Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.2.1.7 (BAL)
 1,977 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of some new chelating agents on the cadmium burden of CHO cells in culture were investigated. The chelators were sodium-N-(4-methoxybenzyl)-D-glucamine-dithiocarbamate (MeOBG-DTC), sodium-N-benzyl-D-glucaminedithiocarbamate (BG-DTC) and diisopropylmeso-2,3-dimercapto succinate (DiP-DMSA). The results were compared with the effect of the well known dimercaptopropanol (BAL). The derivates of dithiocarbamate are much less toxic than DiP-DMSA and BAL. All chelators effectively prevent Cd uptake into the cells. Mobilization of intracellular Cd, however, is more effective by the DTC-derivatives than by DiP-DMSA or BAL. Within the cell the major fraction of Cd after 48 hours incubation is found in the nuclei and cytosol and very little in the peroxisomes. The chelating agents remove the metal mostly from nuclei and cytosol. Incubation of the cells with cadmium leads to the induction of a Cd binding protein of an apparent molecular weight of 12500 Da, presumably metallothionein. MeOBG-DTC is more effective in removing the metal from this protein than BG-DTC.
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PMID:Effects of chelating agents on the cadmium burden of cells in culture. 165 37

The effect of two vicinal dithiols, 2,3-dimercaptopropan-1-ol (BAL) and N-(2,3-dimercaptopropyl)phthalamidic acid (DMPA), and a dithiocarbamate, sodium N-(4-methoxybenzyl)-D-glucamine dithiocarbamate (MeOBGDTC), on the biliary excretion of cadmium was examined in rats. Tissue cadmium levels were also determined following the measurements of biliary excretion of cadmium. At 30 min after the injection of CdCl2.2.5H2O (1 mg/kg, iv) each rat was given 400 mumol/kg ip of one of the compounds, BAL, DMPA or MeOBGDTC. While all the compounds increased the biliary excretion of cadmium, the most effective was MeOBGDTC, whose administration resulted in a 580% increase in biliary cadmium content. The effectiveness of the MeOBGDTC may be due to the presence of both nonpolar and nonionizing polar groups attached to nitrogen. MeOBGDTC was able to mobilize cadmium to the bile even after the occurrence of the synthesis of metallothionein and the incorporation of the cadmium into it. An attempt was also made to determine the chemical nature of the Cd-MeOBGDTC complex present in the bile by comparing a newly synthesized authentic sample of Cd(MeOBGDTC)2 complex with the hot dioxane extract of the freeze-dried bile samples using thin-layer chromatography and proton NMR. The results suggested that cadmium excreted in the bile in part, is complexed to MeOBGDTC and glutathione.
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PMID:A comparative study of the influence of vicinal dithiols and a dithiocarbamate on the biliary excretion of cadmium in rat. 189 71

Male Sprague-Dawley rats were injected with 109CdCl2 (3 mumol Cd/kg) and killed between 1 h and 200 d afterwards. Metal concentration in the critical organs, i.e. liver and kidneys decreased very slowly. Within the cells Cd is found mainly in the cytosol and--at very early times--in the nuclei. Within the cytosol of the liver most of the metal is initially bound to proteins with high molecular weight but as early as 3 h after incorporation more than 90% is bound to metallothionein which is always the main binding site in the kidneys. Of the chelating agents tested only BAL and Puchel were able to reduce the body burden significantly. Both are lipophilic substances. Puchel cannot reduce the kidney Cd burden but removes Cd from the liver only while BAL is effective in both organs. Both chelating agents exert their effects at doses which are too near to the LD50 to be considered as safe enough for human use.
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PMID:Influence of several chelating agents on the distribution and binding of cadmium in rats. 369 90

The effects of the chelating agents CaNa2-ethylenediaminetetraacetate (EDTA), CaNa3-diethylenetriaminepentaacetate (DTPA), 2,3-dimercaptosuccinic acid (DMSA), 2,3-dimercaptopropanol (BAL), and 2,3-dimercaptopropane-1-sulfonate (DMPS) and of the lipophilic chelating agents Puchel, Puchel-bisamidocysteineethyl ester (Puch-D), and EDTA-bis-amidocysteineethyl ester (EDTA-D) on the distribution of iv injected Cd were studied in male Sprague-Dawley rats. The chelating agents were injected iv as single doses given 10 sec, 1 hr, or 3 hr after 3 mumol/kg Cd + 115mCd. When the chelating agents were injected within 10 sec after the metal, all agents reduced the total body cadmium burden by varying extents ranging from 3% of that in untreated control rats after 0.01 mmol BAL/kg to 94% following 0.1 mmol DTPA/kg. When given 1 hr after Cd injection, the efficacy of all the agents tested was markedly reduced or abolished; at this time only Puchel and Puch-D provoked significant reductions in the body burden of Cd by 21 and 32%, respectively. When treatment was delayed until 3 hr after Cd injection, only Puch-D was able to reduce the body and liver burden of the metal by 14 and 9%, respectively. Combined treatment with Puchel + DTPA, BAL + DTPA, or BAL + DMPS did not enhance Cd removal to an extent greater than that expected from the equivalent dose of the more effective agent of that pair alone. Repeated administration of DTPA, 20 X 0.1 mmol/kg, during 4 weeks by ip or po administration of the same dose in the drinking water over 4 weeks, was no no more effective than the first dose of the chelating agent alone. Gel chromatographic studies of the distribution of Cd among the proteins of the liver cytosol in treated and untreated animals indicate that neither DTPA nor Puchel was able to release Cd from the metallothionein complex.
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PMID:Influence of chelating agents on the distribution and excretion of cadmium in rats. 640 9

The effect of several chelating agents (diethyldithiocarbamic acid, DDC; nitrilotriacetic acid, NTA; 2,3-dimercaptopropanol, BAL; d,l-penicillamine, PEN; 2,3-dimercaptosuccinic acid, DMSA; ethylenediaminetetraacetic acid, EDTA; and diethylenetriaminepentaacetic acid, DTPA) on the toxicity, distribution and excretion of cadmium (Cd) was determined in mice. When chelators were administered immediately after Cd, significant increases in survival were noted after treatment with DMSA, EDTA, and DTPA. DTPA, followed by EDTA and then DMSA, were consistently the most effective in decreasing the tissue concentrations of Cd and increasing the excretion of Cd. NTA, BAL, DDC and PEN had no beneficial effects. The effects of increasing the time interval between Cd administration and initiation of chelation therapy was determined by using a single administration of DTPA, EDTA, and DMSA. Mice treated immediately after Cd administration excreted approximately 50% of the administered dose of Cd compared to 0.2% in controls. Treatment with chelator at later times significantly increased Cd excretion but the magnitude of the effect was much less than that seen in mice treated immediately after Cd. To determine the role of MT in the acute decrease in chelator efficacy following Cd poisoning, rats were injected IV with Cd followed by DTPA at various times after Cd. Although DTPA reduced Cd content in the various organs when given immediately after Cd, the chelator was ineffective at all later times. Increases in hepatic and renal metallothionein (MT) did not occur until 2 hr after Cd, and did not coincide with the earlier drop in chelator efficacy. Blockade of MT synthesis by actinomycin D failed to eliminate this decreased DTPA effectiveness. Therefore, it appears that MT does not play an important role in the acute decrease in efficacy of chelation therapy for Cd poisoning. The effect of repeated daily administration of chelators on the distribution and excretion of Cd was studied by administering chelators daily for 5 days starting 48 hr after Cd. DTPA, EDTA, DMSA and BAL significantly increased the urinary elimination of Cd. Thus, mobilization of Cd into urine occurs with repeated chelation therapy, which may decrease tissue concentrations of Cd and reduce the toxicity of the metal.
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PMID:Alteration of tissue disposition of cadmium by chelating agents. 673 58

Cadmium (Cd) is mainly accumulated in liver and kidney bound to metallothionein (MT) and excreted very slowly from the body. In chronic exposure, Cd is gradually transported from liver to kidney; the renal toxic effects appear when renal Cd concentration exceeds the critical concentration. In order to prevent the Cd-induced renal disease, it is important to control the movement of Cd to the kidney and its renal deposition. However, the chelation of Cd from liver is difficult because of the high affinity of intracellular MT for Cd. A number of chelating agents containing both carboxyl and thiol groups were able to mobilize and excrete Cd more easily in a short time (1/2 hr) after Cd exposure than longer times (24 hr), after MT synthesis. The renal deposition of Cd increased on BAL (2,3-dimercaptopropanol) treatment a short time (1/2 hr) after Cd exposure. However, it was observed that if BAL was administered 24 hr after Cd exposure, it could mobilize Cd from hepatic MT and increase the biliary excretion of Cd without any increase in renal Cd concentration. Studies using a number of structurally related thiols (mono-, di- and trithiols) showed that the major structural requirement for in vivo chelation of Cd from intracellular MT were the vicinal thiol groups on an aliphatic chain, and lipophilicity. BAL was the most effective of all the compounds studied and it did not mobilize Cd to the kidney, when most of the intracellular Cd was bound to MT. Furthermore, a delayed treatment with BAL or DTPA (diethylenetriamine pentaacetic acid) after synthesis of MT resulted in an increase in fecal or urinary excretion of Cd in rat model experiment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chelation of cadmium without increased renal cadmium deposition. 673 59

The toxicity of cadmium is determined by chelation reactions: in vivo, Cd2+ exists exclusively in coordination complexes with biological ligands, or with administered chelating agents. The Cd2+ ion has some soft character, but it is not a typical soft ion. It has a high degree of polarizability, and its complexes with soft ligands have predominantly covalent bond characteristics. Cd2+ forms the most stable complexes with soft donor atoms (S much greater than N greater than 0). The coordination stereochemistry of Cd2+ is unusually varied, including coordination numbers from 2 to 8. Even though the Cd2+ ion is a d10 ion, disturbed coordination geometries are often seen. Generally, the stability of complexes increases with the number of coordination groups contributed by the ligand; consequently, complexes of Cd2+ with polydentate ligands containing SH groups are very stable. Cd2+ in metallothionein (MT) is coordinated with 4 thiolate groups, and the log stability constant is estimated to 25.5. Complexes between Cd2+ and low molecular weight monodentate or bidentate ligands, e.g., free amino acids (LMW-Cd), seem to exist very briefly, and Cd2+ is rapidly bound to high molecular weight proteins, mainly serum albumin. These complexes (HMW-Cd) are rapidly scavenged from blood, mainly by the liver, and Cd2+ is redistributed to MT. After about 1 day the Cd-MT complex (MT-Cd) almost exclusively accounts for the total retained dose of Cd2+, independent of the route of exposure. MT-Cd is slowly transferred to and accumulated in kidney cortex. The acute toxicity and interorgan distribution of parenterally administered Cd2+ are strongly influenced by preceding MT induction, or decreased capacity for MT synthesis; however, the gastrointestinal (GI) uptake of Cd2+ seems unaffected by preceding MT induction resulting in considerable capacity for Cd2+ chelation in intestinal mucosa, and this finding indicates that endogenous MT is not involved in Cd2+ absorption. The toxicity of parenterally administered Cd2+ is strongly enhanced when administered as complexes with NTA or STPP , but it is much decreased when administered as a complex with EDTA. In chronic oral exposure the toxicity and GI uptake of Cd2+ is not changed when Cd2+ is administered as a complex with the detergent formula chelating agents NTA, EDTA and STPP . The uptake of Cd2+ from ligated intestine in vivo was not affected by administration of Cd2+ as complexes with CYS or GSH, but significantly reduced by complexation with EDTA or BAL. The acute toxicity of orally administered Cd2+ is reduced when Cd2+ is administered as a complex with EDTA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Chelation of cadmium. 673 60

The utility of isolated rat hepatocytes as a model system for screening potential chelators in treatment of Cd intoxication was studied. The ability of the chelators diethylenetriaminepentaacetic acid (DTPA), ethylenediaminetetraacetic acid (EDTA), 2,3-dimercaptosuccinic acid (DMSA), diethyldithiocarbamic acid (DDC), d,1-penicillamine (PEN), nitrilotriacetic acid (NTA), and 2,3-dimercaptopropanol (BAL) to decrease the cellular concentration of Cd was correlated with the previously reported effectiveness of these agents in the treatment of Cd intoxication in vivo. The results of cellular studies with either control or metallothionein-induced hepatocytes were compared to the in vivo effect of the chelators administered before or after the induction of metallothionein, respectively. The effects of DTPA, EDTA, DDC, and BAL in the hepatocyte model screening system correlated well with their reported in vivo effects. The results with NTA, PEN, and DMSA were not correlated as well but were explained by the relative differences between in vivo doses versus in vitro concentrations of the respective chelators. Therefore, the proposed model for screening potential chelators for use in cadmium intoxication appears to be a system which may prove to be an economical and rapid method to facilitate the search for efficacious chelators.
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PMID:Isolated rat hepatocytes as a model system for screening chelators for use in cadmium intoxication. 683 80

The effects of several mono-, di-, and trithiols (400 mumol/kg) in mobilizing Cd from metallothionein were studied in rats 24 h after a single injection of 109CdCl2 (1 mg kg/Cd). BAL (2,3-dimercaptopropanol) and propanetrithiol (1,2,3-trimercaptopropane) were the most effective mercaptans in increasing the biliary excretion of Cd (3.1 and 5.5% of administered dose, respectively, compared to 0.04% in control injected with propylene glycol) in in situ experiments with a significant decrease in hepatic Cd. Propane-1-thiol was inactive and propanetrithiol was the most toxic of the compounds studied. A number of propane dithiols having sulfhydryl groups at different carbon positions with and without substituents (OH or SO-3) and dimercaptoethane were also tested for effectiveness in removing Cd. All the lipophilic compounds with two adjacent sulhydryl groups were effective in increasing the biliary excretion of Cd, but were less effective than BAL and propanetrithiol. The major form of Cd in liver cytosols of rats pretreated with CdCl2 and injected with mercaptans was metallothionein. A small amount of Cd in liver cytosol and a major portion of biliary Cd in propanetrithiol-injected rats were bound to high-molecular-weight proteins when fractionated on Sephadex G-75 columns. On the other hand, after injection of BAL, most of the Cd in the bile was associated with a fraction of molecular weight 10,000. Even though Cd was present mainly as metallothionein in livers of Cd-pretreated rats, the biliary forms of Cd after injection of BAL and propanetrithiol were different. Similar results were obtained when Cd was added in vitro to bile samples collected from control rats that were injected with these chelating agents alone. However, the Sephadex G-75 elution profile of Cd-BAL and Cd-propanetrithiol after direct addition to control rat bile showed Cd complexes of identical molecular weight (less than 6000). These results suggested that the Cd-binding ligands present in bile after injection of BAL and propanetrithiol were different from and had a higher molecular weight than the complexes in vitro with Cd and the respective chelating agents.
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PMID:Biliary excretion of cadmium in rat. V. Effects of structurally related mercaptans on chelation of cadmium from metallothionein. 709 93

Chelation and removal of cadmium from rats which were exposed to cadmium by multiple injections were studied in vivo after injection of two different compounds, 2,3-dimercaptopropanol (BAL) and diethylenetriamine pentaacetic acid (DTPA). Rats were injected i.p. with 1 mg of Cd/kg as 109CdCl2 daily for 4 days and 3 days after the last injection, they were treated with the chelating agents alone or in combination 5 days in a week for 2 weeks. BAL (50 mg/kg) alone or in combination with DTPA (50 mg/kg) was effective in removing cadmium from the body without increasing the level of cadmium in the kidney, the critical organ in cadmium toxicity. After treatment with BAL alone and BAL-DTPA, cadmium was excreted mainly in the feces with marked decrease in hepatic and renal concentrations of both cadmium and metallothionein. Injection of DTPA alone increased the urinary excretion of cadmium without any significant change in tissue cadmium. Although the urinary excretion of zinc was increased after injection of DTPA and also BAL-DTPA, there was no change in the tissue levels of zinc and copper. The results of this study suggest the potential use of BAL or BAL-DTPA combination as a mode of chelation of cadmium from the body under proper experimental conditions in chronic cadmium poisoning. It may be possible to prevent tubular damage in the kidney, the critical organ in cadmium toxicity by this treatment.
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PMID:Chelation of cadmium from metallothionein in vivo and its excretion in rats repeatedly injected with cadmium chloride. 710 71


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