伤寒沙门氏菌SPI-2注射液异构体之谜。

IF 2.6 4区生物学 Q3 MICROBIOLOGY

Microbiology-Sgm Pub Date : 2023-10-01 DOI:10.1099/mic.0.001405

Teresa L M Thurston, David W Holden

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引用次数: 0

摘要

沙门氏菌致病性岛2（SPI-2）编码的III型分泌系统（注射异构体）是在细菌进入哺乳动物细胞液泡后组装的。注射异构体将毒力蛋白（效应子）转运到受感染的细胞中。许多研究已经确定了鼠伤寒沙门氏菌在小鼠巨噬细胞中生长需要功能性SPI-2注射异构体，但涉及伤寒沙门氏杆菌和人源性巨噬细胞的类似研究结果并不一致。阐明伤寒沙门氏菌SPI-2注射异构体的功能很重要，尤其是因为灭活的SPI-2注射体构成了经过广泛人体试验的伤寒减毒活疫苗的基础。在伤寒杆菌/人巨噬细胞模型中，注射异构酶基因的细胞内表达和效应物递送比鼠伤寒杆菌需要更长的时间，我们认为这可以解释相互矛盾的结果。此外，鼠伤寒杆菌和伤寒杆菌的菌株都含有几个“核心”效应子的完整基因。在鼠伤寒沙门氏菌中，这些物质协同调节液泡膜并促进细胞内细菌复制；因此，伤寒杆菌可能具有类似的功能。

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The Salmonella Typhi SPI-2 injectisome enigma.

The Salmonella pathogenicity island 2 (SPI-2)-encoded type III secretion system (injectisome) is assembled following uptake of bacteria into vacuoles in mammalian cells. The injectisome translocates virulence proteins (effectors) into infected cells. Numerous studies have established the requirement for a functional SPI-2 injectisome for growth of Salmonella Typhimurium in mouse macrophages, but the results of similar studies involving Salmonella Typhi and human-derived macrophages are not consistent. It is important to clarify the functions of the S. Typhi SPI-2 injectisome, not least because an inactivated SPI-2 injectisome forms the basis for live attenuated S. Typhi vaccines that have undergone extensive trials in humans. Intracellular expression of injectisome genes and effector delivery take longer in the S. Typhi/human macrophage model than for S. Typhimurium and we propose that this could explain the conflicting results. Furthermore, strains of both S. Typhimurium and S. Typhi contain intact genes for several 'core' effectors. In S. Typhimurium these cooperate to regulate the vacuole membrane and contribute to intracellular bacterial replication; similar functions are therefore likely in S. Typhi.

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来源期刊

Microbiology-Sgm 生物-微生物学

CiteScore

4.60

自引率

7.10%

发文量

132

审稿时长

3.0 months

期刊介绍： We publish high-quality original research on bacteria, fungi, protists, archaea, algae, parasites and other microscopic life forms. Topics include but are not limited to: Antimicrobials and antimicrobial resistance Bacteriology and parasitology Biochemistry and biophysics Biofilms and biological systems Biotechnology and bioremediation Cell biology and signalling Chemical biology Cross-disciplinary work Ecology and environmental microbiology Food microbiology Genetics Host–microbe interactions Microbial methods and techniques Microscopy and imaging Omics, including genomics, proteomics and metabolomics Physiology and metabolism Systems biology and synthetic biology The microbiome.