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渗透压摩尔浓度,一种控制钩端螺旋体蛋白LigA和LigB表达以及LigA细胞外释放的关键环境信号。

Osmolarity, a key environmental signal controlling expression of leptospiral proteins LigA and LigB and the extracellular release of LigA.

作者信息

Matsunaga James, Sanchez Yolanda, Xu Xiaoyi, Haake David A

机构信息

VA Greater Los Angeles Healthcare System, B113/R225, Los Angeles, CA 90073, USA.

出版信息

Infect Immun. 2005 Jan;73(1):70-8. doi: 10.1128/IAI.73.1.70-78.2005.

DOI:10.1128/IAI.73.1.70-78.2005
PMID:15618142
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC538979/
Abstract

The high-molecular-weight leptospiral immunoglobulin-like repeat (Lig) proteins are expressed only by virulent low-passage forms of pathogenic Leptospira species. We examined the effects of growth phase and environmental signals on the expression, surface exposure, and extracellular release of LigA and LigB. LigA was lost from stationary-phase cells, while LigB expression was maintained. The loss of cell-associated LigA correlated with selective release of a lower-molecular-weight form of LigA into the culture supernatant, while LigB and the outer membrane lipoprotein LipL41 remained associated with cells. Addition of tissue culture medium to leptospiral culture medium induced LigA and LigB expression and caused a substantial increase in released LigA. The sodium chloride component of tissue culture medium was primarily responsible for the enhanced release of LigA. Addition of sodium chloride, potassium chloride, or sodium sulfate to leptospiral medium to physiological osmolarity caused the induction of both cell-associated LigA and LigB, indicating that osmolarity regulates the expression of Lig proteins. Osmotic induction of Lig expression also resulted in enhanced release of LigA and increased surface exposure of LigB, as determined by surface immunofluorescence. Osmolarity appears to be a key environmental signal that controls the expression of LigA and LigB.

摘要

高分子量钩端螺旋体免疫球蛋白样重复序列(Lig)蛋白仅由致病性钩端螺旋体的强毒株低传代形式表达。我们研究了生长阶段和环境信号对LigA和LigB的表达、表面暴露及细胞外释放的影响。LigA在稳定期细胞中消失,而LigB的表达得以维持。细胞相关LigA的丢失与一种较低分子量形式的LigA选择性释放到培养上清液中相关,而LigB和外膜脂蛋白LipL41仍与细胞相关。向钩端螺旋体培养基中添加组织培养基可诱导LigA和LigB的表达,并导致释放的LigA大幅增加。组织培养基中的氯化钠成分是LigA释放增强的主要原因。向钩端螺旋体培养基中添加氯化钠、氯化钾或硫酸钠至生理渗透压可诱导细胞相关的LigA和LigB,表明渗透压调节Lig蛋白的表达。通过表面免疫荧光测定,Lig表达的渗透诱导还导致LigA释放增强和LigB表面暴露增加。渗透压似乎是控制LigA和LigB表达的关键环境信号。

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