Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.12.2 (MEK)
 18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To make clear how the n-hexane metabolism is modified by co-exposure with MEK, rats were exposed to various concentrations of MEK mixed with a fixed concentration of n-hexane. Twenty-four male Wistar rats were divided into four equal groups. Each group was exposed for 8 h to 2000 ppm n-hexane, 2000 ppm n-hexane plus 200 ppm MEK, 2000 ppm n-hexane plus 630 ppm MEK and 2000 ppm n-hexane plus 2000 ppm MEK, respectively. Free metabolites and the sum of free and conjugated metabolites of n-hexane were analyzed by gas chromatography. The main metabolite was 2-hexanol during the exposure and 2,5-hexanedione (2,5-HD) after the exposure in any group. The main metabolites, 2-hexanol and 2,5 HD, decreased in inverse proportion to the co-exposed MEK concentrations. The results suggest that augmentation of n-hexane neurotoxicity by MEK co-exposure could not be explained only by 2,5-HD. In addition, 2,5-HD is recommended as an index for biological monitoring of n-hexane exposure. However, one should be careful to evaluate the exposed n-hexane concentration by urinary 2,5-HD, because n-hexane metabolism could be largely modified by co-exposure with MEK.
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PMID:Changes in urinary n-hexane metabolites by co-exposure to various concentrations of methyl ethyl ketone and fixed n-hexane levels. 235 Feb 38

The neurotoxicity of n-hexane is thought to be caused ultimately by 2,5-hexanedione (2,5-HD), one of the n-hexane metabolites. The potentiation of n-hexane neurotoxicity by co-exposure with MEK, therefore, is suspected to be related to kinetics of 2,5-HD in blood. To clarify the kinetics of n-hexane metabolites in the mixed exposure of n-hexane and MEK, rats were exposed to 2000 ppm n-hexane or a mixture of 2000 ppm n-hexane and 2000 ppm MEK, and the time courses of serum n-hexane metabolites were determined. 2,5-HD in serum increased until 2 h after the end of exposure, when serum 2,5-HD concentration reached a peak of 16.35 micrograms/ml in the n-hexane-alone group. In contrast, 2,5-HD in the mixed exposure group increased much more slowly during and after exposure than in the n-hexane-alone group. It reached a peak of 2.12 micrograms/ml at 8 h after the end of exposure. Serum MBK, a precursor of 2,5-HD in the co-exposure group, was about half in the n-hexane-alone group during exposure. However, MBK decreased more slowly in the co-exposure group than in the n-hexane-alone group after the end of the exposure. The results suggest that co-exposed MEK might inhibit oxidation of n-hexane and decrease clearance of n-hexane metabolites. Co-exposed MEK did not increase serum 2,5-HD, which was considered a main neurotoxic metabolite. Therefore the enhancement of neurotoxicity could not be attributed to increased serum 2,5-HD in the co-exposed group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of MEK on kinetics of n-hexane metabolites in serum. 237 36

Potentiation of haloalkane hepatonecrosis by various ketones is a well-documented observation. The present study investigates the hepatobiliary effects of such treatments. Male Sprague-Dawley rats were pretreated with acetone (A), 2-butanone (MEK), 2-hexanone (MBK), 15 mmol/kg (po), or chlordecone (CD) and its nonketonic analog, mirex (M), 50 mg/kg (po). Following the pretreatment at various time intervals ranging from 10 to 96 hr, groups of animals received a challenging dosage of CHCl3 (0.5 ml/kg, po). In a collateral experiment, groups of animals were pretreated with vehicle and 18 hr later received either 0.50, 0.75, or 1.00 ml/kg CHCl3 (po). In each case hepatobiliary function was evaluated 24 hr later using bile flow rate and plasma bilirubin concentration. The results showed (1) that the ketones alone had no effect; mirex alone increased bile flow; (2) CHCl3 alone had no effect on bile flow but slightly increased plasma bilirubin; (3) all pretreatments potentiated the effect of CHCl3 on plasma bilirubin; (4) combinations of A, MBK, or CD plus CHCl3 were cholestatic within a restricted time frame. A study of biliary tree permeability by the segmented retrograde intrabiliary injection technique, using mannitol and inulin as marker compounds, suggested that cholestasis may result from potentiation of CHCl3-induced alterations in canalicular membrane permeability.
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PMID:Modifications in rat hepatobiliary function following treatment with acetone, 2-butanone, 2-hexanone, mirex, or chlordecone and subsequently exposed to chloroform. 242 88

1. Male Fischer-344 rats were given methyl ethyl ketone (MEK; 1.87 ml/kg), a potentiator of the neurotoxicity of n-hexane, by gavage for 4 days prior to a single inhalation exposure to n-hexane (1000 ppm). 2. Samples of blood, liver, testis and sciatic nerve were obtained and analysed for n-hexane, MEK and their metabolites by g.l.c.-mass spectrometry. 3. Pretreatment with MEK increased the concentrations of 2,5-hexanedione (2,5-HD; the proximal neurotoxin) in blood, sciatic nerve and testis relative to concentrations in the tissues in sham-treated controls. 4. Concentrations of 2,5-dimethylfuran, a metabolite of 2,5-HD, were increased in all four tissues tested. 5. After 1-7 days treatment with MEK, the activity of 7-ethoxycoumarin O-deethylase was increased (up to 500%), but benzphetamine N-demethylase activity was virtually unaffected. 6. Hence, the potentiating effects of MEK on the neurotoxicity of n-hexane appear to arise, at least in part, from the activating effects of MEK on selected microsomal enzymes responsible for n-hexane activation.
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PMID:Effects of methyl ethyl ketone pretreatment on hepatic mixed-function oxidase activity and on in vivo metabolism of n-hexane. 277 8

Opioid peptides, particularly beta-endorphin, methionine- (MEK) and leucine-enkephalin, and dynorphin, are involved in the regulation of food intake in mammals. The precursor molecules of these peptides undergo differential processing in brain areas producing regional concentration differences in opioids. Intraregional concentration changes also accompany alterations in feeding states. For example, MEK concentrations decrease in the basomedial hypothalamus, amygdala, and olfactory bulb in fed sheep compared with fasted sheep. Moreover, these changes are species specific. In sheep, beta-endorphin decreases in the dorsomedial and posterior hypothalami after feeding, but in the rat it is increased in the ventromedial hypothalamus and decreased in the posterior hypothalamus. In addition, immunohistochemical localization of cell bodies shows interspecies differences in concentrations. For example, dynorphin is found predominantly in the suprachiasmatic area in sheep, but in the paraventricular nucleus in the rat. These observations indicate that regulation of food intake may be differentially controlled in these species. In sheep, kappa agonists increase food intake, whereas stimulation of delta receptors inhibits feeding. Further clarification of the receptors involved in food intake will necessitate studies with more specific agonists.
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PMID:Opioid peptides and the control of feeding in sheep. 302 55

Intermediate filament proteins have been isolated from ME-180, cells of a human cervical carcinoma. Eight of these proteins have been identified as keratins by immunologic cross-reactivity to antibodies raised against authentic human epidermal keratins. The ME-180 keratin proteins consist of two major subunits designated MEK-1 and MEK-2 with approximate molecular weights of 58,000 and 53,000, respectively, and six minor subunits of 59, 57, 52.5, 50.5, 45, and 40 kilodaltons. When ME-180 cells were incubated for 2-24 h in the presence of [32P]orthophosphate, MEK-1 and MEK-2 as well as the 52.5- and 40-kilodalton keratins were phosphorylated at their serine residues. V8 protease digests revealed that phosphorylation of MEK-2 is restricted to one peptide representing approximately half the molecule. Regulation of MEK-1 and MEK-2 phosphorylation has been studied by prelabeling the cells for 2 h in 32P-labeled medium. This was followed by up to 2 h of continued incubation in the same medium after the addition of a variety of perturbing agents. The phosphorylation of MEK-2 increased in the presence of 10(-4) M dibutyryl cyclic AMP (twofold), 1 mM methylisobutylxanthine (2.5-fold), 10(-5) M isoproterenol (fivefold), and 10(-9) M cholera toxin (sevenfold). In contrast, MEK-1 phosphorylation was unaffected by these agents. Neither cyclic GMP, Ca++, hydrocortisone, nor epidermal growth factor had any effect on the phosphorylation of MEK-1 or MEK-2. The results indicate that the phosphorylation of these two keratins is independently controlled by cyclic AMP-dependent kinase for MEK-2 and by cyclic nucleotide-independent kinase for MEK-1. The observed differences in control suggest distinct functions for MEK-1 and MEK-2 within the cytoskeletal network.
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PMID:Dual regulation of intermediate filament phosphorylation. 619 63

The effects of the solvents n-hexane, butanone (methyl-ethyl-ketone, MEK) and a mixture of both in the intrapulmonary nerve system of rats were studied by light and electron microscopy. The alteration in the fine structures of the tissue consisted in a disseminated swelling of axons due to a striking multiplication of neurofilaments. Nonspecific axonal alterations could be demonstrated as well. The latter consisted in clusters of phospholipid material within the axoplasm of nerve fibers and the cytoplasm of Schwann cells plus an accumulation of glycogen granules in the axoplasm. Additionally, single degenerative changes of Schwann cells were observed. An enzyme-associated metabolic damage with a concomitant impairment of axonal flow is discussed as a possible underlying pathomechanism.
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PMID:Ultrastructural alteration of intrapulmonary nerves after exposure to organic solvents. A contribution to 'sniffers disease'. 652 43

It is well known that n-hexane produces peripheral neuropathy, and 2,5-hexanedione, one of the metabolites of n-hexane, is thought to be the main causative agent. Recently, the metabolites of n-hexane in urine have been measured by gas chromatography, and 2,5-hexanedione was proved to be useful for the biological monitoring of n-hexane exposure. In the present experiment, we intended to clarify the change of n-hexane metabolites in the urine of rats exposed to various concentrations of n-hexane and to its mixture with toluene of MEK. In the first experiment, five separate groups of five rats each were exposed to 100, 500, 1000, or 3000 ppm of n-hexane, or fresh air respectively in an exposure chamber for 8 h a day. Urinary samples were gathered during exposure, 16, 24, and 40 h after exposure. Half of each sample was analyzed by gas chromatography after hydrolysis with acid and enzymes, and the other half was analyzed without hydrolysis. 2,5-Dimethylfuran, MBK, 2-hexanol, 2,5-hexanedione, and gamma-valerolactone could be identified as n-hexane metabolites in the urine. The main metabolites were 2-hexanol and 2,5-hexanedione. 2-Hexanol was mostly excreted during exposure, while most of the 2,5-hexanedione was excreted after the end of exposure. The amount of metabolites in the urine correlatively increased with the concentration of n-hexane from 100 to 1000 ppm, but the amount of metabolites scarcely increased when the concentration of n-hexane increased from 1000 to 3000 ppm.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes of n-hexane metabolites in urine of rats exposed to various concentrations of n-hexane and to its mixture with toluene or MEK. 665 98

Three patients developed facial dermatitis after contact with preparations containing estradiol benzoate. Patch tests were positive to estradiol benzoate 0.1% in MEK but negative to other related estrogens including estradiol. All three patients also had positive tests to resorcinol monobenzoate and two out of three to balsam of Peru. Most likely estradiol benzoate was the primary sensitizer.
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PMID:Contact dermatitis to estradiol benzoate. 727 28

An historical prospective study was undertaken of 262 men who had worked on an isopropyl alcohol plant and 446 men who had worked on two MEK dewaxing plants. All of the former have been traced, and only one man from the latter group was lost to follow-up. These studies linked occupational records with cause of death data for those who had died; the average follow-up was 15.5 years for the IPA plant workers and 13.9 years for those on the MEK dewaxing plants. For the IPA workers the observed deaths (26) were slightly above the expected (23.6), and there was a non-significant excess of deaths from neoplasms (0 = 9, E = 6.19). One person died from nasal cancer (E = 0.02, p = 0.017); though based on small numbers this finding is unlikely to be due to chance and agrees with the original hazard. For those who had worked on the MEK dewaxing plants the observed deaths (46) were below the expected (55.51) and there was also a slight deficiency of deaths from neoplasms (0 = 13, E = 14.26). When the seven sites of malignancy, which had been examined in a recent American study, were compared there were significantly more deaths from buccal cavity and pharynx cancers (0 = 2; E = 0.13; p = 0.008) and significantly fewer from lung cancer (0 = 1; E = 6.02; p less than 0.045). After reviewing the American and present results, it was concluded that there is no clear evidence of a cancer hazard in these workers, though further follow-up of larger numbers is necessary for a more precise estimate of the confidence limits of these findings.
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PMID:Mortality of workers on an isopropyl alcohol plant and two MEK dewaxing plants. 737 Jan 97


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