Locke M, Tanguay R M
School of Physical and Health Education, University of Toronto, Ontario, Canada.
Cell Stress Chaperones. 1996 Sep;1(3):189-96. doi: 10.1379/1466-1268(1996)001<0189:ihaimw>2.3.co;2.
Stress-induced transcriptional regulation of the Hsps is mediated by trimerization and binding of a pre-existing heat shock transcription factor (HSF1) to a specific DNA sequence located in the 5' region of hsp genes, known as the heat shock element. Hsp70 has been implicated in regulating the activation of the HSF and, according to cell culture models, high steady-state levels of Hsp70 are inversely correlated with HSF activation. To determine if this applies in an intact animal, muscles of the rat hindlimb which differ in the constitutive expression of Hsp70, were assessed for HSF activation following heat shock. Mobility shift gel analyses demonstrated that HSF activation was detectable in extracts from all muscles following heat shock regardless of Hsp70 content. However, muscles comprised predominantly of slow/Type I fibers (soleus) demonstrated a greater HSF activation, as well as a faster HSF activation and inactivation, than muscles comprised predominantly of fast/Type II fibers (white gastrocnemius). In addition, muscles pretreated by two heat shocks (24 h apart) demonstrated a stronger HSF activation than muscles subjected to only one heat shock. Thus, results from cell culture models demonstrating that tissue levels of Hsp70 are inversely correlated with HSF activation, may not apply to the muscles of an intact animal.
热休克蛋白(Hsps)的应激诱导转录调控是由预先存在的热休克转录因子(HSF1)三聚化并结合到位于hsp基因5'区域的特定DNA序列(称为热休克元件)介导的。Hsp70参与调节HSF的激活,根据细胞培养模型,Hsp70的高稳态水平与HSF激活呈负相关。为了确定这是否适用于完整动物,对热休克后Hsp70组成型表达不同的大鼠后肢肌肉进行了HSF激活评估。迁移率变动凝胶分析表明,热休克后所有肌肉提取物中均可检测到HSF激活,而与Hsp70含量无关。然而,主要由慢肌/ I型纤维组成的肌肉(比目鱼肌)比主要由快肌/ II型纤维组成的肌肉(白色腓肠肌)表现出更大的HSF激活,以及更快的HSF激活和失活。此外,经过两次热休克预处理(间隔24小时)的肌肉比仅接受一次热休克的肌肉表现出更强的HSF激活。因此,细胞培养模型表明Hsp70的组织水平与HSF激活呈负相关的结果,可能不适用于完整动物的肌肉。