Objective To detect the levels of oxidative stress in brain and serum of rats with chronic fluorosis and the antagonistic effects of vitamin E (VitE),and to reveal the role of oxidative stress in brain injury.Methods Thirty healthy SD rats were divided into three groups based on body weight by means of a random number table (10 rats in each group,half male and half female).In the control group,the rats were fed with drinking water containing less than 0.5 mg/L fluoride;in the fluoride group,the rats were fed with high doses of sodium fluoride in drinking water (50.0 mg/L) and the VitE antagonistic group were fed with the same content of fluoride in drinking water as the fluoride group,but adding VitE (50.0 mg/kg) by intragastric administration once a day.All rats were fed with normal diet (6.2 mg/kg).After exposure to fluoride for 10 months,all rats were put to death,dental fluorosis of the rats was examined and the fluoride content in bone was determined by fluoride-ion selective electrode;the activity of superoxide dismutase (SOD) was determined by the xanthine oxidase method and glutathione peroxidase (GSH-Px) by the colorimetric method,the level of malonaldehyde (MDA) by the glucosinolates barbituric acid fluorescence method and the levels of OH-,H2O2 and O-·2 in rat serum and/or brain were detected by the colorimetric method.Results In the rats of the fluoride group,fluoride content in bone was higher as compared to control [bone fluoride:(211.07 ± 48.52) vs.(33.40 ± 9.26) mg/kg,P ＜ 0.01].The activities of SOD and GSH-Px in rat brains of the fluoride group [(20.10 ± 1.98) kU/g,(28.70 ± 19.35) kU/L] were significantly lower than those of controls [(37.05 ± 3.13) kU/g,(59.63 ± 12.83) kU/L,all P ＜ 0.01],the activity of SOD in VitE antagonistic group [(26.27 ± 1.74) kU/g] was higher than the fluoride group (P ＜ 0.01);the activities of SOD and GSH-Px in rat serum of the fluoride group were significantly decreased [(11.55 ± 1.75) kU/L,(79.50 ± 19.18) U/L] than those of controls [(20.79 ± 2.43) kU/L,(170.00 ± 14.68) U/L,all P ＜ 0.01],the activity of SOD in VitE antagonistic group [(17.23 ± 0.68) kU/L] was higher than the fluoride group (P ＜ 0.01).The levels of MDA in rat brain and serum of the fluoride group [(8.84 ± 0.69) μmol/L,(1.46 ± 0.11) nmol/L] were significantly higher than those of controls [(1.27 ± 0.74) μmol/L,(0.83 ± 0.10) nmol/L,all P＜ 0.01],VitE antagonistic groups [(4.51 ± 1.13) μmol/L,(1.29 ± 0.02) nmol/L] were lower than the fluoride groups (all P ＜ 0.01).The levels of OH-,H2O2 and O-·2 in rat brains of the fluoride group [(24.24 ± 1.80) kU/g,(15.28 ± 2.97) mmol/L,(6.53 ± 0.96) U/g] were significantly higher than those of controls [(11.44 ± 1.63) kU/g,(5.28 ± 1.20) mmol/L、,(2.93 ± 0.42) U/g,all P ＜ 0.01],VitE antagonistic groups [(14.43 ± 0.76) kU/g,(8.09 ± 0.55) mmol/L,(4.41 ± 0.49) U/g] were lower than the fluoride groups (all P ＜ 0.01).Conclusions Elevated levels of oxidative stress are found in brain and serum of the rats with chronic fluorosis,which may be a main mechanism of brain injury.VitE may play an important antagonistic role in oxidative damage induced by fluoride toxicity.

Objective To investigate the changes of expression of quinone oxidoreductase-1 (NQO1) and heme oxygenase-1 (HO1) at protein and mRNA levels in the brains of rats with chronic fluorosis,effect on NF-E2-related factor 2/antioxidant response element (Nrf2/ARE) signal pathway,and reveal the mechanism of brain damage induced by the disease.Methods SD rats were randomly divided to two groups of 30 each (half females and half males),e.g.the normal control group (drinking water containing less than 0.5 mg/L of fluorine) and fluoride exposed group (drinking water containing 50.0 mg/L sodium fluoride,NaF).All rats were examined at the 10 months after feeding NaF.Dental fluorosis of rats was observed; the fluoride contents in urine and bone were detected by fluoride-ion selective electrode; protein and mRNA levels of NQO1 and HO1 in brains were detected by Western blotting and quantitative real timePCR,respectively.Results The dental fluorosis was observed,and contents of fluoride in urine [(2.16 ± 0.39)mg/L] and bone [(211.07 ± 40.52)mg/kg] determined in the rats of the fluoride group were higher than those of controls [(1.70 ± 0.24)mg/L,(34.67 ± 11.15)mg/kg,t =2.11,3.23,all P＜ 0.05].The protein expression levels of NQO1 and HO1 in the brains of rats with fluorosis [(255.2 ± 14.3) ％ and (187.2 ± 11.1)％] were also higher than those of controls [(100.0 ± 12.2)％,(100.0 t 8.9)％,t =2.14,2.05,all P ＜ 0.05]; the mRNA levels of NQO1 and HO1 [(210.2 ± 9.8)％ and (154.5 ± 7.4) ％] in the rats of the fluoride group were increased as compared to those of controls [(100.0 ± 10.4)％,(100.0 ± 9.7)％,t =2.33,2.75,all P ＜ 0.05].Conclusion The expression of NQO1 and HO1 in brain of rats with fluorosis are significantly increased,which may be due to the activation of Nrf2/ARE signal pathway and may play a compensative role in enhancing antioxidant ability.

Objective To detect the expression of muscarinic acetylcholine receptors (mAChRs) at mRNA and protein levels in the brain of rats with chronic fluorosis and to reveal the role of the receptors in brain injury and learning and memory deficits.Methods Sixty healthy SD rats were divided into two groups (30 rats in each group,half males and half females) by random number table method according to body weight.In the control group,the rats were fed with drinking water containing no more than 0.5 mg/L fluoride; in the fluoride group,the rats were fed with high doses of sodium fluoride in drinking water (50.0 mg/L).Each group was fed with normal diet (6.2 mg/kg).After being exposed to fluoride for 10 months,behavioral performance was measured with Morris water maze,including the escape latency time and the numbers of crossing platforms.After being sacrificed,rat brains were taken and weighted.M1 and M3 subunits at mRNA and protein levels were detected by real-time PCR and Western blotting,respectively; the correlation between protein levels of the receptor subunits and the ability of learning and memory was analyzed.Results In fluoride group,the escape latency time [(21.68 ± 2.90)s] was significantly longer than that of control group [(6.14 ± 1.71)s,t =0.289,P ＜ 0.05]; and the number of crossing platforms [(11.62 ± 2.26)times] was significantly decreased as compared to that of control group [(19.00 ± 3.69)times,t =0.352,P ＜ 0.05].Furthermore,the mRNA expression [(17.07 ± 6.89)％,(12.25 ± 5.03)％] and the protein levels [(71.07 ± 6.89)％,(32.25 ± 4.66)％] of M1 and M3 receptors in rat brains were significantly lower as compared to those of controls [(100.00 ± 3.00)％,(100.00 ± 2.15)％ and (100.00 ± 9.01)％,(100.00 ± 10.33)％,t =0.210,0.157,0.095,0.296,all P ＜ 0.05].The escape latency and M1,M3 protein levels were negatively correlated (r =-0.683,-0.700,all P ＜0.05),and the number of space exploration and M1,M3 protein levels were positively correlated (r =0.867,0.837,all P ＜ 0.05).Conclusion Declined expression of mAChRs at mRNA and protein levels have been detected in the brain of rats with chronic fluorosis,which may be one of the main mechanism concerning the learning and memory deficits.

Objective To observe the changes of learning and memory ability and detect the expression of muscarinic acetylcholine receptor (mAChR,M receptor) at mRNA and protein levels in brains of offspring rats with chronic fluorosis,and to reveal the mechanism of the central nervous system damage.Methods Forty healthy SD rats were divided into two groups (20 in each group,half male and half female) by random number table according to body weight.In the control group,the rats were fed with drinking water containing no more than 0.5 mg/L fluoride;in the fluoride group,the rats were fed with high dose of sodium fluoride in drinking water (50.0 mg/L fluoride).Each group was fed with normal diet (6.2 mg/kg fluoride).After exposed to fluoride for 6 months,each group was mated,and brains of newborn offspring rats aged 1,7,14,21 and 28 days were taken,and expression of M1 and M3 receptors at mRNA and protein levels were analyzed by real-time PCR and Western blotting,respectively.Behavioral changes were measured by Morris water maze test at the 28 days after birth.The correlations between protein levels of M1 and M3 receptors and the ability of learning and memory at the 28 days after birth were analyzed.Results In fluoride group of the offspring rats at 28 days after birth,the escape latency time [(35.61 ± 9.00)s] was significantly longer than that in control group [(8.46 ± 3.09)s,P ＜ 0.05],while the numbers of crossing the platforms and the time of staying the platforms [(5.00 ± 2.90)times,(16.66 ± 2.79)s] were significantly decreased as compared to that of control group [(15.17 ± 3.66)times,(22.51 ± 2.66)s,all P ＜ 0.05].Furthermore,the mRNA expression and the protein levels of M1 and M3 receptors in rat brain at each phase in fluoride group were significantly decreased as compared to controls [M1 mRNA in control groups:(100.00 ± 11.00)％,(100.00 ± 17.57)％,(100.00 ± 9.14)％,(100.00 ± 7.52)％,(100.00 ± 15.78)％;M1 mRNA in fluoride groups:(20.47 ± 8.07)％,(14.00 ± 4.53)％,(16.57 ± 7.62)％,(25.56 ± 12.78)％,(16.27 ± 4.82)％;M3 mRNA in control groups:(100.00 ± 16.30)％,(100.00 ± 14.40)％,(100.00 ± 7.20)％,(100.00 ± 14.31)％,(100.00 ± 13.16)％;M3 mRNA in fluoride groups:(29.17 ± 8.00)％,(12.77 ± 2.22)％,(26.40 ± 7.20)％,(15.74 ± 3.55)％,(28.14 ± 7.53)％;M1 protein in control groups:(100.00 ± 2.24)％,(100.00 ± 8.30)％,(100.00 ± 4.61)％,(100.00 ± 13.78)％,(100.00 ± 11.72)％;M1 protein in fluoride groups:(20.47 ± 8.07)％,(14.00 ± 4.53)％,(16.57 ± 7.62)％,(25.56 ± 12.78)％,(16.27 ± 4.82)％;M3 protein in control groups:(100.00 ± 16.30)％,(100.00 ± 14.40)％,(100.00 ± 7.20)％,(100.00 ± 14.31)％,(100.00 ± 13.16)％;M3 protein in fluoride groups:(29.17 ± 8.00)％,(12.77 ± 2.22)％,(26.40 ± 7.20)％,(15.74 ± 3.55)％,(28.14 ± 7.53)％,P ＜ 0.05 or ＜ 0.01].The escape latency and M1,M3 receptors protein levels were negatively correlated (r =-0.827,-0.742,all P ＜ 0.05),and the number of space exploration and M1,M3 receptors protein levels were positively correlated (r =0.843,0.806,all P ＜ 0.05).Conclusion The expression of M receptor at protein and mRNA levels in offspring rat brains of different ages are significantly declined,which might be one of the mechanism of the decreased ability of learning and memory induced by fluoride toxicity.

Objective To observe the expression of NF-E2-related factor 2 (Nrf2) and Kelch-like ECH-associated protein-1 (Keap1) at mRNA and protein levels in the brain of rats with chronic fluorosis and to reveal the mechanism of brain damage induced by the factors.Methods Ninety SD rats were divided into three groups (30 rats in each group,half male half female) by the random number table method according to body weight.The control group was fed with normal tap-water,high-fluoride group with 50 mg/L fluoride (NaF) added in drinking water;and the high-fluoride plus vitamin E (Vit E) group with the same dose of NaF as the high-fluoride group,but giving 5 mg/kg Vit E by intragastric administration.The experiment period was 10 months.The fluoride contents in urine and bone were detected by fluoride-ion selective electrode.The protein and mRNA levels of Nrf2 and Keap1 in brain of rats were detected by Western blotting and quantitative real time PCR,respectively.The activity of superoxid dismutas (SOD) and the content of lipid peroxidation (MDA) were measured by biochemistry methods.Results Dental fluorosis was detected in high-fluoride group.The differences of fluoride contents in urine and bone were statistically significant between groups (F =6.87,182.87,all P ＜ 0.05).The urine fluoride [(2.16 ± 0.39),(2.07 ± 0.15)mg/L] and bone fluoride [(211.07 ± 40.52),(82.09 ± 28.60)mg/kg] in the high-fluoride and high-fluoride plus Vit E groups were higher than those of the control group [(1.70 ± 0.24)mg/L,(34.67 ± 11.15)mg/kg,all P ＜ 0.05].The differences of mRNA and protein levels of Nrf2 and Keap1 in brains of rats,SOD activity,MDA content were statistically significant between groups (F =654.33,432.87,447.45,398.88,68.34,68.34,all P ＜ 0.05).The mRNA levels of Nrf2 and Keap1 [(320.18 ± 6.83)％,(267.37 t 7.22)％] were increased compared to those of control group [(100.00 ±3.00)％,(100.00 ± 2.75)％,all P ＜ 0.05];the protein levels of Nrf2 and Keap1 [(283.28 ± 6.89)％,(196.32 ± 5.57)％]were also raised compared with those of control group [(100.00 ± 8.71)％,(100.00 ± 9.23)％,all P ＜ 0.05];the activity of SOD [(22.10 ± 2.10)μ,mol/kg] in brain of rats in fluoride group was significantly lower and the content of MDA [(8.63 ± 0.77) μmol/kg] was higher than those of control group [(35.05 ± 2.98),(1.25 ± 0.64) μmol/kg,all P ＜ 0.05].In high-fluoride plus Vit E group,the mRNA levels of Nrf2 and Keap1 [(243.23 ± 5.34)％,(180.54 ± 4.48)％] and the protein levels of Nrf2 and Keap1 [(210.88 ± 4.79)％,(150.68 ± 6.49)％] were lower than those of high-fluoride group (all P ＜ 0.05);the activity of SOD [(26.33 ± 1.84)μmol/kg] was significantly higher and the content of MDA [(4.88 ± 0.84)μmol/kg] was lower than that of high-fluoride group (all P ＜ 0.05).Correlation analysis showed that increased levels of Nrf2 and Keap1 were positively correlated with the level of MDA in rat brain (r =0.69,0.33,all P ＜ 0.05),but negatively correlated with the activity of SOD (r =-0.78,-0.80,all P ＜0.05).Conclusion The expression of Nrf2 and Keap1 in brain of rats with fluorosis is significantly increased and positively correlated with the content of fluoride in bone and the level of oxidative stress,whereas vit E can attenuate these abnormal changes induced by fluoride,which might be one of the mechanisms of brain damage of the disease.

Objective To study the effect of chronic fluorosis on neurobehavioral development,the ability of learning and memory in offspring of rats,and the antagonistic effect of antioxidant Vitamin E (Vit E).Methods According to body weight,forty-five 1-month-old Sprague-Dawley(SD) rats of 30 females and 15 males were divided into three groups by random number table,including control group,fluorosis and Vit E antagonistic groups (15 rats with 10 females and 5 males in every group).Five months after establishing the animal model with chronic fluorosis and Vit E gavage treatments (fluoride ＜ 1,50,50 mg/L,respectively; Vit E 0,0,50 mg/kg,respectively),the rats were mated in 2:1 proportion of female:male in different groups,respectively.The fertility index of female and neurobehavioral development indicators in offspring were observed.Spatial learning and memory of offspring after birth for 30 d were evaluated by using Morris Water Maze test.Results The female fertility index exposed to fluorosis and Vit E were not significantly different as compared to those of control group(all P ＞ 0.05) ; in contrast to control groups[(6.4 + 1.8),(15.1 + 1.7)d],the time that completed the surface righting reflex [(8.1 + 1.4),(7.9 + 1.5)d] and the air righting reflex [(17.7 + 2.3),(17.2 + 1.8)d] were delayed in the offspring in fluorosis and Vit E antagonistic groups(all P ＜ 0.05) ; the completed avoidance precipice reflex and the auditory consternation did not changed significantly(all P ＞ 0.05); In addition,compared with control and Vit E antagonistic groups [(31.74 + 17.78),(34.97 ± 15.44)s,(4.50 ± 2.51),(3.80 ± 1.87)time],the average escape latency and exploration platform at five days were decreased in 30 d offspring of fluorosis group[(42.03 + 16.45)s,(2.20 + 1.62)time].Conclusion Neurobehavioral development as well as learning and memory ability in rat offspring are impaired by long-term exposure to fluoride and Vit E has exhibited an antagonistic effect to the toxicities of fluoride.

Objective To study the expression of silent information regulator (SIRT) in brains of rats with chronic fluorosis and reveal the correlation between SIRT1 and the ability of learning and memory of rats.Methods Sixty SD rats were selected and their body weight was (100 ± 20) g,according to the body mass of the rats,random number table method was used to divide rats into control group,low and high fluoride groups,experimental period was 3 and 6 months (ten rats in each experimental period,half males and half females).In control group,the rats were fed with drinking water containing no more than 0.5 mg/L fluoride;the rats in low and high fluoride groups were fed drinking water containing 5.0 and 50.0 mg/L fluoride,respectively.All of rats were fed the same standard food containing no more than 0.6 mg/kg fluoride.Three degree method was used to check the formation of dental fluorosis.Rat urinary fluoride was determined via the fluoride electrode method;Morris water maze method was used to detect the ability of learning and memory of rats (the escape latency time,the number of crossing the platform and stay time in platform quadrant);the protein and mRNA expression levels of SIRT1 were detected by Western blotting and Real-time PCR,respectively.Results In the experimental period of 3 and 6 months,no dental fluorosis was observed of rats in control group,but there were different degrees of dental fluorosis in low and high fluoride groups,especially in high fluoride group.The urinary fluorine contents [(1.60 ± 0.09),(1.91 ± 0.16) mg/L;(1.94 ± 0.19),(2.31 ± 0.18) mg/L] of rats fed with low and high fluoride for 3 or 6 months were significantly higher than those in control group [(1.08 ± 0.15),(1.09 ± 0.17) mg/L,P ＜ 0.05].The escape latency time [(18.36 ± 2.80) s] of rats in the high fluoride group at the end of 3 months was higher than that of control group [(6.68 ± 3.01) s,P ＜ 0.05],the number of stay time in platform quadrant [(12.91 ± 3.25) s] was lower than that of control group [(19.97 ± 3.30) s,P ＜ 0.05].The escape latency time [(15.46 ± 4.56),(28.16 ± 4.00) s] of rats in low and high fluoride groups at the end of 6 months were all higher than that of control group [(6.62 ± 2.31) s,P ＜ 0.05];the number of crossing the platform and stay time in platform quadrant [(2.25 ± 1.71) times,(12.73 ± 3.55) s;(1.40 ± 1.15) times,(9.26 ± 1.72) s] of these rats were significantly lower than those of the control group [(4.00 ± 1.58) times,(19.53 ± 4.36) s,P ＜ 0.05].The expression levels of protein [(73.84 ± 9.68)％,(73.23 ± 4.51)％;(53.30 ± 17.63)％,(54.69 ± 18.71)％] and mRNA [(70.33 ± 4.89)％,(66.27 ± 3.38)％;(37.72 ± 4.89)％,(44.15 ± 1.74)％] of SIRT1 in the hippocampus and cortex of rats fed with high fluoride for 3 or 6 months were significantly lower than those in control group [(100.00 ± 13.51)％,(100.00 ± 13.60)％;(100.00 ± 15.37)％,(100.00 ± 12.19)％;(100.00 ± 2.65)％,(100.00 ± 4.34)％;(100.00 ± 3.40)％,(100.00 ± 4.52)％,P ＜ 0.05].Whereas,the decreased expression levels of protein [(77.65 ± 14.51)％,(71.51 ± 8.27)％] and mRNA [(57.78 ± 1.96)％,(63.76 ± 2.16)％] of SIRT1 in the hippocampus and cortex of rats in the low fluoride group were only observed at the end of 6 month of experiment (P ＜ 0.05).The expression of protein of SIRT1 in the hippocampus and cortex of rats in 3 or 6 months was negatively correlated with the escape latency time of rats (r=-0.598 5,-0.493 2;-0.782 6,-0.777 3,P＜ 0.05),and it was positively correlated with the number of crossing the platform (r =0.547 7,0.523 3;0.720 5,0.715 4,P ＜ 0.05).Conclusion The decrease of the ability of learning and memory in rats with chronic fluorosis may be related to the decreased expression of SIRT1 influenced by chronic fluorosis.

Objective To detect the expression of peroxisome proliferator-activated receptor γ (PPARγ) in the brains of rats with chronic fluorosis and elucidate the relationship between PPARγand oxidative stress in chronic fluorosis.Methods According to body weight (100-120 g),sixty healthy SD rats were divided into control group (less than 0.5 mg/L fluoride in drinking water),low fluoride group (5.0 mg/L fluoride in drinking water,prepared by NaF),and high fluoride group (50.0 mg/L fluoride in drinking water) via the random number table method,20 rats in each group (half male and half female).The experiment periods were 3 and 6 months,respectively.Then 24-hour urine samples of rats were collected from each group,all rats were put to death and brain tissues were taken.The fluoride contents in urine and brain tissue were measured with fluoride-ion selective electrode;the levels of PPARγ protein and mRNA in the cortex and hippocampus were determined by Western blotting and Real-time fluorescence quantitative PCR,respectively;and the activities of superoxide dismutase (SOD) and level of malondialdehyde (MDA) in serum were detected by xanthine oxidase method and thiobarbituric acid method;the correlation between PPARγ protein expression and oxidative stress was analyzed.Results After 3 and 6 months of treatment,the contents of fluoride in urine and brain in low fluoride group [(1.57 ± 0.18) mg/L,(3.43 ± 0.70) μg/g;(1.79 ± 0.17) mg/L,(7.40 ± 1.21) μg/g] were higher than those of control group [(1.11 ± 0.17) mg/L,(2.39 ± 0.50) μg/g;(1.02 ± 0.15) mg/L,(2.87 ± 0.82) μg/g,P ＜ 0.05],and the values in high fluoride group [(1.91 ± 0.23) mg/L,(6.70 ± 0.87) μg/g;(2.44 ± 0.51) mg/L,(12.10 ± 1.30) μg/g] were significantly higher than those in low fluoride group (P ＜ 0.05).In high fluoride group after 3 months of treatment,the expression of PPARγprotein [(79.00 ± 3.46)％,(80.35 ± 2.50)％] and mRNA [(79.11 ± 11.18)％,(82.10 ± 9.94)％] in hippocampus and cortex of rat brains were significantly lower than those of low fluoride group [(104.01 ± 5.77)％,(101.17 ± 6.35)％;(112.88 ± 22.15)％,(101.14 ± 8.60)％,P＜ 0.05];the expression of PPARγprotein [(64.32 ± 10.43)％,(60.20 ± 10.92)％] and mRNA [(41.03 ± 9.93)％,(52.25 ± 11.48)％] in the same brain regions of the rats after 6 months of treatment in high fluoride group were significantly lower than those of control group [(99.99 ± 11.19)％,(100.00 ± 11.30)％;(100.00 ± 10.00)％,(100.00 ± 9.00)％] and low fluoride group [(73.88 ± 3.36)％,(81.50 ± 14.90)％;(76.02 ± 8.65)％,(73.36 ± 7.43)％,P ＜ 0.05].The activities of SOD in serum in low and high fluoride groups after 6 month treatment [(37.94 ± 1.92),(35.54 ± 2.53) U/ml] were significantly lower than that of control group [(41.24 ± 0.66) U/ml,P ＜ 0.05],and the value in high fluoride group was lower than that in low fluoride group (P ＜ 0.05);serum MDA contents in high fluoride group after 3 and 6 month treatment [(8.29 ± 1.49),(11.63 ± 1.04) nmol/mg pr] were higher than those in low fluoride group [(6.39 ± 0.69),(7.50 ± 1.64) nmol/mg pr] and control group [(5.02 ± 0.71),(5.87 ± 1.03) nmol/mg pr,P ＜ 0.05].The correlation analysis results showed the levels of PPARγprotein in hippocampus and cortex of rats were negatively correlated with fluoride contents in brain tissues (3 month:r=-0.769,-0.793;6 month:r =-0.832,-0.870;P ＜ 0.05),positively correlated with SOD activities (3 month:r =0.550,0.826;6 month:r =0.822,0.896;P ＜ 0.05) and negatively correlated with MDA contents (3 month:r =-0.703,-0.609,6 month:r =-0.792,-0.657;P ＜ 0.05) in serum.Conclusions Declined expression of PPARγat protein and mRNA levels has been detected in brains of rats with chronic fluorosis,which might be related to the increase of oxidative stress.PPARγ may be involved in the occurrence of chronic fluorosis.