Effects of several dithiocarbamates on tissue distribution and excretion of inorganic mercury in rats

The effects of various chelating agents, sodium N-benzyl-D-glucamine dithiocarbamate (BGD), sodium N-p-methylbenzyl-D-glucamine dithiocarbamate (MBGD), sodium N-p-hydroxymethylbenzyl-D-glucamine dithiocarbamate (HBGD), and N-p-carboxybenzyl-D-glucamine dithiocarbamate (CBGD), which were newly synthesized, and sodium N-methyl-D-glucamine dithiocarbamate (MGD), on the distribution and excretion of inorganic mercury were compared in rats exposed to HgCl2. Rats were injected i.p. with 203HgCl2 (300 micrograms of Hg and 74 kBq of 203Hg/kg) and 30 min or 24 h later, they were injected with a dithiocarbamate (1200 mumol/kg). At 30 min after mercury administration, BGD and MBGD significantly enhanced the biliary excretion of mercury, while CBGD, MGD, and HBGD enhanced the urinary excretion of mercury to a small extent. At 24 h after mercury injection, BGD was the most effective on the biliary excretion of the metal, while MGD and HBGD significantly enhanced the urinary excretion of the metal. All of these dithiocarbamates were effective in mobilizing mercury from the kidney at 30 min after mercury treatment. At 24 h after mercury treatment, HBGD and BGD effectively depressed mercury content in the kidney. These results show that the injection of BGD and HBGD at both 30 min and 24 h after mercury treatment can much more effectively mobilize mercury from the kidney without redistribution of mercury to other tissues, such as brain, heart, and lung, when compared with injection of other chelating agents. The pattern of mobilization and excretion of mercury following treatment with each chelating agent was related to the organic/aqueous partition coefficient of each dithiocarbamate-mercury complex.     

Protective effect of N-benzyl-D-glucamine dithiocarbamate against cis-diamminedichloroplatinum-induced toxicity in gastrointestinal tract and bone marrow in rats

The protective effect of N-benzyl-D-glucamine dithiocarbamate (BGD) against gastrointestinal and bone marrow toxicities produced by cis-diamminedichloroplatinum (DDP) injection in rats was studied. Rats were injected i.p. with BGD (2 mmol/kg) immediately after i.v. injection of DDP (20 mumol/kg). A scanning electron micrograph of the jejunum after DDP treatment showed damage in the villi, and that BGD protected the DDP-induced jejunal damage. BGD treatment also had a protective effect against DDP-induced diarrhea. BGD significantly reversed the reduction in maltase and sucrase activities of jejunal mucosa of rats treated with DDP. Platinum (Pt) concentrations in the gastrointestine as well as in the kidney and liver after DDP injection decreased following BGD treatment. The reduction of leukocytes following DDP injection returned to control values after BGD treatment. Biliary and urinary excretions of Pt after DDP injection was remarkably increased by BGD treatment. The results of this study indicated that the injection of BGD to rats treated with DDP can effectively remove Pt from the body through biliary and urinary excretions, resulting in protection of the gastrointestinal and bone marrow toxicities induced by DDP treatment.     

Protective effect of sodium molybdate against the acute toxicity of mercuric chloride in rat. VI. The mechanism of stimulative action of sodium molybdate on urinary excretion of mercury

In order to gain further insight into the protective action of Na2MoO4 pretreatment (1.24 mmol/kg, once a day, i.p.) against the acute toxicity of HgCl2 (30 mummol/mmol/kg, once, s.c.), changes of renal function, tissue accumulation of mercury, and urinary excretions of mercury and phenolsulfonphthalein after exposure to HgCl2 were investigated. Lactate content in the kidney and serum calcium were also measured. Na2MoO4 pretreatment enhanced urinary excretion of mercury. Renal function of Na2MoO4-pretreated rats was better maintained as compared to that of the rats given HgCl2 alone at either dose (30 or 15 mumol/kg) although the metal content in the kidney of this group was almost the same as that of the latter HgCl2-alone rats. This pretreatment prevented the rise in lactate content in the kidney and the reduction of urinary excretion of phenolsulfonphthalein caused by HgCl2, Na2MoO4 reduced serum calcium. These results suggest that Na2MoO4 prevented mercury-induced acute renal failure by decreasing tissue accumulation of the metal through urinary excretion of mercury. Better renal hemodynamics attributable to hypocalcemia may be a causative factor in the enhancement of urinary excretion of mercury.     

Comparison of 24-h volume and creatinine-corrected total urinary polyphenol as a biomarker of total dietary polyphenols in the Invecchiare InCHIANTI study

Polyphenols have beneficial effects on several chronic diseases but assessing polyphenols intake from self-reported dietary questionnaires tends to be inaccurate and not very reliable. A promising alternative is to use urinary excretion of polyphenols as a proxy measure of intake. The best method to assess urinary excretion is to collect 24-h urine. However, since collecting 24-h urine method is expensive, time consuming and may be difficult to implement in large population-based studies, measures obtained from spot urine normalized by creatinine are commonly used. The purpose of the study was to evaluate the correlation between polyphenols dietary intake and total urinary polyphenol excretion (TPE), expressed by both 24-h volume and urinary creatinine normalization in 928 participants from the InCHIANTI study. Dietary intake data were collected using a validated food frequency questionnaire. Urinary TPE was analyzed by Folin-Ciocalteau assay. Both urinary TPE expression models were statistically correlated (r=0.580), and the partial correlation coefficient improved (pr=0.722) after adjusting for the variables that modify the urinary creatinine excretion (i.e. gender, age, BMI, physical activity and renal function). In crude models, polyphenol intake was associated with TPE corrected by 24-h volume (r=0.211; P<0.001), but not with creatinine normalization (r=0.014; P=0.692). However, urinary TPE expressed by creatinine correction was significantly correlated with dietary polyphenols after adjusting for covariates (pr=0.113; P=0.002). We conclude that urinary TPE expressed by 24-h volume is a better biomarker of polyphenol dietary intake than by urinary creatinine normalization. After covariate adjustment, both can be used for studying the relationships between polyphenol intake and health in large-scale epidemiological studies.     

Effect of magnesium lithospermate B on urinary excretion of arachidonate metabolites in rats with renal failure

The effect of magnesium lithospermate B isolated from Salviae miltiorrhizae Radix on excretion of urinary arachidonate metabolites was examined in both normal rats and those given adenine. Urinary excretion of prostaglandin E2 (PGE2) and 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) decreased while urinary thromboxane B2 (TXB2) excretion increased markedly with the progression of renal failure. Rats administered magnesium lithospermate B showed an increase of urinary PGE2 excretion at the 6th and 12th days. Excretion of 6-keto-PGF1 alpha also showed a significant increase on the 6th and 12th days in rats with renal failure induced by the administration of adenine. However, these effects were lower than the corresponding values in normal rats. In addition, urinary PGE2 and 6-keto-PGF1 alpha excretions showed no appreciable difference in rats that exhibited progressive renal failure with continuation of the adenine administration period, as shown on the 18th and 24th days. There were no significant changes in TXB2 excretion between the control and magnesium lithospermate B-treated groups throughout the experimental period.     

Effects of three dithiocarbamates on tissue distribution and excretion of cadmium in mice

N-Benzyl-D-glucamine dithiocarbamate (BGD), N-p-hydroxymethylbenzyl-D-glucamine dithiocarbamate (HBGD), and N-p-carboxybenzyl-D-glucamine dithiocarbamate (CBGD) were compared for their relative efficacies in the distribution and excretion of cadmium in mice exposed to cadmium. Mice were injected intraperitoneally with 109CdCl2 (1 mg of Cd/kg and 2 microCi of 109Cd/one animal). Three days later, they were injected with chelating agents (400 mumol/kg) every other day for 2 weeks. After injections of BGD and HBGD, cadmium was excreted mainly in the feces through the bile, and the fecal excretion of cadmium by HBGD was significantly higher than that by BGD or CBGD. These chelating agents increased the urinary excretion of cadmium to a small extent. The hepatic cadmium content was decreased only after HBGD injection. Also, the injection of HBGD caused a much greater decrease in renal cadmium content than did BGD or CBGD. These chelating agents did not result in the redistribution of cadmium to the brain, testes, or heart. The growth of mice was only slightly retarded by injections of these chelating agents. The results of this study indicate that the injection of HBGD to mice pretreated with cadmium can remove cadmium from the body, mainly through fecal excretion, without redistribution of cadmium to other tissues such as the brain, testes, and heart, more effectively than BGD or CBGD.     

Excretion of formaldehyde, malondialdehyde, acetaldehyde and acetone in the urine of rats in response to 2,3,7,8-tetrachlorodibenzo-p-dioxin, paraquat, endrin and carbon tetrachloride.

Formaldehyde (FA), acetaldehyde (ACT), malondialdehyde (MDA) and acetone (ACON) were simultaneously identified in urine, and their excretion quantitated in response to chemically induced oxidative stress. Urine samples of female Sprague-Dawley rats were collected over dry ice and derivatized with 2,4-dinitrophenylhydrazine. The hydrazones of the four lipid metabolic products were quantitated by high-performance liquid chromatography on a Waters 10-microns mu-Bondapak C18 column. The identities of FA, ACT, MDA and ACON in urine were confirmed by gas chromatography-mass spectrometry. An oxidative stress was induced by orally administering 100 micrograms/kg 2,3,7,8-tetrachlorodibenzo-p-dioxin, 75 mg/kg paraquat, 6 mg/kg endrin or 2.5 ml/kg carbon tetrachloride to rats. Urinary excretion of FA, ACT, MDA and ACON increased relative to control animals 24 h after treatment with all xenobiotics. The system has wide-spread applicability to the investigation of altered lipid metabolism in disease states and exposure to environmental pollutants.     

Effects of ferulic acid on diabetic nephropathy in a rat model of type 2 diabetes

Diabetic nephropathy is the most serious complication in diabetes mellitus. It is known that oxidative stress and inflammation play a central role in the development of diabetic nephropathy. In this study, we investigated that ferulic acid (FA) known as anti-oxidative agent could effect on diabetic nephropathy by anti-oxidative and anti-inflammatory mechanism. We examined the effects of FA in obese diabetic Otsuka Long-Evans Tokushima Fatty (OLETF) rats and non-diabetic control Long-Evans Tokushima Otsuka (LETO) rats. We treated FA to experimental rats from 26 to 45 weeks of age. We evaluated ACR, MDA and MCP-1 in 24 h urine and examined renal histopathology and morphologic change in extracted kidneys from rats. Also, we evaluated the ROS production and MCP-1 levels in cultured podocyte after FA treatment. In the FA-treated OLETF rats, blood glucose was significantly decreased and serum adiponectin levels were increased. Urinary ACR was significantly reduced in FA-treated OLETF rats compared with diabetic OLETF rats. In renal histopathology, FA-treated OLETF rats showed decreased glomerular basement membrane thickness, glomerular volume, and mesangial matrix expansion. FA treatment decreased oxidative stress markers and MCP-1 levels in 24 h urine of rats and supernatants of cultured podocyte. In conclusion, it was suggested that FA have protective and therapeutic effects on diabetic nephropathy by reducing oxidative stress and inflammation.     

Effect of L-cysteine on plasma concentration and urinary excretion of 1-(tetrahydro-2-furanyl)-5-fluorouracil metabolites

Effects of L-cysteine (CySH) on the plasma concentrations and the urinary excretion of 1-(tetrahydro-2-furanyl)-5-fluorouracil (FT) and its metabolites were studied by high performance liquid chromatography in rats. Significantly higher plasma concentrations of FT, 5-fluorouracil (5-FU) and cis-4'-OH-FT were obtained after an oral administration of FT (500 mg/kg) combined orally with CySH (500 mg/kg) when compared to FT alone. The urinary excretions of 5-FU, trans-3'-OH-FT, cis-4'-OH-FT, trans-4'-OH-FT and 4',5'-dehydro-FT significantly decreased up to 12 h but that of alpha-fluoro-beta-alanine significantly increased up to 24 h by the combined administration of CySH. Furthermore, the plasma concentration of 5-FU significantly increased at 0.5 h and its urinary excretion significantly decreased up to 4 h after an intraperitoneal administration of 5-FU (10 mg/kg) combined orally with CySH (500 mg/kg) when compared to 5-FU alone. The urinary pH significantly changed to acidic and the urinary volume significantly increased by the combined administration of CySH, so it was thought that the reabsorption of 5-FU through renal tubules from urine could increase and the increment of the urinary excretion of alpha-fluoro-beta-alanine was caused by this. Then it was suggested that the increase of the plasma concentrations of 5-FU and cis-4'-OH-FT could be attributed to the decrease of their urinary excretions after an administration of FT combined with CySH when compared to FT alone.     

Relieving effect of saline on cephaloridine nephrotoxicity in rats

To elucidate the mechanism(s) of the relieving effect of saline on cephaloridine (CER) nephrotoxicity, rats were given CER in equal quantity (1 g/kg body weight; i.v.), but at two different concentrations (4 and 25%) in saline. Urinary excretion of glucose, which was investigated as an index for renal proximal tubular injury, revealed that the renal damage was less in the 4% CER 25 ml/kg group than in the 25% CER 4 ml/kg group. As to urinary excretions of CER, sodium, potassium and water, no significant differences were observed between the two groups in the first 2 h, but chloride in the 4% CER 25 ml/kg group showed higher values than in the 25% CER 4 ml/kg group. Plasma concentrations of sodium, potassium, chloride and CER, did not show any definite distinctions between the two groups. At the time-point of 20 min after the CER administration, renal CER content was significantly lower in the 4% CER 25 ml/kg group than in the 25% CER 4 ml/kg group. These results suggest that the sodium ion which is needed for cellular trapping of CER is competitively expended for cellular entry of the chloride ion in the kidney, and that the relieving effect of the saline on CER nephrotoxicity is ascribable to the loaded quantity of chloride ion.     

亚硒酸钠对大鼠代谢产物影响的核磁共振研究

本文采用核磁共振(^1H NMR)技术研究了在最高耐受摄入量条件下补充亚硒酸钠对大鼠尿液代谢产物的影响。结果表明,在大鼠尿液中甲酸、乙酸、乳酸、丙氨酸、琥珀酸、甘氨酸、马尿酸、苯丙氨酸、色氨酸等代谢物谱峰信号显著增强,而柠檬酸、肌酸、尿素、尿甘素和氧化三甲胺(TAMO)的谱峰信号则显著降低。乳酸、柠檬酸和琥珀酸是体内三羧酸循环的中间产物,其代谢异常是能量代谢紊乱的标志;马尿酸、苯丙氨酸、丙氨酸的代谢异常与肾小球的滤过和回收功能有关;乙酸和甘氨酸的代谢异常则是肝功能损伤的标志,组织切片的结果也证明大鼠的肝和肾已经发生损伤,与^1H NMR的结果相一致。采用HPLC检测到补充亚硒酸钠后尿液中8-OHdG(8-hydroxy1-2′-deoxyguansoine)水平显著升高,证明体内氧化损伤的发生。以上结果表明,在最高耐受摄入量条件下补充亚硒酸钠是不安全的,用NMR方法对阐明硒的毒理学分子基础是有效的。     

Contribution of prostaglandins to the renal responses to magnesium lithospermate B isolated from salviae miltiorrhizae radix

The involvement of prostanoids in the improvement of adenine-induced renal failure in rats by magnesium lithospermate B was studied. After intraperitoneal administration of magnesium lithospermate B to renal failure rats, the levels of glomerular filtration rate, renal plasma flow and renal blood flow were increased. Urinary excretions of prostaglandin E2 (PGE2) and 6-keto-prostaglandin F1 alpha (6-keto-PGF1 alpha) in renal failure rats were increased by the administration of magnesium lithospermate B, while that of thromboxane B2 had no effect. Pretreatment with indomethacin abolished the improving effect of magnesium lithospermate B on renal function concomitantly with markedly suppressed urinary excretion of prostanoids. These results suggest that the increased formation of PGE2 and 6-keto-PGF1 alpha might contribute to the improvement of adenine-induced renal failure in rats by magnesium lithospermate B.     

Immunochemical detection of metabolites of parent and nitro polycyclic aromatic hydrocarbons in urine samples from persons occupationally exposed to diesel exhaust

An immunochemical assay was developed for the detection of metabolites excreted in urine as a result of occupational exposure to PAHs and nitro-PAHs. These metabolites were analyzed in a competitive ELISA, using an existing antibody (4D5) that has been developed against 6-aminobenzo[a]pyrene coupled to bovine serum albumine (B[a]P-BSA). A solid phase extraction (SPE) work-up procedure was optimized by dilution of pooled urine samples from rats exposed to 1-NP, in human urine. The application was validated by comparison of test results with urinary excreted 1-hydroxypyrene (1-OH-P) levels in a study among 28 railroad workers. Excretion of urinary metabolites was determined over two consecutive workdays. The 24 h average excretion of metabolites as determined in the immunoassay was not related to levels of particulate matter in the breathing zones of workers, not to 1-OH-P excretion levels of the day of urine collection. However, it was significantly associated with the personal dust exposure of the day before (P<0.0001), suggesting slow excretion of urinary metabolites. Smoking habits caused minor interference (P<0.1).     

Identification and quantification of N-methylepinephrine in human urine

N-Methylepinephrine was analysed in human urine using a high-performance liquid chromatographic catecholamine assay. The identity of the compound was confirmed by gas chromatography-mass spectrometry. The excretion of N-methylepinephrine is slightly less than that of epinephrine: excretion values were in the range 2-65 nmol per 24 h (0.4-13 micrograms per 24 h) in 150 hypertensive patients. In addition to increased epinephrine excretion, increased urinary excretion of N-methylepinephrine was found in three out of five patients with histologically proven pheochromocytoma.     

硝酸镥急性毒性的体液核磁共振氢谱研究

采用现代核磁共振技术,通过分析灌胃给药0．01、0．05、0．2、2、10和100ms／kg剂量Lu(NO3)3 24h内大鼠尿液及24h后大鼠血清的核磁共振氢谱(^1HNMR),由体液中内源性代谢物浓度的变化研究了稀土化合物在动物体内急性毒性。较高剂量组体液中的氨基酸、尿囊素、柠檬酸、氮氧三甲胺和肌酸酐等重要内源性代谢物的核磁共振谱峰强度发生了明显的变化,说明动物体内的代谢物出现异常：高剂量的稀土的引入可能使动物肾脏和肝脏均受到损害,且受损程度随稀土剂量的增高而渐趋严重。     

99mTc-EC: A new renal functional imaging agent

The biological behavior of Technetium-99m-L,L-Ethylenedicysteine (Tc-99m-EC)was compared with that of Technetium-99m-Mercaftoacetyltriglycine (Tc-99m-MAG3) and Iodine-131-hippuran (1131-OIH) in mice and rabbits. Tc-99m-EC showed a more rapid urinary excretion and less retention in kidney, liver, intestines and blood in comparison to Tc-99m-MAG3 and I-131-OIH. Urinary excretion decreased after probenecid treatment, indicating active tubular transport. In human bodies, the renal scintigraphy with Tc-99m-EC, Tc-99m-MAG3 and Tc-99m-DTPA were comparable. The promising results of the animal and human studies suggest that Tc-99m-EC may be a useful alternative to Tc-99m-MAG3 and I-131-OIH for renal functional studies.     

Determination of morphine in biological samples by gas chromatography-mass spectrometry. Evidence for persistent tissue binding in rats twenty-two days post-withdrawal

Combined gas chromatography-mass spectrometry with capillary and packed column gas chromatography and a deuterium-labelled internal standard was used to determine morphine in biological specimens from rats 22 days after abrupt withdrawal. Morphine was extracted from urine and body organs at pH 9 and the pentafluoropropionyl derivatives were made for analysis by gas chromatography-mass spectrometry. The stationary phase was OV-17 and the mass spectrometer was focused on m/z 414 for morphine and m/z 417 for the internal standard, [NC2H3]morphine. With fused-silica capillary columns, the sensitivity of the assay was increased about ten-fold over packed columns. Urinary excretion of total morphine (free + conjugated) was 22 ng/h (range 11-51 ng/h, n = 8) at 22 days post-withdrawal. Free morphine was mainly detected in the lung (1.8-6.5 ng/g, n = 7), kidney (1.5-4.0 ng/g, n = 7) and liver (1.8-4.6 ng/g, n = 4). Traces of morphine were also detected in brain of some rats. Treatment with the opiate antagonist naltrexone, 10 mg/kg on four consecutive days before death, failed to change the urinary excretion pattern or the concentration of free morphine in body organs. The biological significance of the residual morphine, if any, remains to be determined.     

Absorption, distribution, metabolism and excretion of N-cyclohexyl-2-benzothiazyl sulfenamide (CBS), a vulcanizing accelerator, in rats

Absorption, distribution, metabolism and excretion were studied in rats following a single oral administration of N-cyclohexyl-2-benzothiazyl sulfenamide (CBS) at a dose of 250 mg/kg. About 65% and 24% of the dose were excreted into urine and feces, respectively, for 3 days after administration of labeled CBS (cyclohexyl-14C). Biliary excretion amounted to about 5% of the dose for 3 days. While about 92% of the dose was recovered in urine and feces at a ratio of 1:1 within 3 days when 14C-2CBS was given. No specific organ-affinity was observed in distribution study. Cyclohexylamine and 2-mercaptobenzothiazole were identified as urinary metabolites.     

Effect of extended use of single anabolic steroids on urinary steroid excretion and metabolism

Long-term use of single anabolic steroids by weightlifters and body builders at dosages greater than or equal to 25 mg per 24 h resulted in reduced excretion of urinary androgen metabolites, androsterone and etiocholanolone, compared to values prior to anabolic use. The excretion of major urinary metabolites of glucocorticoids was not affected by anabolic use. Urinary excretion of anabolic steroids or anabolic metabolites averaged 20-25% of total anabolic steroid administered. The major excreted metabolites of methandrostenolone, nandrolone, oxandrolone and oxymetholone were identified by gas chromatography-mass spectrometry based on the major mass spectral ion peaks.     

朱砂中汞的生物可接受性及其吸收与排泄

研究了朱砂中汞的生物可接受性及其在体内的吸收与排泄.采用体外消化透析法测定了朱砂中汞的生物可接受性;计算了大鼠灌胃给予临床剂量(50mg/kg)朱砂后汞的药动学参数;测定了给予临床剂量的朱砂后大鼠粪样中汞的排泄量.结果表明,朱砂中汞的溶出率为0.011%,生物可接受率为0.003 3%.大鼠灌胃给予临床剂量的朱砂后,汞的药动学参数为:最高血药浓度(ρmax)为(6.3±1.3)μg/L,达峰时间(tmax)为(1.3±0.4)h,半衰期(t1/2)为(4.2±0.5)h,血药浓度-时间曲线下面积(AUC)为(54.7±8.7)μg.h.L-1.给予朱砂12h后汞在粪便中排泄量最大,96h后在粪样中仍可检测到少量汞.朱砂中汞的生物可接受性较低,在体内吸收少,滞留时间较长,排泄缓慢,长期服用可在体内蓄积,产生毒性.