acid-phosphatase and Cadmium-Poisoning

The present study was taken up to assess the role of subchronic exposure to an environmentally relevant dosage of cadmium in type l diabetes. Female rats of the Wistar strain were treated with cadmium (5.12 mg/kg body weight) for 45 days. On day 46, rats were made diabetic by alloxan. After 7 days, diabetes (i.e., animals with serum glucose greater than 300 mg/dL) in the alloxanized animals was confirmed and further experiments were conducted for 15 days. Cadmium pretreatment showed disturbed glucose homeostasis with attendant changes in carbohydrate metabolism, coupled with decrease in food and water intake. Disturbance in carbohydrate metabolism was indicated by altered tissue metabolite load, as marked by a decrease in protein and glycogen contents and increased cholesterol store. Poor glucose clearance subsequent to a glucose challenge under the glucose tolerance test was observed in these animals (0.48/min in control vs. 0.13/min in Cd animals). There was a significantly lower glucose elevation rate in the insulin response test subsequent to an insulin-induced decrease in glucose level in Cd-exposed animals. Elevated oxidative stress was marked by increased lipid peroxidation, decreased antioxidant (both nonenzymatic and enzymatic) levels, and serum markers of hepatic and renal damage. Decreased corticosterone levels, together with increased E2 and reduced P4 levels, were some of the hallmark changes in the serum hormone profile of Cd-exposed animals. Overall, the present results are novel and interesting to open more investigations on animal models of type 1 diabetes with a history of previous Cd exposure.

Topics: Acid Phosphatase; Alkaline Phosphatase; Animals; Blood Glucose; Cadmium; Cadmium Poisoning; Cholesterol; Corticosterone; Diabetes Mellitus, Type 1; Drinking; Eating; Estradiol; Female; Glucose Tolerance Test; Insulin; Kidney; Liver; Progesterone; Rats; Rats, Wistar; Triglycerides

Lead acetate (300 mg Pb/L) and/or cadmium acetate (10mg Cd/L) in blood and liver were administrated as drinking water to pregnant Wistar rats from day 1 of pregnancy to parturition (day 0) or until weaning (day 21), to investigate the toxic effects in blood and in the liver. Both metals produced mycrocitic anaemia in the pups as well as oxidative damage in the liver, as suggested by the significant increase in TBARS production and the high catalase activity. Moreover, intense alkaline and acid phosphatase activity, used as biomarkers of liver adaptation to damaging factors, was observed. In addition, the toxikinetics are different for Pb and Cd: while Cd is a hepatotoxic from day 0, Pb is not until day 21. Finally, simultaneous perinatal administration of both metals seems to protect, at least, in the liver TBARS production against the toxicity produced by Cd or Pb separately.

Topics: Acid Phosphatase; Alkaline Phosphatase; Animals; Animals, Newborn; Cadmium; Cadmium Poisoning; Catalase; Chemical and Drug Induced Liver Injury; Drug Combinations; Female; Lead; Lead Poisoning; Liver Diseases; Organ Size; Oxidative Stress; Pregnancy; Rats; Rats, Wistar; Thiobarbituric Acid Reactive Substances

Early effects of cadmium (Cd) on the structure and function of the kidney were studied in an experimental model using rats intoxicated with Cd at the levels of 5 and 50 mg Cd/l drinking water. The effect of Cd was evaluated histopathologically and biochemically. Damage to the cellular structures was assessed on the basis of histoenzymatic analyses of the activity and localization of indicator enzymes (succinate dehydrogenase, lactate dehydrogenase, glucose-6-phosphatase, Mg(2+)-dependent adenosine triphosphatase and acid phosphatase). The histochemical observations indicate that Cd causes damage to the organization and function of the nephron. Several structures, i.e. endoplasmic reticulum, mitochondrion, lysosome, cellular and intracellular membrane, as well as their biological functions, i.e. aerobic and anaerobic respiration, transport functions and biochemical processes taking place in the endoplasmic reticulum, were affected. The cytotoxic action of Cd occurs mainly in the tubules and partially also in the glomeruli. The results clearly indicate that Cd damages kidney structurally and functionally even at a relatively low level (5 mg/l) corresponding to human environmental exposure, and they confirm our previous hypothesis that the threshold for the kidney effects of Cd is less than 4.08+/-0.33 microg/g kidney wet weight and higher than 2.40+/-0.15 microg/g. The target for Cd action in the kidney is the tubules (proximal convoluted tubules and straight tubules), and disturbance in their function is the main toxic effect of Cd. Renal glomeruli are also injured, but only partially, whereas in other parts of the nephron the damage is slight. The results, together with observations reported in the first paper of the study, incline us to conclude that humans environmentally exposed to Cd are at risk of tubular damage.

Topics: Acid Phosphatase; Administration, Oral; Animals; Ca(2+) Mg(2+)-ATPase; Cadmium; Cadmium Poisoning; Glucose-6-Phosphatase; Histocytochemistry; Kidney; Kidney Tubules; L-Lactate Dehydrogenase; Male; Rats; Rats, Wistar; Succinate Dehydrogenase

The aim of the present study was to clarify the therapeutic effects of 1alpha, 25[OH]2 vitamin D3 (calcitriol) pulse injection on bone lesions induced in a rat model of chronic cadmium toxicosis. Ovariectomized (OVX) and control-operated (sham-OVX) rats were given repeated intravenous injections of 0.5 mg/kg/day CdCl2 for 70 weeks. The rats were then treated intravenously with 0.02 microg/kg/day calcitriol 3 days per week for 8 weeks. CdCl2 treatment induced increases in osteoid volumes of the femur cortex and trabecula. This change was accompanied by an increase in the volume of iron deposition at the mineralization front of the trabeculae and a reduction in mineral density. Abnormalities of bone metabolic parameters, which were increases in the blood calcium, inorganic phosphorous, bone-specific alkaline phosphatase, parathyroid hormone (PTH) and osteocalcin levels, and in the urine deoxypyridinoline (D-PYR) level, were also induced. Calcitriol treatment increased the blood calcium and inorganic phosphorous levels, and reduced the blood PTH level. Decreases in blood tartrate-resistant acid phosphatase and urine d-PYR levels were also induced indicating that bone resorption was suppressed. The findings indicated that the increased osteoid volume of the cortex and Fe-deposition volume of the trabecula were improved. These effects or improvements were observed in the sham-OVX rats but not in the OVX rats.

Topics: Acid Phosphatase; Alkaline Phosphatase; Amino Acids; Analysis of Variance; Animals; Biomarkers; Bone and Bones; Bone Density; Cadmium; Cadmium Chloride; Cadmium Poisoning; Calcitriol; Chronic Disease; Erythrocyte Indices; Female; Femur; Hemoglobins; Iron; Models, Animal; Osteocalcin; Osteomalacia; Ovariectomy; Pulse Therapy, Drug; Rats; Rats, Sprague-Dawley

The purpose of the study was assessment of the effect of an environment contaminated with heavy metals on the activity of certain enzymes of mixed saliva. The activity was determined of total acid phosphatase and phosphatase resistant to tartrate and formaldehyde, alkaline phosphatase, alanine and aspartate aminotransferase, and alpha-amylase. The studied material comprised 110 saliva samples obtained from three groups of children aged 8 years. Group I of 21 children lived in Szopienice, group II of 30 children lived in Miasteczko Slaskie. In both these localities the children were exposed to mean daily concentrations, above the permitted ones, mainly of lead compounds, in lower degree to cadmium and zinc compounds. Environment contamination in Szopienice was greater than in Miasteczko Slaskie. Group III of 59 children living in Lubowice served as controls. In that town the permissible concentrations of these compounds were not exceeded. Statistical analysis of these results showed that the activity of total acid phosphatase in groups I and II, that is in the contaminated areas, was highly significantly greater than in the control group. The activity of alkaline phosphatase was raised only in the saliva in group I. No differences were found in the activity of alpha-amylase and aminotransferases.

Topics: Acid Phosphatase; Alanine Transaminase; Alkaline Phosphatase; alpha-Amylases; Aspartate Aminotransferases; Cadmium Poisoning; Child; Environmental Exposure; Female; Humans; Lead Poisoning; Male; Maximum Allowable Concentration; Saliva; Zinc

Topics: Acid Phosphatase; Alkaline Phosphatase; Animals; Cadmium Poisoning; Cholinesterases; Glucose-6-Phosphatase; Liver; Male; Rats