Antlers as biomonitors of environmental pollution by lead and fluoride: A review

Antlers are periodically cast and re-grown cranial appendages of deer. Both endochondral and intramembranous ossification are involved in the formation of antler bone. After velvet shedding, antlers are completely bony structures which are referred to as hard antlers. Growing antlers accumulate substances with an affinity to mineralized tissues. Among these substances are lead and fluoride. Due to the seasonally limited life span of antlers, the concentrations of lead and fluoride in hard antlers reflect uptake by the forming bone during a defined, species-specific period of some months. Antlers can thus be viewed as naturally standardized environmental samples that are well suited as biomonitors of environmental pollution by bone-seeking contaminants. Because hard antlers are collected by hunters as trophies and kept in private or public collections, material for study can be obtained rather easily. So far, lead concentrations in hard antlers have been reported only from Europe, whereas data for fluoride are available from both Europe and North America. Some studies compared contaminant concentrations in antlers from different regions, while others analyzed time-trends in contaminant levels in antlers from a single region. Using the latter approach, a pronounced drop of lead concentrations during recent decades has been reported for antlers from various European countries. This indicates a marked decline of environmental lead levels that can be attributed mainly to the phase-out of leaded gasoline and, in addition, to a reduction of lead emissions also from stationary sources. In Germany, a corresponding drop has also been recorded for fluoride concentrations in antlers, which is attributed to a decline of fluoride emissions from stationary sources due to improved emission-control measures. There is some evidence that exposure to higher levels of fluoride may lead to an impaired antler mineralization. Using antlers as biomonitors has been shown to be an efficient method for assessing environmental pollution by lead and fluoride at low cost. Further studies using this now well established approach are therefore encouraged.This revised version was published online in May 2005. The following errors were eliminated:1. In the chapter Antler growth and mineralization in the last sentence of the first paragraph a slash was missing between the words reindeer and caribou; 2. In the second paragraph of the same chapter the word reiudees was corrected to reindeer; 3. In the chapter Accumulation of lead and fluoride in growing antlers the word lightest was corrected to highest.     

Effect of Long-term Fluoride Exposure on Lipid Peroxidation and Histology of Testes in First- and Second-generation Rats

This experiment was designed to investigate the histological and lipid peroxidation effects of chronic fluorosis on testes tissues of first- and second-generation rats. Sixteen virgin female Wistar rats were mated with eight males (2:1) for approximately 12 h to obtain first-generation rats. Pregnant rats were divided into two groups: controls and fluoride-given group, each of which containing five rats. Pregnant rats in the fluoride-given group were exposed to a total dose of 30 mg/l sodium fluoride (NaF) in commercial drinking water containing 0.07 mg/l of NaF throughout the gestation and lactation periods. After the lactation period, the young animals (first generation, F1) were exposed to the same dose of NaF in drinking water for 4 months. At the end of the 4 months of experimental period, nine randomly chosen male rats (F1) were killed and testes tissues were taken for histopathological and biochemical analysis. The remaining eight female rats were mated with four males (2:1) for approximately 12 h to obtain second-generation rats. Six female were identified as pregnant and treated with similarly throughout the gestation and the lactation periods. After the lactation period, the young male animals (second generation, F2) were also treated in the same way for 4 months. At the end of the 4 months of experimental period, nine randomly chosen male rats (F2) were killed and testes tissues were collected for histopathological and biochemical analysis. The rats in the control group were applied the same procedure without NaF administration. In biochemical analysis of the fluoride given F1 and F2 rats, it has been found that plasma fluoride levels and testes thiobarbituric acid reactive substance levels were significantly increased when compared with the control group. In F1 and F2 rats, similar histopathological changes were observed. In both groups, spermatogenesis was severely reduced. Spermatogonia and primary spermatocytes were normal, however, there was a widespread degeneration in other spermatogenic cell lines of the seminiferous epithelium. The histological structures of the Sertoli and interstitial Leydig cells were normally observed. It is concluded that chronic fluorosis exposure leads to a remarkable destruction in testes tissues of F1 and F2 rats via lipid peroxidation. The study was carried out in Suleyman Demirel University.     

Fluoride-induced oxidative stress of osteoblasts and protective effects of baicalein against fluoride toxicity

The key role of osteoblasts in skeletal fluorosis makes the exploration of the possible mechanisms of the fluoride-induced oxidative stress of osteoblasts of great importance. In this article, the in vitro effects of fluoride on the oxidative stress of osteoblasts are presented. To study the inhibitory effect of baicalein on the oxidative stress of osteoblasts, the antioxidant activity of baicalein was evaluated for osteoblasts exposed to fluoride. Calvarial osteoblasts were prepared and respectively treated with α-MEM (5% calf serum) containing 0.5, 1.0, 2.0, 4.0, 8.0, 12.0, and 20.0 mg/L fluoride for 48 h. Baicalein (10 μmol/L) was added to the cells for the same period of time as that of the fluoride treatment. Low concentrations of fluoride (0.5–2 mg F-/L) stimulated the mitochondrial activity of osteoblasts and produced significant reaction to the oxidative stress, whereas high concentrations of fluoride (≽12 mg F-/L) inhibited cell proliferation and the activity of antioxidant enzymes. This suggests that the oxidative stress induced by low concentrations of fluoride might mediate or participate in the process of fluoride inducing the proliferation of osteoblasts. The viability of osteoblasts in the high concentrations of fluoride with the addition of 10 μmol/L baicalein (≽12 mg /L) was higher than those of the same level of fluoride-treated groups without the addition of baicalein. The protective role of baicalein is obvious as an inhibitor of lipid peroxidation against the damage induced by the high concentration of fluoride.     

Gluma 脱敏剂对牙本质过敏症疗效的Meta 分析

目的:运用Meta分析的方法,科学评价Gluma脱敏剂对牙本质过敏症的临床疗效,指导临床治疗。方法:检索中国生物医学文献数据库和Ovid medline数据库中关于Gluma脱敏剂和75%氟化钠甘油对牙本质过敏症治疗研究的文献,通过纳入和排除标准筛选文献,评价文献质量,提取数据,并进行Meta分析。结果:7个试验研究共1898颗牙齿纳入分析,合并RR值为1.51,95%可信区间为[1.44～1.59],合并效应检验值Z=15.68,P<0.00001。结论:表明Gluma脱敏剂治疗牙本质过敏症效果优于75%氟化钠甘油。     

The Influence of Fluoride Ions upon Selected Enzymes of Protein Metabolism in Blood Plasma of Rabbits with Hypercholesterolemia

Three-month studies were performed on 18 adult rabbits of New Zealand breed divided into three groups, with six animals in each: a control group on standard diet, a cholesterol group receiving 500 mg of cholesterol/100 g of feed per rabbit per 24 h (CH group), and a cholesterol + fluorine group (CH + F group) receiving 500 mg of cholesterol/100 g of feed per rabbit per 24 h and 3 mg of F(-)/kg of body weight per 24 h. The conducted studies proved that cholesterol in the applied dosage (500 mg cholesterol per rabbit per 24 h) has an atherogenic action. Fluoride ions administered together with a 500-mg cholesterol atherogenic diet inhibit the atheromatosic changes in the aorta. The concentration of plasma cholesterol was elevated in both study groups when compared to the control group but decreased in the CH + F group when compare to the CH group. The influence of fluoride ions has been examined upon the activity of alanine aminotransferase, aspartate aminotransferase, and glutamate dehydrogenase (GLDH) in the plasma in the liver of rabbits in the course of experimental hypercholesterolemia. Increase in the activity of study enzymes has been observed in the blood plasma, which may be due to damage occurring to hepatocytes of the animals examined (a statistically significant increase in the activity of GLDH in the plasma). In the liver, the inhibition of activity for all examined enzymes has been observed in the group of rabbits with hypercholesterolemia, which testifies the disturbances in protein metabolism in examined animals. The addition of sodium fluoride to the diet rich in cholesterol results in "removing the block" on those activities, which increase. We suppose that the permeability of the hepatocyte membrane was elevated, so the activities of examined enzymes increased in the plasma ("escape" to plasma). On the one hand, fluoride ions result in probable lesion of hepatocytes membranes; on the other hand, they inhibit the atheromatosic changes in the aorta.     

Attenuation of fluoride-induced hepatorenal oxidative stress by ferulic acid in vivo: An approach with in-silico analysis and interaction informatics of ferulic acid

BackgroundChronic fluoride toxicity induces oxidative strain and lipid peroxidation and imparts deleterious effects on human metabolic organs.AimThe present study aimed to expose the defensive impact of ferulic acid against sodium fluoride (NaF) induced hepatorenal dysfunction at the biochemical and antioxidative systems.MethodsIn-vivo. Rats were arbitrarily separated into five groups as control, sodium fluoride-treated (200 ppm kg ⁻¹), vitamin C -as a positive control, and FA co-administered groups with 10 mg kg ⁻¹ and 20 mg kg ⁻¹ body weight for 56 days. In the present investigation, we measured antioxidant enzymes, superoxide dismutase, catalase, and lactate dehydrogenase by electrozymographic and spectrophotometric methods. Biochemical assessment of TBARS, conjugated diene, and different serum biomarkers was done for liver and kidney functionality tests.In-silico. An in-silico study was conducted through a molecular docking experiment to evaluate the binding potentiality of FA by employing AutoDock Vina [version 1.5.6] to overcome the abnormality in the activities of catalase, and superoxide dismutase in NaF promoted toxicity of hepatorenal system.In-vitro. An in vitro biochemical experiment was conducted to support the in-silico study.ResultsSuperoxide dismutase and catalase were decreased in the intoxicated rat. Ferulic acid (FA) as an antioxidant remarkably defended the NaF-mediated deterioration of the antioxidative status in the hepatorenal system, lowering lipid peroxidation products, malondialdehyde, and conjugated diene. Serum biomarkers, ALT, AST, ALP, urea, and creatinine increased in the intoxicated group than in control. Ferulic acid significantly neutralized the ill effects of NaF on serum lipid profile. In-silico analysis hypothesized the strong interaction of FA with the active side of catalase and superoxide dismutase that prevented the binding of NaF at the active site of these mentioned enzymes and this was further validated by in-vitro assay.ConclusionHowever, FA modulates free radical generation and protected these metabolic organs against sodium fluoride-induced injury.     

Contribution of G Protein Activation to Fluoride Stimulation of Phosphoinositide Hydrolysis in Human Neuroblastoma Cells

Abstract: To examine the possibility that NaF enhances phosphoinositide-specific phospholipase C (PIC) activity in neural tissues by a mechanism independent of a guanine nucleotide binding protein (G_p), we have evaluated the contribution of G_p activation to NaF-stimulated phosphoinositide hydrolysis in human SK-N-SH neuroblastoma cells. Addition of NaF to intact cells resulted in an increase in the release of inositol phosphates (450% of control values; EC₅₀ of ～ 8 mM). Inclusion of U-73122, an aminosteroid inhibitor of guanine nucleotide-regulated PIC activity in these cells, resulted in a dose-dependent inhibition of NaF-stimulated inositol lipid hydrolysis (IC₅₀ of ～ 3.5 μM). When added to digitonin-permeabilized cells, NaF or guanosine-5′-O-thiotriphosphate (GTPγS) resulted in a three- and sevenfold enhancement, respectively, of inositol phosphate release. In the combined presence of optimal concentrations of NaF and GTPγS, inositol phosphate release was less than additive, indicative of a common site of action. Inclusion of 2–5 mM concentrations of guanosine-5′-O-(2-thiodiphosphate) (GDPβS) fully blocked phosphoinositide hydrolysis elicited by GTPγS, whereas that induced by NaF was partially inhibited (65%). However, preincubation of the cells with GDPβS resulted in a greater reduction in the ability of NaF to stimulate inositol phosphate release (87% inhibition). Both GTPγS and NaF-stimulated inositol phosphate release were inhibited by inclusion of 10 μM U-73122 (54–71%). The presence of either NaF or GTPγS also resulted in a marked lowering of the Ca²⁺ requirement for activation of PIC in permeabilized cells. These results indicate that in SK-N-SH cells, little evidence exists for direct stimulation of PIC by NaF and that the majority of inositol phosphate release that occurs in the presence of NaF can be attributed to activation of G_p.     

One-electron reduction of halothane and formation of halide ions in aqueous solutions

Formation of Br^? and, under certain conditions also F^? ions has been observed in the radiation chemically induced one-electron reduction of the anesthetic halothane (2-bromo-2-chloro-1,1,1-trifluoroethane) in aqueous solutions. The initial step is the release of Br^? and formation of the 2-chloro-1,1,1-trifluoroethyl radical. The latter can react via competing pathways including H-atom abstraction, addition of molecular oxygen and further reduction by an antioxidant. All of these three competitive routes lead to different product patterns. High yields of F^? ions are observed under anaerobic conditions in the presence of antioxidants such as ascorbate, propylgallate, etc. The fluoride elimination is strongly pH-dependent and seems to occur in various steps after initiation through reduction of the (CF₃CHCl) radical. The implication for biochemical studies on the metabolism of halothane under different oxygen concentrations is discussed.     

Bethanechol and a G-protein activator,NaF/AlCl3, induce secretory response in Paneth cells of mouse intestine

Summary Paneth cells located at the bottom of intestinal crypts may play a role in controlling the bacterial milieu of the intestine. Using morphometry to clarify the secretory mechanism of the Paneth cells, we studied the ultrastructural changes in mouse Paneth cells produced following intra-arterial perfusion with Hanks' balanced salt solution containing a cholinergic muscarinic secretagogue (bethanechol), a neuroblocking agent (tetrodotoxin), or a G-protein activator (NAF/AlCl₃). Bethanechol (2×10^-4 mol/l) induced Paneth-cell secretion. Many Paneth cells massively exocytosed their secretory material into the crypt lumen; the enhanced secretion caused degranulation and vacuole formation. However, tetrodotoxin (2×10^-6 mol/l) did not prevent the bethanechol-enhanced secretion by the Paneth cells. NaF (1×10^-2 mol/l) and AlCl₃ (1×10^-5 mol/l) induced massive exocytosis of the Paneth cells; the exocytotic figures were similar to those observed in mice stimulated by bethanechol. G-protein activation was followed by a sequence of intracellular events, resulting in exocytosis.     

Hymenolepis diminuta: Partial characterization of membrane-bound nucleotidase activities (ATPase and 5′-nucleotidase) in the isolated brush border membrane

Adenosine triphosphatase (ATPase; EC 3.6.1.3) and 5′-nucleotidase (5′-NTase; EC 3.1.3.5) activities of the isolated brush border membrane of Hymenolepis diminuta have been studied. The pH optimum for ATPase activity is 7.4, and divalent cations are necessary for maximum activity; no Na⁺-K⁺ activated ATPase is present in the isolated brush border membrane. ATPase activity is inhibited by molybdate and phosphorylated monosaccharides, but not by N-ethylmaleimide (NEM), p-chloromercuribenzoate (pCMB), or fluoride. The pH optimum for 5′-NTase activity is 9.6–10.2, and divalent cations are necessary for maximum activity. 5′-NTase activity is inhibited by molybdate at pH 9.6 and 7.4, and activated by NEM and pCMB and pH 9.6 and 7.4, respectively; fluoride has no effect on 5′-NTase activity. Solubilization of the brush border membrane fraction in 1% sodium dodecyl sulfate has no inhibitory action on either enzyme activity.