Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasmodium yoelii nigeriensis infection in albino mice caused a significant increase in hepatic heme level, the increase being concomitant with a rise in parasitemia. This elevated heme was found to be associated with all the subcellular fractions except the cytosol, where its content remained unaltered. Activity of heme oxygenase, the key enzyme responsible for catabolism of heme, also increased progressively with rise in parasitemia. Treatment of normal mice with cobalt chloride [60 mg (kg body wt)-1; subcutaneously] brought about a 150% increase in the level of heme oxygenase; similar treatment of infected mice at low parasitemia could induce the enzyme activity while at high parasitemia the enzymic activity remained unaltered as compared to untreated infected mice. In spite of an increased level of heme oxygenase in the cobalt-treated mice, the level of heme did not show any noticeable change. Oral administration of chloroquine [64 mg (kg body wt)-1 x 4 days] brought about a 56% reduction in the level of heme oxygenase of normal animals but there was no change in infected animals when compared with the corresponding untreated infected mice. However, the amount of chloroquine present in livers of normal and infected animals was not significantly different.
Exp Mol Pathol 1991 Aug
PMID:Status of hepatic heme and heme oxygenase during Plasmodium yoelii nigeriensis infection in mice. 188 69

Cobalt, a metal with numerous industrial applications, has been associated with lung disease, an extreme form of which is an interstitial fibrosis. The biochemical mechanisms underlying this toxicity are not understood. In vitro studies have suggested that cobalt(II) ions are able to generate reactive oxidant species (possibly hydroxyl radical) in a reaction with hydrogen peroxide, and we have hypothesized that the occurrence of such an event in lung tissue, and the subsequent development of oxidative damage, may contribute to this pulmonary toxicity. The intratracheal instillation of CoCl2 into hamster lungs resulted after 3 h in decreased levels of reduced glutathione and increases in levels of oxidized glutathione and in the activity of the pentose phosphate pathway. These changes, which are compatible with the generation of oxidative stress, were reversed by 48 h at low Co2+ doses (1.0 to 1,000 micrograms/kg). Irreversible changes at higher doses coincided with the onset of pulmonary edema. Incubation of lung slices with CoCl2 (0.1 to 10 mM) resulted in time- and Co2+ concentration-dependent increases in levels of oxidized glutathione and protein-mixed disulfides and a decrease in reduced glutathione. A concentration-dependent stimulation of the pentose phosphate pathway was also observed. These changes preceded the detection of overt cell toxicity, as assessed by various biochemical parameters. These data indicate that thiol oxidation constitutes an early event in the pulmonary toxicity of cobalt(II) ions and are compatible with the hypothesis that the generation of oxidative stress may be of significance to the toxic process.
Am J Respir Cell Mol Biol 1991 Aug
PMID:Indices of oxidative stress in hamster lung following exposure to cobalt(II) ions: in vivo and in vitro studies. 189 47

The highly purified preparations of Bollum's terminal transferase from calf thymus were shown to catalyze, along with the common reaction of nucleotide addition to the 3'-terminus of an oligonucleotide primer, a "non-common" reaction between dNTP or rNTP on one hand, and various alcohols on the other hand. This reaction was carried out with ethylene glycol, glycerol, ethanol and methanol to produce substances containing one molecule of nucleotide, one molecule of alcohol and non-organic pyrophosphate. The reaction conditions are cacodylate buffer, pH 7, 2, in the presence of Mg2+ or Co2+ ions. The structure was determined for the product of the reaction between glycerol and dATP, which appeared to be 2,3-dihydroxypropyl-ether of 2'-deoxyadenosine-5'-monophosphate.
Mol Biol (Mosk)
PMID:[A new reaction catalyzed by Bollum's terminal deoxyribonucleotidyltransferase]. 189 36

Protein tyrosine kinase (PTK) activities in methyl nitrosourea (MNU)-induced rat mammary carcinoma has been investigated by using poly (glu: tyr; 4:1) as an exogenous substrate. The PTK activity of the mammary carcinoma was almost equally distributed between the particulate and soluble (cytosolic) fractions at 110,000 X g. The activity of the particulate enzyme was stimulated by non-ionic detergent Triton X-100 by about 2-fold whereas the detergent had no effect on the cytosolic form. More than 60% of the particulate enzyme could be solubilized by 5% Triton X-100. Although, both particulate and cytosolic PTKs catalyzed the phosphorylation of several tyrosine containing synthetic substrates to various degrees, poly (glu: tyr; 4:1) was the best substrate (apparent Km. 0.7 mg/ml). Both forms of enzymes utilized ATP as the phosphoryl group donor, with an apparent Km of 40 microM. Among various divalent cations tested, Co2+, Mn2+ and Mg2+ were able to fulfill the divalent cation requirement of both forms of the PTKs. All these cations exerted biphasic effects on the kinase activities, however, Mg2+ was the most potent cation. Agents such as epidermal growth factor, insulin and platelet derived growth factor which stimulate their respective receptor-PTK activities were without effect on PTK activities of mammary carcinoma. On the other hand, though heparin and quercetin inhibited both enzyme activities in a concentration dependent manner, the particulate form was more sensitive to inhibition than the cytosolic form. These data indicate that MNU-induced rat mammary carcinoma expresses both particulate and cytosolic forms of PTKs and that there are significant differences in the properties of the two forms of PTKs. Differential effects of some agents on mammary carcinoma PTKs suggest that these enzymes may be acutely regulated in vivo and could play an important role in mammary carcinogenesis.
Mol Cell Biochem 1991 Jul 24
PMID:Biochemical characteristics of cytosolic and particulate forms of protein tyrosine kinases from N-methyl-N-nitrosourea (MNU)-induced rat mammary carcinoma. 192 15

Maitotoxin (MTX) increases formation of [3H]inositol phosphates from phosphoinositides and release of [3H]arachidonic acid from phospholipids in pheochromocytoma PC12 cells. Formation of [3H]inositol phosphates is detected within 1 min of incubation even with concentrations as low as 0.3 ng/ml (90 pm) MTX, whereas release of [3H]arachidonic acid is not detected until 20 min even with concentrations as high as 1 ng/ml (300 pm) MTX. Stimulation of arachidonic acid release can be detected at 0.03 ng/ml (9 pm) MTX, whereas 0.1 ng/ml (30 pm) MTX is the threshold for detection of phosphoinositide breakdown. Organic and inorganic calcium channel blockers, except Cd2+ and a high concentration of Mn2+, have no effect on MTX-elicited phosphoinositide breakdown, whereas inorganic blockers (e.g., Co2+, Mn2+, Cd2+), but not organic blockers (nifedipine, verapamil, diltiazem), inhibit MTX-stimulated arachidonic acid release. All calcium channel blockers, however, inhibited MTX-elicited influx of 45Ca2+ and the MTX-elicited increase in internal Ca2+ measured with fura-2 was markedly reduced by nifedipine. MTX-elicited phosphoinositide breakdown and arachidonic acid release are abolished or reduced, respectively, in the absence of extracellular calcium plus chelating agent. The calcium ionophore A23187 has little or no effect alone but, in combination with MTX, A23187 inhibits MTX-elicited phosphoinositide breakdown and enhances arachidonic acid release, the latter even in the absence of extracellular calcium. The results suggest that different sites and/or mechanisms are involved in stimulation of calcium influx, breakdown of phosphoinositides, and release of arachidonic acid by MTX.
Mol Pharmacol 1990 Feb
PMID:Maitotoxin: effects on calcium channels, phosphoinositide breakdown, and arachidonate release in pheochromocytoma PC12 cells. 215 71

High level bacterial resistance to chloramphenicol is generally due to O-acetylation of the antibiotic in a reaction catalysed by chloramphenicol acetyltransferase (CAT, EC 2.3.1.28) in which acetyl-coenzyme A is the acyl donor. The crystal structure of the type III enzyme from Escherichia coli with chloramphenicol bound has been determined and refined at 1.75 A resolution, using a restrained parameter reciprocal space least squares procedure. The refined model, which includes chloramphenicol, 204 solvent molecules and two cobalt ions has a crystallographic R-factor of 18.3% for 27,300 reflections between 6 and 1.75 A resolution. The root-mean-square deviation in bond lengths from ideal values is 0.02 A. The cobalt ions play a crucial role in stabilizing the packing of the molecule in the crystal lattice. CAT is a trimer of identical subunits (monomer Mr 25,000) and the trimeric structure is stabilized by a number of hydrogen bonds, some of which result in the extension of a beta-sheet across the subunit interface. Chloramphenicol binds in a deep pocket located at the boundary between adjacent subunits of the trimer, such that the majority of residues forming the binding pocket belong to one subunit while the catalytically essential histidine belongs to the adjacent subunit. His195 is appropriately positioned to act as a general base catalyst in the reaction, and the required tautomeric stabilization is provided by an unusual interaction with a main-chain carbonyl oxygen.
J Mol Biol 1990 May 05
PMID:Refined crystal structure of type III chloramphenicol acetyltransferase at 1.75 A resolution. 218 98

Erythropoietin (EPO) is the primary humoral regulator of mammalian erythropoiesis. The single-copy EPO gene is normally expressed in liver and kidney, and increased transcription is induced by anemia or cobalt chloride administration. To identify cis-acting DNA sequences responsible for regulated expression, transgenic mice were generated by microinjection of a 4-kilobase-pair (kb) (tgEPO4) or 10-kb (tgEPO10) cloned DNA fragment containing the human EPO gene, 0.7 kb of 3'-flanking sequence, and either 0.4 or 6 kb of 5'-flanking sequence, respectively. tgEPO4 mice expressed the transgene in liver, where expression was inducible by anemia or cobalt chloride, kidney, where expression was not inducible, and other tissues that do not normally express EPO. Human EPO RNA in tgEPO10 mice was detected only in liver of anemic or cobalt-treated mice. Both tgEPO4 and tgEPO10 mice were polycythemic, demonstrating that the human EPO RNA transcribed in liver is functional. These results suggest that (i) a liver inducibility element maps within 4 kb encompassing the gene, 0.4 kb of 5'-flanking sequence, and 0.7 kb of 3'-flanking sequence; (ii) a negative regulatory element is located between 0.4 and 6 kb 5' to the gene; and (iii) sequences required for inducible kidney expression are located greater than 6 kb 5' or 0.7 kb 3' to the gene. RNase protection analysis revealed that human EPO RNA in anemic transgenic mouse liver and hypoxic human hepatoma cells is initiated from several sites, only a subset of which is utilized in nonanemic transgenic liver and human fetal liver.
Mol Cell Biol 1990 Mar
PMID:Human erythropoietin gene expression in transgenic mice: multiple transcription initiation sites and cis-acting regulatory elements. 230 68

The active site and mechanism of D-xylose isomerase have been probed by determination of the crystal structures of the enzyme bound to various substrates, inhibitors and cations. Ring-opening is an obligatory first step of the reaction and is believed to be the rate-determining step for the aldose to ketose conversion. The structure of a complex with a cyclic thio-glucose has been determined and it is concluded that this is an analogue of the Michaelis complex. At -10 degrees C substrates in crystals are observed in the extended chain form. The absence of an appropriately situated base for either the cyclic or extended chain forms from the substrate binding site indicates that the isomerisation does not take place by an enediol or enediolate mechanism. Binding of a trivalent cation places an additional charge at the active site, producing a substrate complex that is analogous to a possible transition state. Of the two binding sites for divalent cations, [1] is permanently occupied under catalytic conditions and is co-ordinated to four carboxylate groups. In the absence of substrate it is exposed to solvent, and in the Michaelis complex analogue, site [1] is octahedrally coordinated, with ligands to O-3 and O-4 of the thiopyranose. In the complex with an open-chain substrate it remains octahedrally co-ordinated, with ligands to O-2 and O-4. Binding at a second cation site [2] is also necessary for catalysis and this site is believed to bind Co2+ more strongly than site [1]. This site is octahedrally co-ordinated to three carboxylate groups (bidentate co-ordination to one of them), an imidazole and a solvent molecule. It is proposed that during the hydride shift the C-O-1 and C-O-2 bonds of the substrate are polarized by the close approach of the site [2] cation. In the transition-state analogue this cation is observed at a site [2'], 1.0 A from site [2] and about 2.7 A from O-1 and O-2 of the substrate. It is likely that co-ordination of the cation to O-1 and O-2 would be concomitant with ionisation of the sugar hydroxyl group. The polarisation of C-O-1 and C-O-2 is assisted by the co-ordination of O-2 to cation [1] and O-1 to a lysine side-chain.(ABSTRACT TRUNCATED AT 400 WORDS)
J Mol Biol 1990 Mar 05
PMID:Mechanism for aldose-ketose interconversion by D-xylose isomerase involving ring opening followed by a 1,2-hydride shift. 231 97

Chloroquine is a critically important antimalarial drug and a well known intercalator into DNA. We now show that chloroquine binds more avidly to poly(dG-dC).poly(dG-dC) than to other synthetic polynucleotides and that this binding inhibits both salt- and cobalt-induced transitions to Z-DNA. These data are consistent with the possibility that chloroquine's toxicity to malarial parasites is mediated by its effect on DNA.
Mol Biochem Parasitol 1990 Mar
PMID:Sequence preference of chloroquine binding to DNA and prevention of Z-DNA formation. 232 60

The blocking effects of local anesthetics, mexiletine and disopyramide on the sodium currents (INa) of enzymatically isolated, single cells from rat ventricle were studied under voltage clamp conditions. A suction pipette technique was used for voltage clamp and internal perfusion. Potassium currents were blocked by replacing K+ with Cs+ in the internal and external solutions; calcium currents were blocked by replacing Ca2+ with Co2+ in the external solution to isolate INa. When the cells were stimulated infrequently (less than 1 Hz), both drugs produced dose-dependent depression of INa, which was correlated with one-to-one binding to sodium channel. A half-blocking concentration (KD) of 2.8 X 10(-5) M was observed for both agents. The shape of the current-voltage curve along the voltage axis remained unchanged in the presence of either drug. Both drugs shifted the inactivation curve of INa to more negative potentials. Mexiletine produced a marked use-dependent blockage of INa, whereas disopyramide did not produce significant use-dependent block under similar experimental conditions. Both drugs prolonged the recovery of INa from inactivation. The results suggested that both drugs interact with the inactivation mechanism of the sodium channels of rat myocardial cells.
J Mol Cell Cardiol 1985 May
PMID:Blockage of the sodium current in isolated single cells from rat ventricle with mexiletine and disopyramide. 241 42


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