氟化钠通过JNK通路调控细胞凋亡致心肌细胞损伤的作用研究

Effect of sodium fluoride on myocardial damage by regulating apoptosis through JNK signaling pathway

  • 摘要:
    背景 氟可诱导心肌损伤。c-Jun氨基末端激酶(JNK)信号通路在细胞凋亡过程中具有重要作用,但该通路在氟中毒对心肌细胞损伤中的作用仍为未知。
    目的 探究氟化钠(NaF)对大鼠心肌细胞H9c2的毒性作用,以及是否通过JNK信号通路影响心肌细胞凋亡。
    方法 按照NaF浓度及是否加入SP600125(JNK抑制剂),将大鼠心肌细胞分为对照组、SP600125组(SP组)、0.24 mmol·L−1 NaF组、0.48 mmol·L−1 NaF组、0.96 mmol·L−1 NaF组、0.96 mmol·L−1 NaF+SP600125组(NaF+SP组)。将NaF染毒24 h的大鼠H9c2心肌细胞于荧光倒置显微镜下观察细胞形态,对处理24、48、72 h后的细胞采用CCK-8法检测细胞活力变化,采用荧光探针法检测处理24 h后的H9c2心肌细胞中活性氧(ROS)水平,采用实时荧光定量PCR法检测处理24 h后细胞Bcl-2BaxCaspase-3JNK mRNA表达水平,采用Western blotting方法检测处理24 h后细胞Bcl-2、Bax、Caspase-3、p-JNK蛋白表达情况。
    结果 与对照组相比,0.48、0.96 mmol·L−1 NaF处理24 h后细胞生长密度减少,NaF浓度增加后出现变圆细胞,镜下出现部分悬浮死细胞,并且NaF染毒处理细胞24 h后,0.48、0.96 mmol·L−1NaF组细胞活力低于对照组(P<0.05),NaF处理细胞48、72 h后NaF各处理组的细胞活力均低于对照组(P<0.05);与对照组相比,NaF染毒培养心肌细胞24 h后,细胞内ROS水平升高,Bcl-2 mRNA表达有不同水平的下降,特别是0.48和0.96 mmol·L−1NaF组,BaxCaspase-3JNK mRNA表达水平明显增加,Bcl-2蛋白表达水平下降,Bax、Caspase-3、p-JNK蛋白表达水平升高(P<0.05);与0.96 mmol·L−1 NaF组相比,NaF+SP组细胞活力增加,ROS水平降低,BaxCaspase-3JNK mRNA表达水平降低,Bcl-2蛋白表达明显升高,Bax、Caspase-3、p-JNK蛋白表达明显降低(P<0.05),Bcl-2 mRNA表达有增加,但差异无统计学意义(P>0.05)。
    结论 过量氟暴露可诱导心肌细胞ROS产生增多,并可能激活JNK信号通路诱导H9c2心肌细胞凋亡,进而造成心肌细胞损伤。

     

    Abstract:
    Background It has been found that fluoride may cause cardiomyocyte damage. c-Jun N-terminal kinases (JNK) signaling pathway plays an important role in apoptosis, but its role in fluorosis-induced cardiomyocyte damage is still unknown yet.
    Objective To explore the toxic effect of sodium fluoride (NaF) on H9c2 cardiomyocytes of rats and whether NaF affects cardiomyocyte apoptosis through the JNK signaling pathway.
    Methods According to the concentrations of sodium fluoride and whether sp600125 (JNK inhibitor) was added, cardiomyocytes of rats were divided into six groups, including control group, SP600125 group (SP group), 0.24, 0.48, and 0.96 mmol·L−1 NaF groups, and 0.96 mmol·L−1 NaF+SP600125 group (NaF+SP group). Cardiomyocytes exposed to NaF for 24 h were observed using a fluorescence inverted microscope. The changes of cell viability at 24, 48, and 72 h after the treatment were detected by CCK-8 method. The levels of reactive oxygen species (ROS) at 24 h after the treatment in H9c2 cardiomyocytes were determined by fluorescent probe method. The expression levels of Bcl-2, Bax, Caspase-3, and JNK mRNA at 24 h after the treatment were detected by real-time PCR. The protein expression levels of Bcl-2, Bax, Caspase-3, and p-JNK at 24 h after the treatment were detected by Western blotting.
    Results Compared with the control group, after being exposed to 0.48 and 0.96 mmol·L−1 NaF for 24 h, the cell growth density decreased. With the increase of NaF concentration, rounded cells and some suspended dead cells appeared. At 24h after exposure to NaF, the cell viability of the 0.48 and 0.96 mmol·L−1 NaF groups decreased compared with the control group (P<0.05). At 48h and 72h after exposure to NaF, the cell viability levels of the NaF treated groups were significantly lower than that of the control group (P<0.05). After NaF exposure for 24 h, compared with the control group, the intracellular ROS levels were increased (P<0.05); the mRNA expression levels of Bcl-2 were decreased to varying degrees, especially in the 0.48 and 0.96 mmol·L−1 NaF groups (P<0.05); the mRNA expression levels of Bax, Caspase-3, and JNK were increased (P<0.05); the protein expression levels of Bcl-2 were reduced (P<0.05); the protein expression levels of Bax, Caspase-3, and p-JNK were elevated (P<0.05). Compared with the 0.96 mmol·L−1 NaF group, the cell viability of the NaF+SP group was increased, the intracellular ROS level was decreased, the mRNA expression levels of Bax, Caspase-3, and JNK were decreased, the protein expression level of Bcl-2 was increased, and the protein expression levels of Bax, Caspase-3, and p-JNK were decreased (P<0.05); the expression level of Bcl-2 mRNA had a rising trend but showed no statistical significance (P>0.05).
    Conclusion Cardiomyocyte damage after excessive fluoride exposure may result from fluoride inducing excessive ROS production in cardiomyocytes, which may activate the JNK signaling pathway and induce cardiomyocyte apoptosis.

     

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