Kandror O, Goldberg A L
Department of Cell Biology, Harvard Medical School, Boston, MA 02115, USA.
Proc Natl Acad Sci U S A. 1997 May 13;94(10):4978-81. doi: 10.1073/pnas.94.10.4978.
Trigger factor (TF) in Escherichia coli is a molecular chaperone with remarkable properties: it has prolyl-isomerase activity, associates with nascent polypeptides on ribosomes, binds to GroEL, enhances GroEL's affinity for unfolded proteins, and promotes degradation of certain polypeptides. Because the latter effects appeared larger at 20 degrees C, we studied the influence of temperature on TF expression. Unlike most chaperones (e.g., GroEL), which are heat-shock proteins (hsps), TF levels increased progressively as growth temperature decreased from 42 degrees C to 16 degrees C and even rose in cells stored at 4 degrees C. Upon temperature downshift from 37 degrees C to 10 degrees C or exposure to chloramphenicol, TF synthesis was induced, like that of many cold-shock proteins. We therefore tested if TF expression might be important for viability at low temperatures. When stored at 4 degrees C, E. coli lose viability at exponential rates. Cells with reduced TF content die faster, while cells overexpressing TF showed greater viability. Although TF overproduction protected against cold, it reduced viability at 50 degrees C, while TF deficiency enhanced viability at this temperature. By contrast, overproduction of GroEL/ES, or hsps generally, while protective against high temperatures, reduced viability at 4 degrees C, which may explain why expression of hsps is suppressed in the cold. Thus, TF represents an example of an E. coli protein which protects cells against low temperatures. Moreover, the differential induction of TF at low temperatures and hsps at high temperatures appears to provide selective protection against these opposite thermal extremes.
大肠杆菌中的触发因子(TF)是一种具有显著特性的分子伴侣:它具有脯氨酰异构酶活性,与核糖体上的新生多肽结合,与GroEL结合,增强GroEL对未折叠蛋白的亲和力,并促进某些多肽的降解。由于后一种效应在20摄氏度时似乎更大,我们研究了温度对TF表达的影响。与大多数伴侣蛋白(如GroEL)不同,后者是热休克蛋白(hsp),随着生长温度从42摄氏度降至16摄氏度,TF水平逐渐升高,甚至在4摄氏度储存的细胞中也有所上升。当温度从37摄氏度降至10摄氏度或暴露于氯霉素时,TF合成被诱导,就像许多冷休克蛋白一样。因此,我们测试了TF表达在低温下对生存能力是否重要。当储存在4摄氏度时,大肠杆菌以指数速率丧失生存能力。TF含量降低的细胞死亡更快,而过度表达TF的细胞显示出更强的生存能力。虽然TF的过量产生能抵御寒冷,但它在5摄氏度时会降低生存能力,而TF缺乏则会增强该温度下的生存能力。相比之下,GroEL/ES或一般热休克蛋白的过量产生虽然能抵御高温,但在4摄氏度时会降低生存能力,这可能解释了为什么热休克蛋白的表达在低温下会受到抑制。因此,TF是一种保护细胞免受低温影响的大肠杆菌蛋白的例子。此外,TF在低温下的差异诱导和热休克蛋白在高温下的差异诱导似乎为抵御这些相反的极端温度提供了选择性保护。