GADD45a通过JNK/p38信号通路调控喹乙醇诱导的人肝癌G2细胞DNA损伤和S期阻滞

GADD45a Regulates Olaquindox-Induced DNA Damage and S-Phase Arrest in Human Hepatoma G2 Cells via JNK/p38 Pathways.

作者信息

Li Daowen, Dai Chongshan, Yang Xiayun, Li Bin, Xiao Xilong, Tang Shusheng

机构信息

College of Veterinary Medicine, China Agricultural University, Yuanmingyuan West Road No.2, Haidian District, Beijing 100193, China.

出版信息

Molecules. 2017 Jan 13;22(1):124. doi: 10.3390/molecules22010124.

DOI:10.3390/molecules22010124

PMID:28098804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6155949/

Abstract

Olaquindox, a quinoxaline 1,4-dioxide derivative, is widely used as a feed additive in many countries. The potential genotoxicity of olaquindox, hence, is of concern. However, the proper mechanism of toxicity was unclear. The aim of the present study was to investigate the effect of growth arrest and DNA damage 45 alpha (GADD45a) on olaquindox-induced DNA damage and cell cycle arrest in HepG2 cells. The results showed that olaquindox could induce reactive oxygen species (ROS)-mediated DNA damage and S-phase arrest, where increases of GADD45a, cyclin A, Cdk 2, p21 and p53 protein expression, decrease of cyclin D1 and the activation of phosphorylation-c-Jun N-terminal kinases (p-JNK), phosphorylation-p38 (p-p38) and phosphorylation-extracellular signal-regulated kinases (p-ERK) were involved. However, GADD45a knockdown cells treated with olaquindox could significantly decrease cell viability, exacerbate DNA damage and increase S-phase arrest, associated with the marked activation of p-JNK, p-p38, but not p-ERK. Furthermore, SP600125 and SB203580 aggravated olaquindox-induced DNA damage and S-phase arrest, suppressed the expression of GADD45a. Taken together, these findings revealed that GADD45a played a protective role in olaquindox treatment and JNK/p38 pathways may partly contribute to GADD45a regulated olaquindox-induced DNA damage and S-phase arrest. Our findings increase the understanding on the molecular mechanisms of olaquindox.

摘要

喹乙醇是一种喹喔啉 - 1,4 - 二氧化物衍生物，在许多国家被广泛用作饲料添加剂。因此，喹乙醇的潜在遗传毒性受到关注。然而，其确切的毒性机制尚不清楚。本研究的目的是探讨生长停滞和DNA损伤诱导蛋白45α（GADD45a）对喹乙醇诱导的HepG2细胞DNA损伤和细胞周期停滞的影响。结果表明，喹乙醇可诱导活性氧（ROS）介导的DNA损伤和S期停滞，其中涉及GADD45a、细胞周期蛋白A、细胞周期蛋白依赖性激酶2（Cdk 2）、p21和p53蛋白表达增加，细胞周期蛋白D1减少，以及磷酸化c - Jun氨基末端激酶（p - JNK）、磷酸化p38（p - p38）和磷酸化细胞外信号调节激酶（p - ERK）的激活。然而，用喹乙醇处理的GADD45a基因敲低细胞可显著降低细胞活力，加剧DNA损伤并增加S期停滞，这与p - JNK、p - p38的显著激活有关，但与p - ERK无关。此外，SP600125和SB203580加剧了喹乙醇诱导的DNA损伤和S期停滞，并抑制了GADD45a的表达。综上所述，这些发现表明GADD45a在喹乙醇处理中起保护作用，JNK/p38信号通路可能部分参与了GADD45a调节的喹乙醇诱导的DNA损伤和S期停滞。我们的发现增进了对喹乙醇分子机制的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a3d7/6155949/f86c6937f45e/molecules-22-00124-g001.jpg

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GADD45a通过JNK/p38信号通路调控喹乙醇诱导的人肝癌G2细胞DNA损伤和S期阻滞

GADD45a Regulates Olaquindox-Induced DNA Damage and S-Phase Arrest in Human Hepatoma G2 Cells via JNK/p38 Pathways.

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