long been overlooked. In the recent years however, environmental studies have contributed to shed light on its original and current environmental habitat. Although very fragile bacteria in laboratories, Leptospira have been shown to successfully occupy a range of soil and freshwater habitats. Recent work has strongly suggested that biofilm formation, a multicellular lifestyle regulated by the second messenger c-di-GMP, might be one strategy developed to overcome the multiple challenges of environmental survival. Within the genus, a minority of pathogenic species have developed the ability to infect mammals and be responsible for leptospirosis. However, most of them have retained their environmental survival capacity, which is required to fulfill their epidemiological cycle. Indeed, susceptible hosts, such as human, suffer from various symptoms, while reservoir hosts stay asymptomatic and release bacteria in the environment. In this review, we discuss how c-di-GMP might be a central regulator allowing pathogenic Leptospira to fulfill this complex life cycle. We conclude by identifying knowledge gaps and propose some hypotheses that should be researched to gain a holistic vision of Leptospira biology.
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钩端螺旋体病:为了更好地了解钩端螺旋体的环境生活方式
钩端螺旋体是一种复杂的细菌属,其生物多样性长期被忽视。然而,近年来的环境研究有助于揭示其原始和现在的环境栖息地。虽然钩端螺旋体在实验室中非常脆弱,但已经证明它成功地占据了一系列土壤和淡水栖息地。最近的研究强烈表明,生物膜的形成是一种由第二信使c-di-GMP调节的多细胞生活方式,可能是克服环境生存的多重挑战的一种策略。在钩端螺旋体属中,少数致病性物种已发展出感染哺乳动物并导致钩端螺旋体病的能力。然而,它们中的大多数保留了环境生存能力,这是完成其流行病学周期所必需的。事实上,易感宿主,如人类,会出现各种症状,而宿主则保持无症状,并在环境中释放细菌。在这篇综述中,我们讨论了c-di-GMP可能是一个中心调节剂,允许致病性钩端螺旋体完成这个复杂的生命周期。最后,我们通过识别知识差距,并提出一些假设,应该研究,以获得钩端螺旋体生物学的整体视野。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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