Sphingosine kills Mycobacteria and suppresses mycobacterial lung infections.

IF 4.8 3区医学 Q1 GENETICS & HEREDITY

Journal of Molecular Medicine-Jmm Pub Date : 2025-03-28 DOI:10.1007/s00109-025-02534-z

Yuqing Wu, Fabian Schnitker, Yongjie Liu, Simone Keitsch, Federico Caicci, Fabian Schumacher, Andrea Riehle, Barbara Pollmeier, Jan Kehrmann, Burkhard Kleuser, Markus Kamler, Ildiko Szabo, Heike Grassmé, Erich Gulbins

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引用次数: 0

Abstract

Tuberculous mycobacterial infections pose a substantial global health burden because of their prevalence and multi-drug resistance. The current approach to tackling these infections primarily involves developing new antibiotics or combining existing ones, an approach that often proves ineffective in the specific targeting of mycobacteria. We investigated the effect of sphingosine on tuberculous Mycobacteria in vitro and mycobacterial infections in vivo to test whether sphingosine could potentially be used as a novel drug against tuberculosis. Sphingosine inhibited mycobacterial growth and eradicated mycobacteria in vitro. Mechanistically, sphingosine increased bacterial membrane permeability and induced marked changes on the bacterial plasma membrane evidenced by electron microscopy studies. Administration of sphingosine in a mouse model of pulmonary infection with Bacillus Calmette-Guérin (BCG) greatly reduced the number of bacteria in the lung and prevented pulmonary inflammation. Furthermore, infection of ex vivo human lung tissue samples with BCG and treatment with sphingosine showed that sphingosine also kills BCG in human bronchi. Our findings suggest that sphingosine may be a potential therapeutic intervention against mycobacterial infections. KEY MESSAGES: Sphingosine inhibits mycobacterial growth in vitro. Sphingosine disrupts bacterial membrane integrity. Sphingosine reduces bacterial load in mouse pulmonary infection model. Sphingosine eradicates mycobacteria in human bronchi ex vivo.

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鞘氨醇能杀死分枝杆菌，抑制分枝杆菌肺部感染。

结核分枝杆菌感染因其流行性和多重耐药性而对全球健康造成巨大负担。目前应对这些感染的方法主要是开发新的抗生素或将现有的抗生素进行组合，但这种方法往往不能有效地针对结核分枝杆菌。我们研究了鞘氨醇对体外结核分枝杆菌和体内分枝杆菌感染的影响，以检验鞘氨醇是否有可能被用作抗结核病的新型药物。鞘氨醇在体外可抑制分枝杆菌的生长并根除分枝杆菌。从机理上讲，鞘氨醇增加了细菌膜的通透性，并诱导细菌质膜发生明显变化，这在电子显微镜研究中得到了证实。在小鼠肺部感染卡介苗（BCG）的模型中施用鞘磷脂可大大减少肺部细菌的数量，防止肺部炎症。此外，用卡介苗感染体外人体肺组织样本并用鞘磷脂处理后发现，鞘磷脂也能杀死人体支气管中的卡介苗。我们的研究结果表明，鞘氨醇可能是一种潜在的霉菌感染治疗干预药物。关键信息：鞘氨醇能抑制分枝杆菌在体外的生长。鞘氨醇能破坏细菌膜的完整性。鞘氨醇可减少小鼠肺部感染模型中的细菌量。鞘氨醇能根除人体支气管中的分枝杆菌。

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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来源期刊

Journal of Molecular Medicine-Jmm 医学-医学：研究与实验

CiteScore

9.30

自引率

0.00%

发文量

100

审稿时长

1.3 months

期刊介绍： The Journal of Molecular Medicine publishes original research articles and review articles that range from basic findings in mechanisms of disease pathogenesis to therapy. The focus includes all human diseases, including but not limited to: Aging, angiogenesis, autoimmune diseases as well as other inflammatory diseases, cancer, cardiovascular diseases, development and differentiation, endocrinology, gastrointestinal diseases and hepatology, genetics and epigenetics, hematology, hypoxia research, immunology, infectious diseases, metabolic disorders, neuroscience of diseases, -omics based disease research, regenerative medicine, and stem cell research. Studies solely based on cell lines will not be considered. Studies that are based on model organisms will be considered as long as they are directly relevant to human disease.