7,8-二羟-9,10-环氧苯并a芘诱发小鼠海马神经元HT22细胞铁死亡及其机制

7,8-dihydroxy-9,10-epoxybenzoapyrene induced ferroptosis in mouse hippocampal neuron HT22 cells and its mechanism

  • 摘要:
    背景 苯并a芘(BaP)具有神经毒性,可诱发人和动物海马神经元死亡从而导致空间学习记忆功能障碍,但其机制尚不清楚。
    目的 观察BaP活性代谢物7,8-二羟-9,10-环氧苯并a芘(BPDE)诱发小鼠海马神经元HT22细胞铁死亡的发生规律,初步探讨其潜在机制,为BaP神经毒性机制研究提供依据。
    方法 选用小鼠海马神经元HT22细胞,分为溶剂对照组和低、中、高浓度BPDE染毒组(0.25、0.50、0.75 μmol·L−1)。CCK8法测定细胞存活率。光镜和电镜观察细胞形态及超微结构。荧光探针法检测细胞内活性氧(ROS)水平和Fe2+水平。试剂盒检测细胞内铁、4-羟基壬烯酸(4-HNE)、丙二醛(MDA)、谷胱甘肽(GSH)和谷胱甘肽过氧化物酶(GSH-PX)水平。Western blotting法检测铁死亡特征蛋白酰基辅酶A合成长链家族成员4(ACSL4)、环氧合酶2(COX2)、溶质载体家族7成员11(SLC7A11)、谷胱甘肽过氧化物酶4(GPX4)蛋白表达水平。用铁死亡抑制剂20 μmol·L−1去铁胺(DFO)和10 μmol·L−1 3-氨基-4-环己基氨基苯甲酸乙酯(Fer-1)进行干预,观察对各浓度BPDE染毒组细胞存活率和相关铁死亡特征指标和蛋白表达水平的影响。
    结果 随着BPDE染毒浓度的增加,HT22细胞存活率逐渐下降,各BPDE染毒组细胞存活率均明显低于溶剂对照组(P<0.01)。光镜下可见高浓度BPDE组细胞数量明显减少,形态萎缩变形,突触减少;电镜下可见高浓度BPDE组HT22细胞表现出线粒体皱缩,嵴减少,线粒体膜密度增加。与溶剂对照组相比,高浓度染毒组细胞内脂质ROS、Fe2+、4-HNE及MDA水平明显增加(P<0.01);GSH、GSH-PX水平明显降低(P<0.01),ASCL4、COX2蛋白表达水平明显增加(P<0.01),SLC7A11、GPX4蛋白表达水平明显下降(P<0.01)。铁死亡抑制剂DFO、Fer-1可明显逆转高浓度BPDE组细胞的存活率(P<0.01)、铁死亡特征指标(ROS、Fe2+、4-HNE、MDA、GSH、GSH-PX水平)(P<0.01)以及铁死亡相关蛋白水平的表达(ACSL4、COX2、SLC7A11、GPX4)(P<0.01)。
    结论 BPDE可诱发小鼠海马神经元HT22细胞铁死亡,其机制可能与抑制SLC7A11/GSH/GPX4轴及诱发细胞铁离子代谢紊乱有关。

     

    Abstract:
    Background Benzoapyrene (BaP) has neurotoxicity, which can induce the loss of hippocampal neurons in humans and animals and lead to spatial learning and memory dysfunction, but its mechanism is still unclear.
    Objective To observe the ferroptosis of mouse hippocampal neuron HT22 cells induced by 7,8-dihydroxy-9,10-epoxybenzoapyrene (BPDE), an active metabolite of BaP, and to explore its potential mechanism, so as to provide a basis for the study of BaP neurotoxicity mechanism.
    Method Mouse hippocampal neuron HT22 cells were selected and divided into four groups: solvent control group and low, medium, and high concentration BPDE exposure groups (0.25, 0.50, and 0.75 μmol·L−1). Cell survival was detected by CCK8 method. Cell morphology and ultrastructure were observed under light and electron microscopes. The levels of reactive oxygen species (ROS) and Fe2+ were detected by fluorescence probe method. Iron, 4-hydroxynonenoic acid (4-HNE), malondialdehyde (MDA), glutathione (GSH), and glutathione peroxidase (GSH-PX) levels were detected with commercial kits. The expression levels of acyl-CoA synthase long chain family member 4 (ACSL4), cyclooxygenase 2 (COX2), solute carrier family 7 member 11 (SLC7A11), and glutathione peroxidase 4 (GPX4) were detected by Western blotting. After interventions with ferroptosis inhibitors 20 μmol·L−1 deferoxamine (DFO) and 10 μmol·L−1 ethyl 3-amino-4-cyclohexylaminobenzoate (Fer-1), the cell survival rate of each BPDE exposure group and the changes of the ferroptosis characteristic indicators and protein expression levels were observed.
    Results With the increase of BPDE concentration, the survival rate of HT22 cells decreased gradually, and the survival rate of each BPDE group was significantly lower than that of the solvent control group (P<0.01). Under light microscope, the number of cells in the high concentration BPDE group was significantly reduced, and atrophic cells and reduced synapses were recorded. Under electron microscope, the HT22 cells in the high concentration BPDE group showed mitochondrial shrinkage, decreased crista, and increased mitochondrial membrane density. Compared with the solvent control group, the levels of intracellular lipid ROS, Fe2+, 4-HNE, and MDA significantly increased in the high concentration group (P<0.01), the GSH and GSH-PX levels were significantly decreased (P<0.01), the protein expression levels of ASCL4 and COX2 were significantly increased (P<0.01), and the protein expression levels of SCL7A11 and GPX4 were significantly decreased (P<0.01). The ferroptosis inhibitors DFO and Fer-1 significantly reversed the cell survival rate (P<0.01), the ferroptosis characteristic indicators (ROS, Fe2+, 4-HNE, MDA, GSH, and GSH-PX levels) (P<0.01), and the expression levels of ferroptosis-related proteins (ACSL4, COX2, SLC7A11, and GPX4) (P<0.01) in the high concentration BPDE group.
    Conclusion BPDE can induce ferroptosis in mouse hippocampal neuron HT22 cells, which may be related to the inhibition of SLC7A11/GSH/GPX4 axis and the induction of iron metabolism disorder.

     

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