Müller M, Wilder S, Bannasch D, Israeli D, Lehlbach K, Li-Weber M, Friedman S L, Galle P R, Stremmel W, Oren M, Krammer P H
Department of Internal Medicine IV, Hepatology and Gastroenterology, University Hospital, 69115 Heidelberg, Germany.
J Exp Med. 1998 Dec 7;188(11):2033-45. doi: 10.1084/jem.188.11.2033.
Chemotherapeutic drugs cause DNA damage and kill cancer cells mainly by apoptosis. p53 mediates apoptosis after DNA damage. To explore the pathway of p53-dependent cell death, we investigated if p53-dependent apoptosis after DNA damage is mediated by the CD95 (APO-1/Fas) receptor/ligand system. We investigated hepatoma, gastric cancer, colon cancer, and breast cancer cell lines upon treatment with different anticancer agents known to act via p53 accumulation. Cisplatin, mitomycin, methotrexate, mitoxantrone, doxorubicin, and bleomycin at concentrations present in the sera of patients during therapy led to an upregulation of both CD95 receptor and CD95 ligand. Induction of the CD95 ligand occurred in p53 wild-type (wt), p53 mutant (mt), and p53 deficient (p53(-/-)) cell lines and at wt and mt conformation of temperature-sensitive p53 mutants. In contrast, upregulation of the CD95 receptor was observed only in cells with wt p53, not in cells with mt or without any p53. Restitution of inducible wt p53 function restored the ability of p53(-/-) Hep3B cells to upregulate the CD95 receptor in response to anticancer drugs. This rendered the cells sensitive to CD95-mediated apoptosis. In an attempt to understand how CD95 expression is regulated by p53, we identified a p53-responsive element within the first intron of the CD95 gene, as well as three putative elements within the promoter. The intronic element conferred transcriptional activation by p53 and cooperated with p53-responsive elements in the promoter of the CD95 gene. wt p53 bound to and transactivated the CD95 gene, whereas mt p53 failed to induce apoptosis via activation of the CD95 gene. These observations provide a mechanistic explanation for the ability of p53 to contribute to tumor progression and to resistance of cancer cells to chemotherapy.
化疗药物会导致DNA损伤,并主要通过凋亡来杀死癌细胞。p53在DNA损伤后介导凋亡。为了探究p53依赖性细胞死亡的途径,我们研究了DNA损伤后p53依赖性凋亡是否由CD95(APO-1/Fas)受体/配体系统介导。我们用已知通过p53积累起作用的不同抗癌药物处理肝癌、胃癌、结肠癌和乳腺癌细胞系。治疗期间患者血清中存在的顺铂、丝裂霉素、甲氨蝶呤、米托蒽醌、阿霉素和博来霉素浓度导致CD95受体和CD95配体均上调。CD95配体的诱导发生在p53野生型(wt)、p53突变型(mt)和p53缺陷型(p53(-/-))细胞系中,以及温度敏感型p53突变体的wt和mt构象中。相比之下,仅在具有wt p53的细胞中观察到CD95受体上调,而在具有mt p53或无任何p53的细胞中未观察到。可诱导的wt p53功能的恢复恢复了p53(-/-) Hep3B细胞响应抗癌药物上调CD95受体的能力。这使细胞对CD95介导的凋亡敏感。为了试图理解p53如何调节CD95表达,我们在CD95基因的第一个内含子内鉴定出一个p53反应元件,以及启动子内的三个推定元件。内含子元件赋予p53转录激活作用,并与CD95基因启动子中的p53反应元件协同作用。wt p53结合并反式激活CD95基因,而mt p53无法通过激活CD95基因诱导凋亡。这些观察结果为p53促进肿瘤进展以及癌细胞对化疗耐药的能力提供了一个机制性解释。
