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)

Alloxan is known to inhibit pancreatic B cell and liver glucokinase and glucose protects the enzyme against inhibition. The dithiol 1,4-dithiothreitol (1,4-DTT) protected against and reversed the inhibition of glucokinase by alloxan. An investigation into the structure-activity relationship using a variety of different dithiols demonstrated that the ability of the dithiols to protect against and to reverse the inhibition of glucokinase by alloxan was dependent on the spacing between the SH (thiol) groups of the various dithiols. Only 1,3-dimercaptopropane, 1,4-dimercaptobutane, 1,4-dithioerythritol, and 1,4-DTT, with intermediate spacing between the SH groups, reversed the inhibition of glucokinase induced by alloxan. Dithiols with two vicinal SH groups such as 1,2-dimercaptoethane and 2,3-dimercaptopropanol (BAL) were ineffective in the same way as dithiols with more widely spaced SH groups such as 1,5-dimercaptopentane and 1,6-dimercaptohexane. Except for 1,6-dimercaptohexane, all dithiols also protected glucokinase against the inhibition of alloxan. The monothiol cysteine, but not glutathione, a tripeptide monothiol, also protected glucokinase against alloxan inhibition but both were unable to reverse the inhibition. Like alloxan, other dithiol reagents such as ninhydrin, N-ethylmaleimide, and maleimide inhibited glucokinase. Glucose and 1,4-DTT protected glucokinase against this inhibition. 1,4-DTT partially reversed this inhibition. It is concluded, therefore, that the mechanism of inhibition of glucokinase by alloxan is a reaction of alloxan with two adjacent SH groups in the depth of the sugar-binding site of the glucokinase, with formation of a disulfide bond and concomitant inactivation of the enzyme. Because glucokinase can couple changes in the blood glucose concentration to changes in the glycolytic flux rate and corresponding changes in the rate of insulin secretion, it may function as a glucose signal recognition enzyme in the pancreatic B cell. This mechanism of interaction of alloxan with glucokinase may thereby provide an explanation for the ability of alloxan to inhibit glucose-induced insulin secretion.
Mol Pharmacol 1988 Sep
PMID:Inhibition of glucokinase by alloxan through interaction with SH groups in the sugar-binding site of the enzyme. 341 26

BAL in patients with ARDS provides material containing the soluble and cellular constituents of the alveolar compartment, and hence is a useful tool for the study of the pathogenesis of ARDS. The technique is imperfect as it is prone to problems of data acquisition and interpretation. However, it is lung-specific and may be used in serial studies of patients over the course of their disease. A large amount of evidence is rapidly being accumulated which documents the presence of effectors of inflammation in the BAL fluids of patients with ARDS. Confirmation of the importance of such mediators, pathways, or cellular constituents of BAL fluid in establishing the pathogenesis of ARDS ultimately depends upon proof of the efficacy of specific clinical interventions which both arrest the activity of the effector and predictably alter the course of the disease.
Clin Chest Med 1985 Sep
PMID:Bronchoalveolar lavage in patients with the adult respiratory distress syndrome. 390 47

The outer membranes and cytoplasmic membranes of the marine bacterium Pseudomonas BAL-31 were separated by washing the cells three times in 0.5 M NaCl and twice in 0.5 M sucrose. Electron microscopy during the removal of membranes revealed that the outer membranes fragmented in a regular manner to give rise to fairly uniform vesicles measuring approximately 140 nm in diameter. Isolated outer membranes had a buoyant density in sucrose of 1.230 g per cm(3), whereas the cytoplasmic membranes had a density of 1.194 g per cm(3). The removal of the outer membrane during the application of this procedure was monitored by measuring the release of 2-keto-3-deoxyoctulosonic acid and phospholipid. The cells lost 85.5% of their 2-keto-3-deoxyoctulosonic acid and 47.3% of their phospholipid during this treatment. Complete recovery of outer membrane material could be achieved. The removal of 25.5% of the 2-keto-3-deoxyoctulosonic acid and 0.9% of the phospholipid rendered the cells sensitive to lysis with Triton X-100. The phospholipid composition of the outer membrane was calculated to be 78.9% phosphatidylethanolamine and 16.1% phosphatidylglycerol. The phospholipid composition of the cytoplasmic membrane proved to be 71.5% phosphatidylethanolamine and 23.5% phosphatidylglycerol. The fatty acid composition was also found to be quantitatively heterogeneous between the two membranes.
J Bacteriol 1974 Sep
PMID:Heterogeneity in lipid composition of the outer membrane and cytoplasmic membrane and cytoplasmic membrane of Pseudomonas BAL-31. 485 62

Present status of Ga lung scan in sarcoidosis is reviewed: accumulation of radionuclide in the lung fields seems better quantified by computer methods; low doses (1.5 mCi) may be enough in the centres using subjective scoring methods; Ga positivity shown on four-view segmental maps of each lung could be useful in guiding BAL or lung biopsy. Ga lung scan appears more sensitive than both Chest X-ray and ACE in evaluating the response to therapy and in foreseeing relapses. The comparison with BAL is difficult due to the difficulty of comparing BAL data from different laboratories. Anyway, Ga, ACE and BAL are markers of different phenomena and all help our understanding of the disease and should guide our interventions. Ga scoring during steroid therapy has a strong clinical meaning only when positive, while negativity could be due to drug-induced uptake suppression.
Sarcoidosis 1984 Sep
PMID:Ga lung scan has come to stay. 610 Sep 23

1. The subcellular location of enzymes conjugating bile acids with glycine or taurine was investigated by centrifugation of rat liver homogenates. 2. [14C]Cholic acid-conjugating activity was predominantly associated with the soluble-microsomal region of the gradient after centrifugation in a Ti-15 zonal rotor but the bulk of the conjugating activity sedimented with mitochondrial-lysosomal fractions in differential pelleting experiments. 3. Cholate: CoA ligase (EC 6.2.1.7) and cholyltransferase (EC 2.3.1) were not enriched in purified Golgi or plasma-membrane fractions. Cholate: CoA ligase was distributed evenly between rough- and smooth-surfaced microsomal subfractions but cholyltransferase showed a dual soluble-rough microsomal activity distribution. 4. Sedimentation of cholyltransferase in mitochondria-enriched fractions prepared by differential centrifugation appears to be an artefact of sedimentation of rough microsomal membranes in mitochondrial fractions. 5. The subcellular distribution of bile acid-conjugating enzymes is discussed with reference to hepatic processing of bile acids.
Biochem J 1981 Sep 01
PMID:Subcellular distribution of hepatic bile acid-conjugating enzymes. 617 37

The unicellular alga Poterioochromonas malhamensis was exposed to 12.5 microM of inorganic or triethyl lead and simultaneously treated with lead antidotes and related agents at concentrations of 12.5, 31.25 and 62.5 microM. With increasing concentrations some of the antidotes alone slightly to severely inhibited algal growth (BAL, CaNa2EDTA, EDTA, Na2EDTA), whereas others (DPA, EGTA, DIZO) were non-toxic at the concentrations tested. EGTA and CaNa2EDTA, at all concentrations tested, completely suppressed the growth inhibition caused by inorganic lead; Na2EDTA and EDTA were protective at the lower or medium concentrations, but DIZO, DPA and BAL considerably enhanced lead toxicity with increasing concentrations. None of the tested agents was able to reduce the toxic effects of triethyl lead. All antidotes markedly increased inhibition of algal growth caused by triethyl lead and some were even lethal to the poisoned algae either at the highest (Na2EDTA, EDTA, DPA) or at all concentrations used (DIZO, BAL). P. malhamensis proved to be a highly sensitive and valuable tests system and the results obtained exhibited striking parallels to medical and clinical experience in therapy of human poisoning with inorganic and organic lead compounds.
Chem Biol Interact 1983 Sep 01
PMID:On the toxic effects of tetraethyl lead and its derivatives on the chrysophyte Poterioochromonas malhamensis. IV. Influence of lead antidotes and related agents. 641 29

Diabetogenic action of dithisone was investigated in a total of 368 adult rabbits and 53 young animals between 10 h and 31 days of age. The diabetes was found in 95% of animals injected with dithisone and various forms of this disease were observed: 1. long-term diabetes without any signs of normalization of glycemia; 2. diabetes with periodical remissions; 3. several cases with a definite remission. The diabetes did not appear in young animals during certain periods of life in which the concentration of zinc in pancreatic islets was very low. It was possible to prevent the development of this disease by the administration of some compounds containing sulfhydryl or imidazole groups (cysteine, SH-glutathione, dimercaptopropanol (BAL), unithiol (sodium 2,3-dimercaptopropansulfonate), (histidine) and the diabetes also did not appear in such animals in which a majority of zinc was removed by glybenclamide. From these observations it was concluded that the development of diabetes after dithisone depends on the formation of dithisone complex with zinc in beta-cells.
Endocrinol Exp 1984 Sep
PMID:Dithisone diabetes in rabbits and its prevention by sulfhydryl and imidazole containing compounds. 643 2

The extracellular nuclease from Alteromonas espejiana BAL 31 is a highly sensitive endonucleolytic probe for lesions that distort the helical structure of duplex DNA. The nuclease can be isolated as two distinct molecular species, the 'fast' (F) and 'slow' (S) species, which have different kinetic properties. When nonsupercoiled, covalently closed circular phage PM2 DNA containing apurinic sites introduced by heating at acid pH was incubated with individual fractions from a chromatographic column which separated the two nuclease species, cleavage of the DNA was observed which was greatly in excess of control levels using nonmodified DNA. The initial rates of such cleavage clearly paralleled the peaks of both absorbance and nuclease activity against single-stranded and linear duplex substrates. When samples of apurinic DNA were incubated with pooled fractions from the same column representing pure F and S nucleases, respectively, the rate and extent of the cleavage observed was dependent upon the average number of apurinic sites per molecule. Cleavage was readily detectable in samples containing an average of 1.1 apurinic sites per molecule with both species of the enzyme. These results indicate that either species of the BAL 31 nuclease can recognize and cleave in response to a single apurinic site in duplex DNA. The F nuclease appears to be approx. 2.5-times as efficient in cleaving DNA containing apurinic lesions as the S enzyme in extended incubations.
Biochim Biophys Acta 1984 Sep 10
PMID:A single apurinic site can elicit BAL 31 nuclease-catalyzed cleavage in duplex DNA. 647 17

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.
J Pharmacol Exp Ther 1982 Sep
PMID:Chelation of cadmium from metallothionein in vivo and its excretion in rats repeatedly injected with cadmium chloride. 710 71

The relative efficacy of thiol-containing mercurial scavengers was assayed by using cellular suspensions of erythrocytes or isolated hepatocytes. The blood cells incubated in a buffer (pH 7.4) containing 1 mM glucose (10% hematocrit) were exposed to 5 microM methyl mercuric chloride. In the absence of extracellular thiols the red blood cells took up more than 90% of methyl mercury from the surrounding medium during 5--10 min. This uptake was almost completely inhibited by dimercaptosuccinic acid (DMSA) (1 mM) and the same chelant could rapidly remove 80% of the mercury from 'pre-loaded' erythrocytes. Hepatocytes prepared according to the method of Seglen [11] in a suspension of 10(6) cells/ml in a buffer containing 5 mM glucose and 5 mg/ml of bovine serum albumin were also exposed to methyl mercuric chloride (4 microM). Almost 50% of the mercurial was taken up by the cells slowly during the incubation period of 240 min. DMSA (1 mM) almost completely blocked the methyl mercury binding by the hepatocytes. 2-Mercaptopropionylglycin (Thiola) or mercaptosuccinic acid (MSA) was almost as effective mercurial scavengers as DMSA in hepatocytes and in red blood cells. Diethyldithiocarbamate (DDC) and dimercaptopropanol (BAL) were considerably less effective than DMSA to inhibit the mercurial binding to hepatocytes. Experiments in vivo have shown that DMSA is a better mercurial chelator than Thiola or MSA, whereas DDC and BAL may both be considered to be inapplicable in methyl mercury poisonings. Our cellular assay provides preliminary information of the efficiency of chelating thiols and may serve as a useful first approximation when planning further experiments.
Chem Biol Interact 1981 Sep
PMID:Evaluation of methyl mercury chelating agents using red blood cells and isolated hepatocytes. 728 35


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