Akdemir F, Christich A, Sogame N, Chapo J, Abrams J M
Department of Cell Biology, UT Southwestern Medical Center, Dallas, TX 75390, USA.
Oncogene. 2007 Aug 9;26(36):5184-93. doi: 10.1038/sj.onc.1210328. Epub 2007 Feb 19.
p53 is a fundamental determinant of cancer susceptibility and other age-related pathologies. Similar to mammalian counterparts, Drosophila p53 integrates stress signals and elicits apoptotic responses that maintain genomic stability. To illuminate core-adaptive functions controlled by this gene family, we examined the Drosophila p53 regulatory network at a genomic scale. In development, the absence of p53 impacted constitutive expression for a surprisingly broad scope of genes. By contrast, stimulus-dependent responses governed by Drosophila p53 were limited in scope. The vast majority of stress responders were induced and p53 dependent (RIPD) genes. The signature set of 29 'high stringency' RIPD genes identified here were enriched for intronless loci, with a non-uniform distribution that includes a recently evolved cluster unique to Drosophila melanogaster. Two RIPD genes, with known and unknown biochemical activities, were functionally examined. One RIPD gene, designated XRP1, maintains genome stability after genotoxic challenge and prevents cell proliferation upon induced expression. A second gene, RnrL, is an apoptogenic effector required for caspase activation in a model of p53-dependent killing. Together, these studies identify ancient and convergent features of the p53 regulatory network.
p53是癌症易感性和其他与年龄相关病理的一个基本决定因素。与哺乳动物中的对应物相似,果蝇p53整合应激信号并引发维持基因组稳定性的凋亡反应。为了阐明受该基因家族控制的核心适应性功能,我们在基因组规模上研究了果蝇p53调控网络。在发育过程中,p53的缺失影响了范围惊人广泛的基因的组成型表达。相比之下,果蝇p53所调控的依赖刺激的反应范围有限。绝大多数应激反应基因是诱导型且p53依赖性(RIPD)基因。此处鉴定出的29个“高严格性”RIPD基因的特征集富含无内含子基因座,其分布不均匀,包括一个黑腹果蝇特有的最近进化的簇。对两个具有已知和未知生化活性的RIPD基因进行了功能研究。一个名为XRP1的RIPD基因在基因毒性攻击后维持基因组稳定性,并在诱导表达时阻止细胞增殖。第二个基因RnrL是p53依赖性杀伤模型中半胱天冬酶激活所需的凋亡效应器。总之,这些研究确定了p53调控网络的古老和趋同特征。
