Janina Moniuszko-Jakoniuk

The influence of calcium content in diet on cumulation and toxicity of cadmium in the organism.

Abstract Voluminous literature data show that great interdependence exists between the nutrition status of the organism and the degree of accumulation and toxicity of heavy metals. In this work, the connection between dietary calcium and cadmium toxicity is discussed from the toxicological point of view. Cadmium is one of the most dangerous occupational and environmental poisons. The intake of diet containing an inappropriate amount of calcium causes increased absorption of cadmium from the gastrointestinal tract and increased accumulation of this metal in the organism, finally leading to enhancement of cadmium toxic action. The large intake of calcium protects against absorption, cumulation and toxicity of this heavy metal. Interactions between calcium and cadmium may take place at different stages of their metabolism (absorption, distribution in the organism, elimination) and cadmium may interfere with the biological functions of Ca2+ ions.

ENHANCED ZINC CONSUMPTION PREVENTS CADMIUM-INDUCED ALTERATIONS IN LIPID METABOLISM IN MALE RATS

It has been investigated, based on a rat model of human exposure to cadmium (Cd), whether zinc (Zn) supplementation may prevent Cd-induced alterations in lipid metabolism. For this purpose, the concentrations of free fatty acids (FFA), phospholipids (PL), triglycerides (TG), total cholesterol (TCh), and high and low density lipoprotein cholesterol (HDL and LDL, respectively) as well as the concentrations of chosen indices of lipid peroxidation such as lipid peroxides (LPO), F2-isoprostane (F2-IsoP) and oxidized LDL (oxLDL) were estimated in the serum of male Wistar rats administered Cd (5 or 50mg/l) or/and Zn (30 or 60mg/l) in drinking water for 6 months. The exposure to 5 and 50mg Cd/l resulted in marked alterations in the lipid status reflected in increased concentrations of FFA, TCh, LDL, LPO, F2-IsoP and oxLDL, and decreased concentrations of PL and HDL in the serum. The concentrations of LDL, LPO, F2-IsoP and oxLDL were more markedly enhanced at the higher Cd dosage. The supplementation with Zn during the exposure to 5 and 50mg Cd/l entirely prevented all the Cd-induced changes in the serum concentrations of the estimated lipid compounds and indices of lipid peroxidation, except for the F2-IsoP for which Zn provided only partial protection. Based on the results it can be concluded that Zn supplementation during exposure to Cd may have a protective effect on lipid metabolism consisting in its ability to prevent hyperlipidemia, including especially hypercholesterolemia, and to protect from lipid peroxidation. The findings seem to suggest that enhanced dietary Zn intake during Cd exposure, via preventing alterations in the body status of lipids may, at least partly, protect against some effects of Cd toxicity, including oxidative damage to the cellular membranes and atherogenic action. The paper is the first report suggesting protective impact of Zn against proatherogenic Cd action on experimental model of chronic moderate and relatively high human exposure to this toxic metal.

Effect of zinc supplementation on bone metabolism in male rats chronically exposed to cadmium.

The aim of the present study is to investigate, based on the rat model of moderate and relatively high human exposure to cadmium (Cd), whether zinc (Zn) supplementation may prevent Cd-induced disorders in bone metabolism. For this purpose, male Wistar rats received Cd (5 and 50mg/l) or/and Zn (30 and 60mg/l) in drinking water for 6 and 12 months. Bone densitometry and biochemical markers of bone turnover were used to assess the effects of Cd or/and Zn. Bone mineral content (BMC) and density (BMD) were measured in the femur. Serum osteocalcin (OC) and alkaline phosphatase in trabecular (bT-ALP) and cortical (bC-ALP) bone were determined as bone formation markers, and carboxy-terminal cross-linking telopeptides of type I collagen (CTX) in serum were measured as bone resorption marker. Serum concentration of calcium (Ca) and its renal handling, as well as Zn and Cd concentrations in the serum/blood, urine and femur were evaluated as well. The exposure to 5 and 50mg Cd/l (0.340+/-0.026 and 2.498+/-0.093mg Cd/kg body wt/24h, respectively), in a dose and duration dependent manner, affected bone turnover (inhibited bone formation and stimulated its resorption) and disturbed bone mineralization (decreased BMC, BMD and Zn concentration). Zn supply at the concentration of 30 and 60mg/l (1.904+/-0.123 and 3.699+/-0.213mg/kg body wt/24h, respectively) during Cd exposure influenced the Cd-induced disorders in bone metabolism. Zn administration to the Cd-exposed rats enhanced the bone ALP activity and prevented Cd-induced bone resorption, but had no statistically significant effect on BMC and BMD; however, mean values of the densitometric parameters in the rats receiving both Cd and Zn were higher than in those treated with Cd alone. Moreover, Zn supplementation at both levels of Cd exposure was found to prevent Cd accumulation in the femur and the Cd-induced decrease in bone Zn concentration. The results of the present study allow the conclusion that Zn supplementation during Cd exposure may partly protect from disorders in bone metabolism. The influence of Zn may be accompanied by its ability to prevent Cd-induced Zn deficiency and to decrease Cd accumulation in bone tissue. The findings seem to indicate that enhanced dietary intake of Zn in subjects chronically exposed to moderate and relatively high Cd levels may have a protective influence on the skeleton.

Beneficial effect of zinc supplementation on biomechanical properties of femoral distal end and femoral diaphysis of male rats chronically exposed to cadmium

The present study was aimed at estimate, based on the rat model of human moderate and relatively high chronic exposure to cadmium (Cd), whether zinc (Zn) supplementation may prevent Cd-induced weakening in the bone biomechanical properties. For this purpose, male Wistar rats were administered Cd (5 or 50 mg/l) or/and Zn (30 or 60 mg/l) in drinking water for 6 and 12 months. Bone mineral density (BMD) and biomechanical properties (yield load, ultimate load, post-yield load, displacement at yield and at ultimate, stiffness, work to fracture, yield stress, ultimate stress and Young modulus of elasticity) of the femoral distal end and femoral diaphysis were examined. Biomechanical properties of the distal femur were estimated in a compression test, whereas those of the femoral diaphysis -- in a three-point bending test. Exposure to Cd, in a dose and duration dependent manner, decreased the BMD and weakened the biomechanical properties of the femur at its distal end and diaphysis. Zn supplementation during Cd exposure partly, but importantly, prevented the weakening in the bone biomechanical properties. The favorable Zn influence seemed to result from an independent action of this bioelement and its interaction with Cd. However, Zn supply at the exposure to Cd had no statistically significant influence on the BMD at the distal end and diaphysis of the femur. The results of the present paper suggest that Zn supplementation during exposure to Cd may have a protective influence on the bone tissue biomechanical properties, and in this way it can, at least partly, decrease the risk of bone fractures. The findings seem to indicate that enhanced dietary Zn intake may be beneficial for the skeleton in subjects chronically exposed to Cd.

The effect of zinc supply on cadmium-induced changes in the tibia of rats

It has been determined that zinc supplementation (240 microg Zn/ml) during (for 12 weeks) or after (for 2 weeks) cadmium exposure (50 microg Cd/ml for 12 weeks) can prevent the accumulation and toxic action of Cd in the tibia of rats. The exposure to Cd led to disturbances in bone metabolism reflected by changes in the chemical composition of bone and decreased bone mineral density (osteomalacian changes). The Zn supply in conditions of Cd intoxication completely prevented the Cd-induced increase in percentage of water content and decrease in tibia ash weight, ash weight/dry weight, non-org. comp./org. comp., Zn content and concentration. Moreover, Zn partly protected from the decrease in Ca concentration and content, percentage of non-organic components content, Ca/wet weight, Ca/ash weight and Ca/dry weight. Zn administered after Cd exposure partly, but not completely, protected from Cd-induced decrease in percentage of non-organic components content, Ca/wet weight as well as Ca content and concentration. This protective effect on bone was most evident when Zn was administered during Cd exposure. But Zn, independently of the manner of its administration, did not prevent Cd accumulation in the tibia. Our results suggest that Zn supply in conditions of simultaneous exposure can prevent Cd-induced bone loss to some extent, and used after Cd treatment can give therapeutic benefits.

Mechanical Properties of Femoral Diaphysis and Femoral Neck of Female Rats Chronically Exposed to Various Levels of Cadmium

The effect of chronic exposure to cadmium (Cd) on the mechanical properties of femoral diaphysis and femoral neck was investigated on a rat model of human exposure. Three-week-old female Wistar rats were exposed to Cd in drinking water at concentrations of 1, 5, 50, or 100 mg/L for 12 months. Biomechanical properties of the femoral diaphysis were evaluated in a three-point bending test and those of the femoral neck in a bending test with vertical loading of the head. Bone mineral content (BMC) and bone mineral density (BMD) at the whole femur, and BMD at the diaphysis and proximal femur (head and neck region) of the Cd-treated rats decreased in a dose-dependent manner, except for the diaphyseal BMD at a Cd concentration of 1 mg/L. Exposure to Cd concentrations of 1 and 5 mg/L had only little effect on the diaphyseal mechanical properties (decreased yield load with unchanged bending strength, stiffness, yield stress, ultimate stress, and Young modulus), whereas the bending strength and stiffness of the neck decreased and the yield load clearly tended to decline or declined. The effect of Cd at the two locations was more marked in the 50 and 100 mg/L groups, and changes in the bone geometry were observed in these animals. The results clearly revealed that chronic, even low-level, exposure to Cd results in demineralization and weakening of the femur. The femoral neck seems to be more vulnerable than the diaphysis to failure from Cd. We conclude that environmental exposure to Cd may be an important risk factor for femoral neck fracture.

The effect of exposure to chlorfenvinphos on lipid metabolism and apoptotic and necrotic cells death in the brain of rats

This study investigated the influence of chlorfenvinphos (0.3 mg/kg bw/24 h corresponding to 0.02 LD50; orally by gastric gavage for 14 and 28 days) on lipid metabolism, and apoptotic and necrotic cells death in the brain of rats as the possible mechanism of neurotoxic action of organophosphate (OP) pesticides at low exposure. Total cholesterol (TCh), triglycerides (TG), phospholipids (PL), and free fatty acids (FFA) were determined and apoptotic, necrotic, and living cells were quantified in the brain. Moreover, the serum and brain acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) were assayed as biomarkers of neurotoxicity. The treatment with chlorfenvinphos increased (duration dependently) the concentrations of TCh and TG and the ratio of TCh/PL, and decreased PL concentration. The prevalence of apoptotic and necrotic cells increased and that of the living brain cells depressed (by 10%) already after 14 days of the exposure. The brain activities of AChE and BChE decreased by 12% and 15%, and by 18% and 25% after 14 and 28 days, respectively, whereas the serum activities of these enzymes were inhibited (by 24% and 18%, respectively) only after the longer treatment. The changes in lipid metabolism and distribution of the living, apoptotic, and necrotic brain cells correlated with AChE and BChE activities in the serum and brain. The results show that chlorfenvinphos may disturb lipid metabolism and induce apoptosis and necrosis in the brain even at the exposure not affecting the serum activities of cholinesterases, and causing only moderate inhibition of their brain activities. Based on the findings it can be concluded that low repeated exposure to OP pesticides may influence the nervous system through disrupting the lipid profile of the nervous tissue and decreasing the number of the nervous cells.

Effects of subchronic chlorfenvinphos administration on liver antioxidative parameters and lipid peroxidation marker in experimental rats

The objective of the present study was to examine whether subchronic small-dose exposure to chlorfenvinphos, a commonly used pesticide in Poland, may induce changes in the activities of liver antioxidative enzymes and cause an increase in liver malonyldialdehyde level. The animals received once daily 0.1 mL per 100 g of olive oil (control groups) and oil solution of chlorfenvinphos at a dose of 0.02 LD50–the experimental groups. The animals were sacrificed on day 14 and day 28 of the exposure. In the serum cholinesterase activity and in the liver activities of catalase, superoxide dismutase and glutathione peroxidase as well as malonyldialdehyde level were determined. The study revealed that, apart from the inhibitory effects of subchronic chlorfenvinphos administration on serum cholinesterases, this insecticide increased oxidative stress in the liver, which was manifested by antioxidative enzyme activities and enhanced level of lipid peroxidation marker. Moreover liver oxidative stress has been observed in the absence of depressed cholinestaerase level. It is concluded, that in chronic exposure to organophosphates, apart from serum cholinesterase activity the monitoring of parameters of oxidative stress as a new biomarker must be taken into consideration.

The Influence of Human Neutrophils on N-nitrosodimethylamine (NDMA) Synthesis

N-nitrozodimethyloamine (NDMA) is a carcinogenic compound that can be formed in vivo. NDMA is synthesized from precursors-amines and nitrosating agents. Nitrosating agents are formed through the reaction of oxide, reactive oxygen species and nitric oxide (NO). Human neutrophils (PMN) are an important source of the most reactive oxygen species as well as of the nitric oxide. The increase in oxygen metabolism of PMN can lead to the increase nitrosating agent and nitroso-forms. Inflammatory process is associated with locally decreased pH that may favor nitrosation reaction. In the present study, we estimated the NDMA synthesis by LPS-stimulated PMN in the presence of the iNOS inhibitor – N-nitro-L-arginine methyl ester (L-NAME). In the nitrosation reaction dimethylamine (DMA) was used as substrat. The viability of the cells was measured by cytometric method. NDMA concentrations the culture media was measured by GCMS method. NO production was estimated by Griesss method. Expression of iNOS was determined by western blotting. Results obtained showed that DMA nitrosation is most effective in pH between 3–4.5. Nonstimulated PMN produced lower concentrations of NO than LPS-stimulated cells (1.27 μg/cm3 and 1.57 μg/cm3, respectively). In the culture of nonstimulated PMN supplemented with DMA, there was NDMA (mean – 0.99 ng/cm3). In the culture of LPS-stimulated PMN in the presence of DMA, the concentration of NDMA was higher than in the culture of nonstimulated PMN (median – 1.45 ng/cm3). In the supernatants of cells incubated without DMA and with DMA, LPS and L-NAME, no NDMA was detected. These results indicate that PMN can be one of sources of nitrosating agents and can play a role in endogenous NDMA synthesis. Stimulation of PMN can lead to the increase of NDMA concentration following the increase of NO production. Different pathological conditions associated with PMN activation as well as the decreased pH may favor endogenous NDMA synthesis.

The Effect of N-Nitrosodimethylamine on TRAIL and DR5 Expression in Human Neutrophils—Preliminary Study

The intracellular mechanisms of NDMA-induced apoptosis of neutrophils have not yet been fully understood. The aim of this study was to explain whether the TRAIL/DR5 system is implicated in NDMA-induced apoptosis of human neutrophils. The expression of TRAIL and DR5 was examined, as well as the secretion of sTRAIL and sDR5 by human neutrophils treated with NDMA confronted with intensity apoptosis of these cells. For comparative purposes similar examinations in autologous peripheral blood mononuclear cells (PBMC) were performed. Decreased expression and secretion of TRAIL and increased expression and secretion of DR5 associated with increased intensity of apoptosis of polymorphonuclear leukocytes (PMNs) suggest that NDMA-induced apoptosis in these cells may be depend on TRAIL/DR5 system. Autologous PBMCs no exerted that changes in the expression and secretion of TRAIL as well as in the intensity of apoptosis. However, the expression and secretion of DR5 by PBMCs were similar to those by PMNs. Differences above suggest that PMNs are more sensitive to unfavorable action of NDMA than PBMCs.