1.Influences of protein kinase Cβ inhibitor LY333531 on oxidative injury and apoptosis of SH-SY5Y cells induced by fluorosis
Chengmin DENG ; Liang ZHAO ; Longchun TAN ; Zhizhong GUAN
Chinese Journal of Endemiology 2017;36(2):90-93
Objective To explore the influences of protein kinase Cβ (PKC3) inhibitor LY333531 on oxidative injury and apoptosis of SH-SY5Y cells induced by fluorosis.Methods The SH-SY5Y cell model of fluorosis was established,and the experiment was divided into three groups:control group [0.0 mmol/L sodium fluoride (NaF) and 0.0 μmol/L LY333531],the fluoride group (0.5 mmol/L NaF and 0.0 μmol/L LY333531),and the PKCβ inhibitor group (0.5 mmol/L NaF and 0.2 μmol/L LY333531),n =3.Flow cytometry was used to detect the changes of reactive oxygen species (ROS) and apoptosis rate,fluorescent probe technique was used to detect mitochondrial membrane potential after each group for 48 h.Results Compared with the control group [(3.32 ± 0.29) × 103,0.60 ± 0.09,(7.58 ± 1.20)%],the level of ROS [(5.99 ± 0.32) × 103] was increased,mitochondrial membrane potential (0.28 ± 0.06) was decreased,and the apoptosis rate [(18.00 ± 2.32)%] was increased in the fluoride group (all P < 0.05);compared with the fluoride group,the level of ROS [(5.12 ± 0.25) × 103] was decreased,mitochondrial membrane potential (0.42 ± 0.03) was increased,and the apoptosis rate [(11.79 ± 0.70)%] was decreased in the PKCβ inhibitor group (all P < 0.05).Conclusions Excess fluoride could cause oxidative damage and apoptosis in cells.PKC3 inhibitor LY333531 has a protective effect in oxidative damage and apoptosis by fluorosis.
2.Influence of chronic fluorosis on protein kinase Cβ/p66shc signal pathway in the brain of rats
Chengmin DENG ; Longchun TAN ; Jie DENG ; Yanjie LIU ; Zhiwei QIU ; Zhizhong GUAN
Chinese Journal of Endemiology 2016;35(5):333-337
Objective To investigate the influence of chronic fluorosis on protein kinase Cβ (PKCβ)/p66shc signal pathway in the brain of rats,and reveal the molecular mechanism of brain damage.Methods According to body weight by the random number table method thirty SD rats were divided into three groups of 10 each (half females and half males),the normal control group [less than 0.5 mg/L of fluorine (prepared with NaF) in drinking water],low fluoride exposure group (10.0 mg/L fluorine),and high fluoride exposure group (50.0 mg/L fluoride).The experiment period was 6 months.The protein level of PKCβ,p66shc,phospho-p66shc and preserved ammonia acyl isomerase (Pin1) in rat brain was detected by Western blotting.The level of neuron nuclear antigen (NeuN),p66shc and phospho-p66sh in brain of rats was detected by immunohistochemistry.Results By Western blotting,the levels of PKCβ,Pin1 and phospho-p66shc protein in brain tissue in high fluoride exposure group [(193.00 ± 57.53)%,(228.21 ± 71.14)%,(201.54 ±:50.86)%] were higher than those of the normal control groups [(100.00 ± 21.24)%,(100.00 ± 40.55)%,(100.00 ± 13.35)%,all P < 0.05].By immunohistochemistry,the numbers of NeuN staining in brain tissue of the rats in both high and low fluoride exposure groups [(49.50 ± 12.57)%,(65.66 ±14.58)%] were lower than that of the control group [(100.00 ± 18.32)%,all P < 0.01].The level of phospho-p66shc protein in brain tissue in high fluoride exposure group [(242.66 ± 93.01)%] was higher than those of the low fluoride exposure and the normal control groups [(152.53 ± 60.65)%,(100.00 ± 25.63)%,all P < 0.01].Conclusion Chronic fluorosis has increased the expressions of PKCβ,Pin1 and phospho-p66shc at protein level in brain of rats,which may be related to the molecular mechanism of brain damage resulted from chronic fluorosis.
3. Antagonism of lovastatin on oxidative stress and apoptosis in primary rat hippocampal neurons induced by β-amyloid peptide
Longchun TAN ; Liang ZHAO ; Xianhong LIU ; Chengmin DENG ; Zhizhong GUAN
Chinese Journal of Pathology 2017;46(7):491-496
Objective:
To investigate the effect of lovastatin on oxidative stress and apoptosis in neurons induced by β-amyloid peptide (Aβ).
Methods:
Primary culture of rat hippocampal neuron was treated with Aβ oligomers alone or combined with lovastatin. The levels of OH-, H2O2, O2·-, malondialdehyde, superoxide dismutase (SOD) and glutathione peroxidase (GSH-PX) activities were measured by biochemical methods and protein expression of caspase-3 and bcl-2 was detected by Western blot.
Results:
As compared with the control group, treatment of 0.5 μmol/L Aβ oligomers for 48 h led to significant increase of OH-, H2O2, O2·- and malondialdehyde content, inhibition of SOD and GSH-PX activities, enhanced caspase-3 expression and decreased bcl-2 expression. Interestingly, these neurotoxic modifications on the levels of OH-, H2O2, O2·- and malondialdehyde content, SOD and GSH-PX activities, and the protein expression of cleaved caspase-3 and bcl-2 were significantly attenuated when the cells were pretreated with 0.1 μmol/L lovastatin for 24 h before exposure of Aβ oligomers.
Conclusion
Lovastatin may play an important role in antagonizing the neurotoxicity of Aβ through a mechanism likely related to the inhibition of oxidative stress.