Fluoride bioaccumulation in the signal crayfish Pacifastacus leniusculus (Dana) as suitable bioindicator of fluoride pollution in freshwater ecosystems

Fluoride bioaccumulation in the signal crayfish Pacifastacus leniusculus (Dana) was examined through field and laboratory studies, considering in the latter the effects of several biotic and abiotic factors: water chloride content, developmental stage, sex, and tissue. The potential use of P. leniusculus as bioindicator of fluoride pollution in freshwater ecosystems was also assessed by testing the capability of juvenile crayfish to release fluoride during depuration periods. After discussing the obtained results, we concluded that: (1) fluoride pollution by industrial effluents may significantly increase the fluoride content in signal crayfish inhabiting polluted freshwater ecosystems; (2) although high chloride levels in the aquatic medium may significantly reduce the fluoride content in signal crayfish exposed to fluoride pollution conditions, fluoride bioaccumulation can still occur in significant amounts; (3) sex does not seem to be an important biotic factor affecting fluoride bioaccumulation in signal crayfish; (4) in contrast, the type of tissue is an important biotic factor affecting fluoride bioaccumulation in signal crayfish, with the exoskeleton accumulating more fluoride than the muscle, in absolute terms, but with the muscle accumulating more fluoride than the exoskeleton, in relative terms (in relation to pre-effluent/control values); (5) the developmental stage seems to be another important biotic factor affecting fluoride bioaccumulation in signal crayfish, with juveniles being able to accumulate fluoride more rapidly than adults under fluoride pollution conditions; (6) although, during depuration periods, signal crayfish may significantly release fluoride, they can still retain significant amounts of the fluoride previously bioaccumulated during exposure periods. We can overall conclude that fluoride bioaccumulation in signal crayfish may be used as suitable bioindicator of fluoride pollution in those freshwater ecosystems where it is already present. However, this notable capability to accumulate and retain fluoride poses a potential risk to human health when signal crayfish from fluoride polluted areas are consumed.     

Effect of drinking waters of high fluorine content on the urinary fluoride level.

The urinary fluoride level has been studied in 307 subjects consuming drinking waters of different fluoride concentrations. The urinary fluoride level was found to increase with the fluoride content of the drinking water. The urinary F level of the population group drinking water of optimum fluoride concentration was 1.14 mg of fluoride per litre. Thus, in regions where the drinking water contains an insufficient amount of fluoride, the fluoride content of domestic salt must be adjusted so as to ensure an about 1.14 mg/litre urinary F level of the population.     

Fluoride absorption: independence from plasma fluoride levels

The concept that there are physiologic mechanisms to homeostatically regulate plasma fluoride concentrations has been supported by results in the literature suggesting an inverse relationship between plasma fluoride levels and the absorption of the ion from the gastrointestinal tract of the rat. The validity of the relationship was questioned because of possible problems in the experimental design. The present work used four different methods to evaluate the effect of plasma fluoride levels on the absorption of the ion in rats: (i) the percentage of the daily fluoride intake that was excreted in the urine; (ii) the concentration of fluoride in femur epiphyses; (iii) the net areas under the time-plasma fluoride concentration curves after intragastric fluoride doses; and (iv) the residual amounts of fluoride in the gastrointestinal tracts after the intragastric fluoride doses. None of these methods indicated that plasma fluoride levels influence the rate or the degree of fluoride absorption. It was concluded that, unless extremely high plasma fluoride levels are involved (pharmacologic or toxic doses), the absorption of the ion is independent of plasma levels. The results provide further evidence that plasma fluoride concentrations are not homeostatically regulated.     

On the release of fluoride from biofilm reservoirs during a cariogenic challenge: an in situ study

Abstract

Biofilm fluoride reservoirs may be a source of fluoride to the fluid phase during a sugar challenge reducing tooth mineral loss. However, the evidence for that is conflicting and has not been studied in biofilms containing different fluoride levels. In order to test fluoride release from biofilms with distinct fluoride concentrations, biofilms were grown in situ exposed to a combination of placebo, calcium and fluoride rinses forming biofilms with no (fluoride-free rinses), low (fluoride-only rinses) or high (calcium followed by fluoride rinses) fluoride concentrations, and collected before and 5?min after a sucrose challenge. Rinsing with fluoride increased fluoride concentration in the biofilm (p?<?0.05), mainly when a calcium pre-rinse was used before the fluoride (p?<?0.05). However, after a sugar challenge, no significant increase in the biofilm fluid fluoride concentration was observed, even in the fluoride-rich biofilms (p?>?0.05). Fluoride-rich biofilms do not release fluoride to the fluid phase during a sugar challenge.     

Influence of dietary fluoride restriction on regulation of plasma nd soft tissue fluoride contents.

The adjustments in total fluoride concentration in plasma, bones, liver, and muscle were examined when rats were given a diet of very low fluoride content following a dietary regimen of elevated fluoride intake. The animals received a diet containing 34 ppm of fluoride and water with 50 ppm added fluoride in the 28-day initial period and in the depletion period they were given a diet containing only 0.21 ppm of fluoride and distilled water. The findings indicated a 12-fold increase in the fluoride content of the humeri after 28 days of high-flurodie intake with a greater increment by the epiphyses than by the diaphyses. During 21 days of the depletion period the skeletal fluoride was reduced by only 7.7% indicating a marked retention of fluoride during processes of bone remodeling and growth. The plasma, muscle, and liver total fluoride contents were significantly increased at the end of the period of high-fluoride intake, but these concentrations were found to be restored to base-line levels in 3-7 days of the depletion period. By comparison of the distribution of total fluoride with injected radiofluoride between tissue and plasma waters, it was concluded that muscle and liver contain bound fluoride that does not exchange completely with ionic fluoride.     

Salivary Fluoride Concentrations and Fluoride Ingestion Following Application of Preparations Containing High Concentration of Fluoride

The aim of the study was to assess salivary fluoride concentrations and ingestion of fluorides after five different techniques of topical fluoride treatment. Ten volunteers received applications of fluoride gel, toothpaste, and foam. Fluoride concentrations were determined using ion-selective fluoride electrode in the samples of unstimulated saliva before and after procedures. The amounts of fluoride applied, recovered from the mouth, and retained in the mouth were calculated for each treatment. It was proved that fluoride ingestion following tray application of fluoride foam was significantly lower than ingestion following tray applications of fluoride gel (p < 0.01). The use of limited amounts of fluorides on a tray resulted in similar fluoride retention and lower ingestion comparing to the method which involves a large portion of fluorides followed by rinsing. Tooth brushing resulted in high salivary retention rates per amount of fluorides used in the procedure. These data provide initial concept about the possible advantages of some methods of topical fluoride application over others.     

Fluoride inhibition of Klebsiella aerogenes urease: mechanistic implications of a pseudo-uncompetitive, slow-binding inhibitor

Klebsiella aerogenes urease uses a dinuclear nickel active site to catalyze the hydrolysis of urea. Here, we describe the steady-state and pre-steady-state kinetics of urease inhibition by fluoride. Urease is slowly inhibited by fluoride in both the presence and absence of substrate. Steady-state rate studies yield parallel double-reciprocal plots; however, we show that fluoride interaction with urease is not compatible with classical uncompetitive inhibition. Rather, we propose that fluoride binds to an enzyme state (E) that is in equilibrium with resting enzyme (E) and produced during catalysis. Fluoride binding rates are directly proportional to inhibitor concentration. Substrate reduces both the rate of fluoride binding to urease and the rate of fluoride dissociation from the complex, consistent with urea binding to E and E.F in addition to E. Fluoride inhibition is pH-dependent due to a protonation event linked to fluoride dissociation. Fluoride binding is pH-independent, suggesting that fluoride anion, not HF, is the actual inhibitor. We assess the kinetic results in terms of the known protein crystal structure and evaluate possible molecular interpretations for the structure of the E state, the site of fluoride binding, and the factors associated with fluoride release. Finally, we note that the apparent uncompetitive inhibition by fluoride as reported for several other metalloenzymes may need to be reinterpreted in terms of fluoride interaction with the corresponding E states.     

Histological, histometrical and fluoride electrode studies of the effects of fluoride on the mandibular condyles in growing newborn rats

The effects of fluoride on the mandibular condyles in growing newborn rats were studied by histological, histometrical and fluoride electrode methods. The layer of cartilage of the mandibular condyle in the animals administered 5, 15, 25 and 35 mg/kg of fluoride for 3 weeks displayed a significant increase in thickness when compared with that of the mandibular condyle in the control animals. The thickening of the cartilage layer was proportioned to the amounts of fluoride administered. The volumetric density of cancellous bone of the condyle in the animals administered 25 and 35 mg/kg of fluoride also increased significantly when compared with that of the condyle in the control animals. The trabeculae of cancellous bone of the condyle in these animals contained large amounts of osteoid. The cancellous bone of the condyle in the animals of the four fluoride groups showed a significantly higher fluoride concentration when compared with that of the condyle in the control animals. The fluoride concentration proportionally increased with the amounts of fluoride administered. The results of the present study indicate that the morphologic changes and the fluoride concentrations in the mandibular condyles of rats receiving fluoride were closely correlated with each other.     

High Concentration of Fluoride Can Be Increased Risk of Abortion

The presence of fluoride in drinking water can be either beneficial or harmful for human health, depending on its concentration. Most adverse effects of fluoride are observed at high concentrations (above 1.5 mg/L). This study was aimed to evaluate the effect of fluoride concentrations in drinking water on spontaneous abortion in two regions: one with low fluoride concentration and another with high fluoride concentration. The results showed that there is a relationship between the concentration of fluoride in drinking water and abortion, so that the risk of abortion increased at high concentrations of fluoride. However, further studies are needed to clarify this relationship due to the small area and population in this study.     

Influence of dietary lead on fluoride bioavailability in the rat

A factorial experiment was conducted with weanling rats fed a purified diet to determine the influence of dietary lead (0 or 100 ppm) as either lead acetate or lead carbonate on fluoride bioavailability (2 or 10 ppm as sodium fluoride). During the 6-wk study, both forms of lead depressed weight gain, regardless of the fluoride level, despite the fact that food intake was similar for all treatment groups. Both forms of lead produced a small, but significant, reduction in femur and second molar fluoride. This effect, however, could only be demonstrated in rats fed diets containing 10 ppm fluoride, indicating a significant interaction between lead and fluoride for these indices of fluoride bioavailability. This interactive effect between fluoride and lead was also demonstrated for apparent fluoride absorption. Both forms of dietary lead significantly increased the lead concentration of plasma, femur, liver, and kidney, and both forms of lead significantly increased the urinary excretion of delta-aminolevulinic acid. The level of dietary fluoride failed to influence these measurements. We therefore conclude that, although small amounts of dietary lead reduce fluoride bioavailability, small amounts of dietary fluoride do not appear to significantly influence the utilization of dietary lead.     

The behavior of cellulose,amylose, and β-d-xylan towards anhydrous hydrogen fluoride

Cellulose, amylose, and d-glucose are converted into α-d-glucopyranosyl fluoride (3) when dissolved in anhydrous hydrogen fluoride. The fluoride subsequently undergoes condensation to afford a mixture of ligosaccharides, probably via an oxocarbonium ion. The fluoride 3 and the oligosaccharides are in an equilibrium, which was studied by ¹³C-n.m.r. spectroscopy; in dilute solution in hydrogen fluoride, the d-glucosyl fluoride is the main product present, but when the hydrogen fluoride is evaporated, the equilibrium is shifted towards the oligosaccharides. These constitute a complex mixture which was studied by methylation and subsequent analysis of the methylated alditols derived therefrom. (1→4)-β-d-Xylan and d-xylose behave similarly to the d-glucose derivatives towards hydrogen fluoride.     

Appropriate uses of fluorides for children: guidelines from the Canadian Workshop on the Evaluation of Current Recommendations Concerning Fluorides.

OBJECTIVE: To prevent fluorosis caused by excessive fluoride ingestion by revising recommendations for fluoride intake by children. OPTIONS: Limiting fluoride ingestion from fluoridated water, fluoride supplements and fluoride dentifrices. OUTCOMES: Reduction in the prevalence of dental fluorosis and continued prevention of dental caries. EVIDENCE: Before the workshop, experts prepared comprehensive literature reviews of fluoride therapies, fluoride ingestion and the prevalence and causes of dental fluorosis. The papers, which were peer-reviewed, revised and circulated to the workshop participants, formed the basis of the workshop discussions. VALUES: Recommendations to limit fluoride intake were vigorously debated before being adopted as the consensus opinion of the workshop group. BENEFITS, HARMS AND COSTS: Decrease in the prevalence of dental fluorosis with continuing preventive effects of fluoride use. The only significant cost would be in preparing new, low-concentration fluoride products for distribution. RECOMMENDATIONS: Fluoride supplementation should be limited to children 3 years of age and older in areas where there is less than 0.3 ppm of fluoride in the water supply. Children in all areas should use only a "pea-sized" amount of fluoride dentifrice no more than twice daily under the supervision of an adult. VALIDATION: These recommendations are almost identical to changes to recommendations for the use of fluoride supplements recently proposed by a group of European countries. SPONSORS: The workshop was organized by Dr. D. Christopher Clark, of the University of British Columbia, and Drs. Hardy Limeback and Ralph C. Burgess, of the University of Toronto, and funded by Proctor and Gamble Inc., Toronto, the Medical Research Council of Canada and Health Canada (formerly the Department of National Health and Welfare). The recommendations were formally adopted by the Canadian Dental Association in April 1993.     

The distribution of fluoride in some antarctic seals

Summary The aim of this investigation was to find out why some antarctic seals tolerate fluoride levels in their food (krill) that would be toxic to man. The fluoride content of different soft and hard tissues, urine and feces from 16 L. carcinophagus, 13 L. weddelli and 2 A. tropicalis (urine only) were determined by the fluoride sensitive electrode or by a photometric method (urine). Results and conclusions are following: All soft tissues have low concentrations of fluoride in the same range as soft tissues from non antarctic and non krill eating marine or terrestrial vertebrates. But within the soft tissues there are significant differences in the fluoride content (blood: 0.001 ppm F/dw — brain: 9.1 ppm F/dw). A special tolerance for fluoride of soft tissues can be excluded. Compared with man or weddell-seals the crabeater-seals store two times more fluoride in their skeleton. Hard structures that stop their mineralisation early in the development like teeth have only a relatively low fluoride content. For the same reason only neglectable amounts of fluoride could be detected in hair. Fluoride excretion by the kidneys is efficient and is — besides the storage of fluoride in the skeleton — the second mechanism to guarantee a good blood homoiostasis for fluoride. Until now it is impossible to decide how much fluoride from the food is resorbed by the digestive tract.     

Renal excretion of fluoride in renal failure and after renal transplantation.

We have compared the renal excretion of fluoride in a variety of patients with chronic renal failure maintained with and without protein restriction before and during regular dialysis treatment and after transplantation. The patients tended to continue to excrete normal dietary loads of fluoride quite well until renal function was seriously reduced. From a regression of function on excretion the mean level of creatinine clearance when a normal dietary load of fluoride 0.0526 plus or minus 0.019 mmol/2 h (1.0 plus or minus 0.36 mg/24h) has a 90% chance of being excreted lies around 16 ml/min, a level when most patients with renal failure will be symptomatic. Acute loading of such patients with additional fluoride in the form of sodium fluoride from 40 mg to 60 mg/day showed a twofold to threefold increase of serum fluoride concentrations, slight increases in urinary fluoride excretion, and heavy tissue absorption, suggesting that prior fluoride loading of the skeleton had not taken place. These effects contrasted with those in one patient with normal renal function and with those in one patient with skeletal saturation due to prolonged loading. After renal transplantation fluoride excretion increased but reached normal levels within three months of satisfactory function, suggesting that fluoride loading in renal failure and during regular dialysis therapy had not been excessive.     

Effect of Fluoride on Insulin Level of Rats and Insulin Receptor Expression in the MC3T3-E1 Cells

Studies on the role of insulin and insulin receptor (InsR) in the process of skeletal fluorosis, especially in osteogenic function, are rare. We evaluated the effect of increasing F^? doses on the marker of bone formation, serum insulin level and pancreatic secretion changes in vivo and mRNA expression of InsR and osteocalcin (OCN) in vitro. Wistar rats (n?=?50) were divided into two groups, i.e. a control group and fluoride group. The fluoride groups were treated with fluoride by drinking tap water containing 100?mg?F^?/L. The fluoride ion-selective electrode measured the fluoride concentrations of femurs. The alkaline phosphatase (ALP), OCN, insulin and glucagon of serum were tested to observe the effect of fluoride action on them. Meantime, the pancreas pathological morphometry analysis via ?? cells stained by aldehyde fuchsin showed the action of fluoride on pancreas secretion. MC3T3-E1 cells (derived from newborn mouse calvaria) were exposed to varying concentrations and periods of fluoride. The mRNA expression of InsR and OCN was quantified with real-time PCR. Results showed that 1-year fluoride treatment obviously stimulated ALP activity and OCN level along with increase of bone fluoride concentration of rats, which indicated that fluoride obviously stimulated osteogenic action of rats. In vitro study, the dual effect of fluoride on osteoblast function is shown. On the other hand, there was a significant increase of serum insulin level and a general decrease of glucagon level, and the histomorphometry analysis indicated an elevated insulin-positive area and increase in islet size in rats treated with fluoride for 1?year. In addition, fluoride obviously facilitated the mRNA expression of InsR in vitro. To sum up, there existed a close relationship between insulin secretion and fluoride treatment. The insulin signal pathway might be involved in the underlying occurrence or development of skeletal fluorosis.     

Variations in concentration of fluoride in blood plasma of pregnant women and their possible consequences for amelogenesis in a fetus

The aim of the study was to assess the fluoride exposure of pregnant women living in Poznan (Poland) by examination of fluoride levels in blood plasma.

The subjects of the study were 31 pregnant women aged 22–34 years in the course of regular pregnancy. Data concerning the sources of fluoride exposure such as diet, oral hygiene measures and topical application of fluoride procedures, were collected from each individual with a questionnaire. Samples of blood plasma were drawn in the 28th, 33rd week of pregnancy and during delivery. The analysis evaluating the fluoride concentration in the samples was carried out with the use of fluoride electrode ORION (model 96-09). The data were statistically analyzed using the program Statistica for Windows.

Mean value of fluoride concentration in the samples of blood plasma from the 28th week of pregnancy was lower than the mean concentration detected in the 33rd week of pregnancy (3.29 and 3.73 μmol/l, respectively). These values suggest that apart from drinking water, there were other important sources of fluoride in the examined sample.

The results indicate that a reliable assessment of fluoride exposure in a given population cannot be based solely on the concentration of fluoride in drinking water. Relatively high levels of fluoride in blood plasma of examined women suggest that there is no need for fluoride supplementation in this group of patients.     

Gramicidin D enhances the antibacterial activity of fluoride

Fluoride is a toxic anion found in many natural environments. One of the major bacterial defenses against fluoride is the cell envelope, which limits passage of the membrane-impermeant fluoride anion. Accordingly, compounds that enhance the permeability of bacterial membranes to fluoride should also enhance fluoride toxicity. In this study, we demonstrate that the pore-forming antibiotic gramicidin D increases fluoride uptake in Bacillus subtilis and that the antibacterial activity of this compound is potentiated by fluoride. Polymyxin B, another membrane-targeting antibiotic with a different mechanism of action, shows no such improvement. These results, along with previous findings, indicate that certain compounds that destabilize bacterial cell envelopes can enhance the toxicity of fluoride.     

大气氟污染源附近食桑昆虫中氟的积累和分布

对大气F污染源附近野桑蚕,桑赤蠖和桑蚕体内的氟化物含量和器官分布进行了研究,结果表明,污染源附近食桑昆虫体有较高的氟化物含量,且食桑昆虫体的氟化物含量随着离污染源的距离增大而降低,野桑蚕,桑赤蠖和桑蚕的氟化物含量与桑叶的氟化物含量有极显著的线性正相关性,食桑昆虫不同器官间的氟化物积累量也存在较大差异,其消化管是食桑昆虫的主要氟化物积累器官。     

Catalytic versatility of trehalase: synthesis of alpha-D-glucopyranosyl alpha-D-xylopyranoside from beta-D-glucosyl fluoride and alpha-D-xylose

Trehalase was previously shown (see ref. 5) to hydrolyze alpha-D-glucosyl fluoride, forming beta-D-glucose, and to synthesize alpha, alpha-trehalose from beta-D-glucosyl fluoride plus alpha-D-glucose. Present observations further define the enzyme's separate cosubstrate requirements in utilizing these nonglycosidic substrates. alpha-D-Glucopyranose and alpha-D-xylopyranose were found to be uniquely effective in enabling Trichoderma reesei trehalase to catalyze reactions with beta-D-glucosyl fluoride. As little as 0.2mM added alpha-D-glucose (0.4mM alpha-D-xylose) substantially increased the rate of enzymically catalyzed release of fluoride from 25mM beta-D-glucosyl fluoride at 0 degrees. Digests of beta-D-glucosyl fluoride plus alpha-D-xylose yielded the alpha, alpha-trehalose analog, alpha-D-glucopyranosyl alpha-D-xylopyranoside, as a transient (i.e., subsequently hydrolyzed) transfer-product. The need for an aldopyranose acceptor having an axial 1-OH group when beta-D-glucosyl fluoride is the donor, and for water when alpha-D-glucosyl fluoride is the substrate, indicates that the catalytic groups of trehalose have the flexibility to catalyze different stereochemical reactions.