Ma Yanjun, Brewer Joseph W, Diehl J Alan, Hendershot Linda M
Department of Tumor Cell Biology, St. Jude Children's Research Hospital, Memphis, TN 38105-2794, USA.
J Mol Biol. 2002 May 17;318(5):1351-65. doi: 10.1016/s0022-2836(02)00234-6.
CHOP is a non-ER localized transcription factor that is induced by a variety of adverse physiological conditions including ER stress. Accumulation of unfolded proteins in the ER activates an unfolded protein response pathway that targets both ER resident chaperones (e.g. BiP) and CHOP. Hence, it is unclear if CHOP induction during ER stress occurs through the ER stress response element that is conserved in both CHOP and ER chaperone promoters, or through a separate regulatory pathway conserved among different CHOP inducing cellular stress conditions. We identified a bona fide ER stress element in the hamster CHOP promoter and found that similar transcription complexes containing NF-Y bound to both the CHOP and BiP ER stress response elements. In addition, we demonstrated for the first time the importance of the C/EBP-ATF composite site for CHOP regulation during ER stress. Activation of the ER transmembrane eIF2alpha kinase, PERK, induced ATF4 protein expression, direct binding to the composite site in CHOP promoter, and as a consequence, CHOP protein induction. We propose that this eIF2alpha-kinase/ATF4/C/EBP-ATF composite site pathway is conserved for CHOP regulation during various cellular stress conditions including ER stress. Our data indicate that both the ERSE and the PERK-ATF4 pathways converge on the CHOP promoter during ER stress and provide insights into the similarities and differences between CHOP and ER chaperone expression during normal and stress conditions.
CHOP是一种非内质网(ER)定位的转录因子,可由包括内质网应激在内的多种不利生理条件诱导产生。内质网中未折叠蛋白的积累激活了一条未折叠蛋白反应途径,该途径作用于内质网驻留伴侣蛋白(如BiP)和CHOP。因此,尚不清楚内质网应激期间CHOP的诱导是通过CHOP和内质网伴侣蛋白启动子中保守的内质网应激反应元件,还是通过不同的CHOP诱导细胞应激条件下保守的单独调节途径。我们在仓鼠CHOP启动子中鉴定出一个真正的内质网应激元件,发现含有NF-Y的相似转录复合物与CHOP和BiP内质网应激反应元件结合。此外,我们首次证明了C/EBP-ATF复合位点在内质网应激期间对CHOP调节的重要性。内质网跨膜eIF2α激酶PERK的激活诱导了ATF4蛋白表达,使其直接结合到CHOP启动子中的复合位点,进而诱导CHOP蛋白表达。我们提出,在包括内质网应激在内的各种细胞应激条件下,这种eIF2α激酶/ATF4/C/EBP-ATF复合位点途径对于CHOP的调节是保守的。我们的数据表明,在内质网应激期间,内质网应激反应元件(ERSE)和PERK-ATF4途径都汇聚于CHOP启动子,并为正常和应激条件下CHOP与内质网伴侣蛋白表达之间的异同提供了见解。
