Lin T, Mak N K, Yang M S
Department of Biology, Hong Kong Baptist University, Kowloon Tong, Hong Kong, PR China.
Toxicology. 2008 May 21;247(2-3):145-53. doi: 10.1016/j.tox.2008.02.017. Epub 2008 Mar 4.
Benzo[a]pyrene (BaP) is a potentially genotoxic and cytotoxic environmental pollutant. Previous studies showed that exposure of HepG(2) cells to BaP causes necrotic cell death [Lin, T., Yang, M.S., 2007b. Cell death induced by benzo[a]pyrene in the HepG(2) cells is dependent on PARP-1 activation and NAD depletion. Toxicology 245, 147-153]. In the present study, the signaling pathways associated with this response was studied. BaP induced accumulation and activation of p53 in HepG(2) cells, which occurred as early as 12h after exposure. Activation of p53 was evidenced by its phosphorylation at serine 15 (Ser15) and acetylation at lysine 382 (Lys382). Chemical inhibition and siRNA-mediated knockdown of p53 expression suppressed its phosphorylation as well as cell death. BaP also activated p38 MAPK and ERK, but not JNK, at 6h after exposure. SB203580 and PD98059, specific inhibitors of p38 MAPK and ERK, respectively, suppressed phosphorylation of p53 at Ser15, but the accumulation of p53 was only moderately reduced. Acetylation of p53 at Lys 382 was not affected by these inhibitors, suggesting that acetylation stabilizes p53 in response to DNA damage. SB203580 and PD98059 prevented downstream energy failure and BaP-induced cell death. Similar results were obtained with siRNA against two isoforms of p38 MAPK, p38alpha and p38beta. Wortmannin, selective inhibitor of DNA-PK and ATM/ATR, abolished p53 phosphorylation, indicating an involvement of multiple pathways of p53 phosphorylation upon exposure to BaP. In summary, the current study demonstrated that both MAPK and p53 activation are required for BaP-induced necrotic cell death. The results also provide a novel model for studying the regulation between p53 and p38 MAPK in the progression of cellular necrosis.
苯并[a]芘(BaP)是一种具有潜在遗传毒性和细胞毒性的环境污染物。先前的研究表明,将HepG(2)细胞暴露于BaP会导致坏死性细胞死亡[林,T.,杨,M.S.,2007b。苯并[a]芘诱导HepG(2)细胞死亡依赖于PARP-1激活和NAD耗竭。毒理学245,147 - 153]。在本研究中,对与该反应相关的信号通路进行了研究。BaP诱导HepG(2)细胞中p53的积累和激活,最早在暴露后12小时出现。p53的激活通过其丝氨酸15(Ser15)的磷酸化和赖氨酸382(Lys382)的乙酰化得以证实。化学抑制和siRNA介导的p53表达敲低抑制了其磷酸化以及细胞死亡。BaP在暴露后6小时还激活了p38 MAPK和ERK,但未激活JNK。p38 MAPK和ERK的特异性抑制剂SB203580和PD98059分别抑制了p53在Ser15处的磷酸化,但p53的积累仅适度减少。p53在Lys 382处乙酰化不受这些抑制剂影响,表明乙酰化在DNA损伤反应中稳定了p53。SB203580和PD98059阻止了下游能量衰竭和BaP诱导的细胞死亡。针对p38 MAPK的两种同工型p38α和p38β的siRNA也得到了类似结果。DNA-PK以及ATM/ATR的选择性抑制剂渥曼青霉素消除了p53磷酸化,表明暴露于BaP时p53磷酸化涉及多种途径。总之,当前研究表明,MAPK和p53激活都是BaP诱导坏死性细胞死亡所必需的。这些结果还为研究细胞坏死进程中p53与p38 MAPK之间的调控提供了一个新模型。
