Haas Wolfgang, Shepard Brett D, Gilmore Michael S
Department of Microbiology and Immunology, University of Oklahoma Health Sciences Center, Oklahoma City 73104, USA.
Nature. 2002 Jan 3;415(6867):84-7. doi: 10.1038/415084a.
Bacteria of the genus Enterococcus are the main causes of highly antibiotic-resistant infections that are acquired in hospitals. Many clinical isolates of Enterococcus faecalis produce an exotoxin called cytolysin that contributes to bacterial virulence. In addition to its toxin activity, the cytolysin is bactericidal for nearly all Gram-positive organisms. An understanding of conditions that regulate cytolysin expression has advanced little since its initial description. Here we show that the products of two genes, cylR1 and cylR2, which lack homologues of known function, work together to repress transcription of cytolysin genes. Derepression occurs at a specific cell density when one of the cytolysin subunits reaches an extracellular threshold concentration. These observations form the basis of a model for the autoinduction of the cytolysin by a quorum-sensing mechanism involving a two-component regulatory system.
肠球菌属细菌是医院获得性高度耐药感染的主要原因。许多粪肠球菌临床分离株会产生一种名为细胞溶素的外毒素,这种毒素有助于细菌的毒力。除了其毒素活性外,细胞溶素对几乎所有革兰氏阳性菌都具有杀菌作用。自细胞溶素最初被描述以来,对调节其表达的条件的了解进展甚微。在此我们表明,两个基因cylR1和cylR2的产物(它们缺乏已知功能的同源物)共同作用来抑制细胞溶素基因的转录。当细胞溶素亚基之一达到细胞外阈值浓度时,在特定细胞密度下会发生去阻遏。这些观察结果构成了一个通过涉及双组分调节系统的群体感应机制自动诱导细胞溶素的模型的基础。