Scott Fiona L, Fuchs Greg J, Boyd Sarah E, Denault Jean-Bernard, Hawkins Christine J, Dequiedt Franck, Salvesen Guy S
Program in Apoptosis and Cell Death Research, Burnham Institute for Medical Research, La Jolla, California 92037, USA.
J Biol Chem. 2008 Jul 11;283(28):19499-510. doi: 10.1074/jbc.M800331200. Epub 2008 May 5.
Caspase-8 is the initiator caspase of the extrinsic apoptosis pathway and also has a role in non-apoptotic physiologies. Identifying endogenous substrates for caspase-8 by using integrated bioinformatics and biological approaches is required to delineate the diverse roles of this caspase. We describe a number of novel putative caspase-8 substrates using the Prediction of Protease Specificity (PoPS) program, one of which is histone deacetylase 7 (HDAC7). HDAC7 is cleaved faster than any other caspase-8 substrate described to date. It is also cleaved in primary CD4+CD8+ thymocytes undergoing extrinsic apoptosis. By using naturally occurring caspase inhibitors that have evolved exquisite specificity at concentrations found within the cell, we could unequivocally assign the cleavage activity to caspase-8. Importantly, cleavage of HDAC7 alters its subcellular localization and abrogates its Nur77 repressor function. Thus we demonstrate a direct role for initiator caspase-mediated proteolysis in promoting gene transcription.
半胱天冬酶-8是外源性凋亡途径的起始半胱天冬酶,在非凋亡生理过程中也发挥作用。需要通过综合生物信息学和生物学方法来鉴定半胱天冬酶-8的内源性底物,以阐明该半胱天冬酶的多种作用。我们使用蛋白酶特异性预测(PoPS)程序描述了许多新的假定半胱天冬酶-8底物,其中之一是组蛋白脱乙酰基酶7(HDAC7)。HDAC7的切割速度比迄今为止描述的任何其他半胱天冬酶-8底物都要快。它也在经历外源性凋亡的原代CD4+CD8+胸腺细胞中被切割。通过使用在细胞内发现的浓度下具有高度特异性的天然存在的半胱天冬酶抑制剂,我们可以明确地将切割活性归因于半胱天冬酶-8。重要的是,HDAC7的切割改变了其亚细胞定位并消除了其对Nur77的抑制功能。因此,我们证明了起始半胱天冬酶介导的蛋白水解在促进基因转录中的直接作用。
