Gabai V L, Meriin A B, Mosser D D, Caron A W, Rits S, Shifrin V I, Sherman M Y
Boston Biomedical Research Institute, Boston, Massachusetts 02114, USA.
J Biol Chem. 1997 Jul 18;272(29):18033-7. doi: 10.1074/jbc.272.29.18033.
Harmful conditions including heat shock, oxidative stress, UV, and so forth cause programmed cell death, whose triggering requires activation of the Jun N-terminal kinase, JNK. High levels of Hsp72, a heat-inducible member of Hsp70 family, protect cells against a variety of stresses by a mechanism that is unclear at present. Here we report that elevated levels of Hsp72 inhibit a signal transduction pathway leading to programmed cell death by preventing stress-induced activation of JNK. Stress-induced activation of another stress-kinase, p38 (HOG1), is also blocked when the level of Hsp72 is increased. Similarly, addition of a purified recombinant Hsp72 to a crude cell lysate reduced p38 kinase activation, while depletion of the whole family of Hsp70 proteins with a monoclonal antibody enhanced such activation. In addition, we have found that accumulation of abnormal proteins in cells upon incubation with amino acid analogs causes activation of JNK and p38 kinases, which can be prevented by overproduction of Hsp72. Taken together, these data suggest that, in regulation of JNK and p38 kinases, Hsp70 serves as a "sensor" of the build-up of abnormal proteins after heat shock and other stresses. The inhibitory effect of an increased level of Hsp70 on JNK appears to be a major contributor to acquired thermotolerance in mammalian cells.
包括热休克、氧化应激、紫外线等在内的有害条件会导致程序性细胞死亡,其触发需要激活Jun N末端激酶(JNK)。Hsp72是Hsp70家族的一种热诱导成员,高水平的Hsp72通过一种目前尚不清楚的机制保护细胞免受多种应激。在此我们报告,Hsp72水平升高通过阻止应激诱导的JNK激活来抑制导致程序性细胞死亡的信号转导途径。当Hsp72水平升高时,应激诱导的另一种应激激酶p38(HOG1)的激活也会被阻断。同样,向粗制细胞裂解物中添加纯化的重组Hsp72会降低p38激酶的激活,而用单克隆抗体耗尽整个Hsp70蛋白家族则会增强这种激活。此外,我们发现,细胞在用氨基酸类似物孵育后异常蛋白的积累会导致JNK和p38激酶的激活,而Hsp72的过量表达可以预防这种激活。综上所述,这些数据表明,在JNK和p38激酶的调节中,Hsp70作为热休克和其他应激后异常蛋白积累的“传感器”。Hsp70水平升高对JNK的抑制作用似乎是哺乳动物细胞获得耐热性的主要因素。
