Abravaya K, Myers M P, Murphy S P, Morimoto R I
Department of Biochemistry, Molecular Biology and Cell Biology, Northwestern University, Evanston, Illinois 60208.
Genes Dev. 1992 Jul;6(7):1153-64. doi: 10.1101/gad.6.7.1153.
Transcriptional regulation of the human hsp70 gene in response to heat shock and other forms of physiological stress occurs through the activation of heat shock transcription factor (HSF). Exposure of cells to a heat shock temperature of 42 degrees C results in transient activation of HSF; its DNA-binding activity increases rapidly, plateaus, and attenuates, during which the intracellular levels of hsp70 increase. In an effort to understand whether HSF is regulated negatively by hsp70, we have examined whether HSF associates with hsp70. We show that activated HSF associates with hsp70 and that the interaction is detected as the levels of hsp70 increase in the cell. Addition of ATP and other hydrolyzable nucleotides results in the dissociation of hsp70 from HSF while nonhydrolyzable nucleotide analogs do not disrupt the complex. We demonstrate that exogenous recombinant wild-type hsp70 can associate with activated HSF, whereas no association is observed with an amino-terminal or a carboxy-terminal deletion mutant of hsp70. We also show that hsp70 blocks the in vitro activation of HSF from its cryptic non-DNA-binding state to a DNA-binding form; this inhibitory effect of hsp70 is abolished by ATP. We suggest that hsp70 may negatively regulate the activation of HSF.
人类热休克蛋白70(hsp70)基因在热休克及其他形式的生理应激反应中的转录调控是通过热休克转录因子(HSF)的激活来实现的。将细胞暴露于42摄氏度的热休克温度会导致HSF的短暂激活;其DNA结合活性迅速增加、达到峰值并减弱,在此期间hsp70的细胞内水平升高。为了了解HSF是否受到hsp70的负调控,我们研究了HSF是否与hsp70结合。我们发现激活的HSF与hsp70结合,并且随着细胞内hsp70水平的增加可检测到这种相互作用。添加ATP和其他可水解核苷酸会导致hsp70与HSF解离,而非水解性核苷酸类似物不会破坏该复合物。我们证明外源性重组野生型hsp70可与激活的HSF结合,而hsp70的氨基末端或羧基末端缺失突变体则未观察到结合。我们还表明hsp70可阻止HSF在体外从其隐蔽的非DNA结合状态激活为DNA结合形式;ATP可消除hsp70的这种抑制作用。我们认为hsp70可能对HSF的激活起负调控作用。
