Laboratory of Molecular Carcinogenesis, Division of Cellular and Molecular Research, Humphrey Oei Institute of Cancer Research, National Cancer Centre Singapore, Singapore.
Proc Natl Acad Sci U S A. 2010 Mar 16;107(11):4902-7. doi: 10.1073/pnas.0906782107. Epub 2010 Feb 25.
p73, the structural and functional homologue of p53, exists as two major forms: the transactivation-proficient, proapoptotic TAp73 or the transactivation-deficient, antiapoptotic DNp73. Expectedly, expression of both these major forms has to be coordinated precisely to achieve the desired cellular outcome. Genotoxic insults resulting in cell death lead to the stabilization of TAp73, mainly through posttranslational modifications, and the concomitant degradation of DNp73, through poorly understood mechanisms. We have therefore investigated the possible mechanisms of stress-induced DNp73 degradation and show here that c-Jun, the AP-1 family member activated by stress signals and involved in stabilizing TAp73, promotes DNp73 degradation. Genotoxic stress-mediated DNp73 degradation was found to occur in a c-Jun-dependent manner through a ubiquitin-independent but proteasome-dependent mechanism. Absence or down-regulation of c-Jun expression abrogated the reduction of DNp73 levels upon stress insults, whereas overexpression of c-Jun led to its degradation. c-Jun controlled DNp73 degradation through the nonclassical, polyamine-induced antizyme (Az) pathway by regulating the latter's processing during stress response. Consistently, expression of c-Jun or Az, or addition of polyamines, promoted DNp73 degradation, whereas silencing Az expression or inhibiting Az activity in cells exposed to stress reduced c-Jun-dependent DNp73 degradation. Moreover, Az was able to bind to DNp73. These data together demonstrate the existence of a c-Jun-dependent mechanism regulating the abundance of the antiapoptotic DNp73 in response to genotoxic stress.
p73 是 p53 的结构和功能同源物,存在两种主要形式:转录激活有效的促凋亡 TAp73 或转录激活缺陷的抗凋亡 DNp73。可以预期,这两种主要形式的表达都必须精确协调,以达到所需的细胞结果。导致细胞死亡的遗传毒性损伤导致 TAp73 的稳定,主要通过翻译后修饰,以及通过尚不清楚的机制导致 DNp73 的降解。因此,我们研究了应激诱导的 DNp73 降解的可能机制,并在此表明,应激信号激活的 AP-1 家族成员 c-Jun 通过一种非依赖泛素但依赖蛋白酶体的机制促进 DNp73 的降解。发现通过 c-Jun 依赖性机制介导的遗传毒性应激诱导的 DNp73 降解发生在应激损伤时通过非经典的多胺诱导的抗酶(Az)途径。c-Jun 对 DNp73 降解的控制是通过调节后者在应激反应过程中的加工来实现的。一致地,c-Jun 或 Az 的表达或多胺的添加促进了 DNp73 的降解,而在暴露于应激的细胞中沉默 Az 表达或抑制 Az 活性则降低了 c-Jun 依赖性的 DNp73 降解。此外,Az 能够与 DNp73 结合。这些数据共同证明了存在一种 c-Jun 依赖性机制,可调节抗凋亡 DNp73 的丰度,以响应遗传毒性应激。