DeVries Tracie A, Kalkofen Rachelle L, Matassa Angela A, Reyland Mary E
Department of Craniofacial Biology, School of Dentistry, University of Colorado Health Sciences Center, Denver, Colorado 80262, USA.
J Biol Chem. 2004 Oct 29;279(44):45603-12. doi: 10.1074/jbc.M407448200. Epub 2004 Aug 20.
Protein kinase Cdelta (PKCdelta) is required for mitochondria-dependent apoptosis; however, little is known about downstream effectors of PKCdelta in apoptotic cells. Here we show that activation of STAT1 is an early response to DNA damage and that STAT1 activation requires PKCdelta. Treatment of HeLa cells with etoposide results in phosphorylation of STAT1 on Ser(727) and the association of STAT1 with PKCdelta. Etoposide increases transcription from STAT1-dependent reporter constructs. Increased transcription, as well as STAT1 Ser(727) phosphorylation, can be blocked by inhibition or depletion of PKCdelta. To ask if STAT1 is required for PKCdelta-mediated apoptosis, we utilized U3A STAT1-deficient cells. Induction of apoptosis by PKCdelta is suppressed in U3A cells but can be rescued by co-transfection with STAT1alpha but not STAT1 mutated at Ser(727). Nuclear accumulation of STAT1, phospho-Ser(727) STAT1, and PKCdelta are detectable 30-60 min after treatment with etoposide. Nuclear localization is necessary for apoptosis, since a nuclear localization mutant of PKCdelta does not induce apoptosis in U3A cells reconstituted with STAT1alpha, and a nuclear localization mutant of STAT1 does not support PKCdelta-induced apoptosis in U3A cells. Our data identify STAT1 as a downstream target of PKCdelta and suggest that PKCdelta may regulate apoptosis by activation of STAT1 target genes.
蛋白激酶Cδ(PKCδ)是线粒体依赖性凋亡所必需的;然而,对于PKCδ在凋亡细胞中的下游效应器知之甚少。在此我们表明,STAT1的激活是对DNA损伤的早期反应,且STAT1的激活需要PKCδ。用依托泊苷处理HeLa细胞会导致STAT1在Ser(727)位点磷酸化以及STAT1与PKCδ结合。依托泊苷增加了依赖于STAT1的报告基因构建体的转录。PKCδ的抑制或缺失可阻断转录增加以及STAT1 Ser(727)磷酸化。为了探究STAT1是否是PKCδ介导的凋亡所必需的,我们使用了U3A STAT1缺陷细胞。PKCδ诱导的凋亡在U3A细胞中受到抑制,但通过共转染STAT1α可挽救,而在Ser(727)位点突变的STAT1则不能。用依托泊苷处理30 - 60分钟后可检测到STAT1、磷酸化的Ser(727)STAT1和PKCδ的核积累。核定位对于凋亡是必需的,因为PKCδ的核定位突变体在重新构建有STAT1α的U3A细胞中不诱导凋亡,而STAT1的核定位突变体在U3A细胞中不支持PKCδ诱导的凋亡。我们的数据确定STAT1是PKCδ的下游靶点,并表明PKCδ可能通过激活STAT1靶基因来调节凋亡。
