Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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It is well established that chronic ethanol ingestion enhances lipid peroxidation in the liver in vivo and in vitro. The relationship of lipid peroxidation and protein adduct formation to morphologically assessed liver damage remains problematic. To help determine if a relationship exists between lipid peroxidation and liver pathology rats were fed ethanol and a high fat diet by continuous intragastric tube feeding for 72 days, maintaining the blood alcohol levels above 200 mg/dl. This model induced a fatty liver with focal necrosis and fibrosis. This pathology was associated with an increased total cytochrome P450, an increased cytochrome P450 2E1 isoenzyme (CYP2E1), a decrease in the NADPH-cytochrome P450 reductase activity, an increased rate of NADPH oxidation and an increased NADPH-dependent lipid peroxidation in liver microsomes compared to controls. Serum protein adducts with malondialdehyde 4-hydroxynonenal were significantly increased. Thus, the alcohol-induced liver pathology was associated with the induction of CYP2EI, lipid peroxidation, and protein adduct formation. When isoniazid (INH) in therapeutic doses was fed to rats with ethanol these parameters were changed in that central-central bridging fibrosis was increased, as was lipid peroxidation, whereas INH reduced the ethanol-induced decrease in the reductase, the increase in total P450 and CYP2EI, as well as the NADPH oxidation rate and the elevation of serum transaminase levels. The results tend to link central-central bridging fibrosis with increased lipid peroxidation and aldehyde-protein adduct formation caused by ethanol.
Exp Mol Pathol 1993 Feb
PMID:Effect of ethanol on cytochrome P450 2E1 (CYP2E1), lipid peroxidation, and serum protein adduct formation in relation to liver pathology pathogenesis. 845 37

Aromatase is a microsomal cytochrome P450 that converts androgens to estrogens by three sequential oxidations. The isolation of the 19-hydroxy and 19-oxo androgens suggests that the first two oxidations occur at the C19 carbon. However, the mechanism of the third oxidation, which results in C10--C19 bond cleavage, has not been determined. Two proposed mechanisms which remain viable involve either initial 1 beta-hydrogen atom abstraction or addition of the ferric peroxy anion from aromatase to the C19 aldehyde. Semiempirical molecular orbital calculations (AM1) were used to study potential reaction mechanisms initiated by initial 1 beta-hydrogen atom abstraction. Initially, the energetics of carbon--carbon bond cleavage of the keto and enol forms of C1-radicals were studied and were found to be energetically similar. A mechanism was proposed in which the 19-oxo intermediate is subject to initial nucleophilic attack by the protein. The geometry of the A-ring in the androgens is between that for the 1-radicals and estrogen, suggesting that some transition state stabilization for the homolytic cleavage reaction can occur. More recently, studies on liver microsomal cytochrome P450 mediated deformylation of xenobiotic aldehydes supports mechanisms involving an alkyl peroxy intermediate formed by addition of the ferric peroxy anion from aromatase to the C19 aldehyde. Although this intermediate could proceed through several different concerted or non-concerted pathways, one non-concerted pathway involves the heterolytic cleavage of the dioxygen bond resulting in an active oxygenating species (iron-oxene) and a diol. The diol could then undergo hydrogen atom abstraction followed by homolytic carbon--carbon bond cleavage as in the mechanisms modeled previously. When this cleavage was modeled for seven aldehydes, a good correlation with reported experimental aldehyde turnover numbers was obtained. However, when dialkoxy derivatives of the aldehydes are subject to microsomal metabolism, the rates of carbon-carbon cleavage products do not approach the rates of deformylation of the aldehyde analog.
J Steroid Biochem Mol Biol 1993 Mar
PMID:Studies on the mechanism of aromatase and other cytochrome P450 mediated deformylation reactions. 847 50

The structures of two ternary complexes of wheat serine carboxypeptidase II (CPD-WII), with a tetrapeptide aldehyde and a reaction product arginine, have been determined by X-ray crystallography at room temperature and -170 degrees. The peptide aldehydes, antipain and chymostatin, form covalent adducts with the active-site serine 146. The CPD-WII antipain arginine model has a standard crystallographic R-factor of 0.162, with good geometry at 2.5 A resolution for data collected at room temperature. The -170 degrees C model of the chymostatin arginine complex has an R-factor of 0.174, with good geometry using data to 2.1 A resolution. The structures suggest binding subsites N-terminal to the scissile bond. All four residues of chymostatin are well-localized in the putative S1 through S4 sites, while density is apparent only in S1 and S2 for antipain. In the S1 site, Val340 and 341, Phe215 and Leu216 form a hydrophobic binding surface, not a pocket, for the P1 phenylalanyl side-chain of chymostatin. The P1 arginyl of antipain also binds at this site, but the positive charge appears to be stabilized by additional solvent molecules. Thus, the hybrid nature of the S1 site accounts for the ability of CPD-WII to accept both hydrophobic and basic residues at P1. Hydrogen bonds to the peptide substrate backbone are few and are made primarily with side-chains on the enzyme. Thus, substrate recognition by CPD-WII appears to have nothing in common with that of the other families of serine proteinases. The hemiacetal linkages to the essential Ser146 are of a single stereoisomer with tetrahedral geometry, with an oxygen atom occupying the "oxyanion hole" region of the enzyme. This atom accepts three hydrogen bonds, two from the polypeptide backbone and one from the positively-charged amino group of bound arginine, and must be negatively charged. Thus, the combination of ligands forms an excellent approximation to the oxyanion intermediate formed during peptide hydrolysis. Surprisingly, the (R) stereochemistry at the hemiacetal linkage is opposite to that expected by comparison to previously determined structures of peptide aldehydes complexed with Streptomyces griseus proteinase A. This is shown to be a consequence of the approximate mirror symmetry of the arrangement of catalytic groups in the two families of serine proteases and suggests that the stereochemical course of the two enzymatic reactions differ in handedness.
J Mol Biol 1996 Feb 09
PMID:Peptide aldehyde complexes with wheat serine carboxypeptidase II: implications for the catalytic mechanism and substrate specificity. 863 73

The involvement of a series of microsomal cytochrome P450 (P450) isozymes in all-trans-retinoid metabolism, including the conversion of all-trans-retinal to all-trans-retinoic acid, was previously described. In the current study, we examined the role of seven liver microsomal P450 isozymes in the oxidation of three isomers of retinal. P450 1A1, which was not tested previously, is by far the most active in the conversion of all-trans-, 9-cis-, and 13-cis-retinal to the corresponding acids, as well as in the 4-hydroxylation of all-trans- and 13-cis retinal. In contrast, P450s 2B4 and 2C3 are the most active in the 4-hydroxylation of 9-cis-retinal, with turnover numbers approximately 7 times as great as that of P450 1A1. The inclusion of cytochrome b5 in the reconstituted enzyme system is without effect or inhibitory in most cases but stimulates the 4-hydroxylation of 9-cis-retinal by P450 2B4, giving a turnover of 3.7 nmol of product/min/nmol of this isozyme, the highest for any of the retinoid conversions we have studied. Evidence was obtained for two additional catalytic reactions not previously attributed to P450 oxygenases: the oxidation of all-trans- and 9-cis-retinal to the corresponding 4-oxo derivatives by isoform 1A2, and the oxidative cleavage of the acetyl ester of vitamin A (retinyl acetate) to all-trans-retinal, also by isoform 1A2. The physiological significance of the latter reaction, with a Km for the ester of 32 microM and a Vmax of 18 pmol/min/nmol of P450, remains to be established. We also examined the effect on P450 of citral, a terpenoid alpha, beta-unsaturated aldehyde and a known inhibitor of cytosolic retinoid dehydrogenases. Evidence was obtained that citral is an effective mechanism-based inactivator of isozyme 2B4, with a KI of 44 microM as determined by the oxidation of 1-phenylethanol to acetophenone, and by isozyme 1A2 in the oxidation of all-trans-retinal to the corresponding acid and by isozyme 2B4 in the 4-hydroxylation of all-trans-retinol and retinoic acid. Thus, citral is not suitable for use in attempts to distinguish between retinoid conversions catalyzed by dehydrogenases in the cytoplasm and by P450 cytochromes in the endoplasmic reticulum.
Mol Pharmacol 1996 Mar
PMID:Metabolism of all-trans, 9-cis, and 13-cis isomers of retinal by purified isozymes of microsomal cytochrome P450 and mechanism-based inhibition of retinoid oxidation by citral. 864 91

We analyzed the expression of the cytosolic aldehyde dehydrogenase 1 (Aldh1) gene in mouse lung tumors by northern blotting and immunocytochemical analysis. Aldh1 was abundantly expressed in normal lung tissue, with a predominant cellular localization on bronchiolar cells. However, expression of Aldh1 was strongly reduced (more than tenfold) in lung tumors. As aldehyde dehydrogenases metabolize some antitumor alkylating drugs to inactive compounds, the low expression of Aldh1 in lung tumors may account for the drug sensitivity of these tumors to chemotherapeutic agents.
Mol Carcinog 1996 Jul
PMID:Downexpression of aldehyde dehydrogenase 1 in murine lung tumors. 868 46

Ozone is a ubiquitous pollutant that can cause acute pulmonary inflammation, cellular injury and may contribute to the development or exacerbation of chronic lung diseases. Despite much research, the effects of ozone on humans and potential cellular mechanisms of injury are still uncertain. However, ozone has been reported to increase the formation of aldehydes that could react with cellular proteins. Therefore, the purpose of these studies was to determine whether 4-hydroxynonenal (HNE), a previously unidentified aldehyde product of ozone exposure, is formed in human subjects exposed to ozone, and whether the response of human alveolar macrophages (AM) following a 1-h exposure to 0.25 ppm ozone with moderate exercise could be mimicked by in vitro incubation of AM with HNE. Western analysis demonstrated increased HNE protein adducts in airway fluid and alveolar macrophages after ozone exposure. AM were examined for endotoxin (lipopolysaccharide [LPS])-stimulated interleukin-1 beta (IL-1 beta) release and expression of heat shock protein 72 (HSP72). Immediately after ozone exposure there was no change in HSP72, but a 5-fold increase occurred 4 h after exposure. By 18 h after exposure, HSP72 levels decreased to below comparable air-exposed levels. Immediately after ozone exposure there was no effect on IL-1 beta release stimulated by LPS. However, IL-1 beta release stimulated by LPS was significantly inhibited 4 h after ozone exposure. By 18 h after ozone exposure, IL-1 beta release stimulated by LPS returned to normal. Incubation of human AM in vitro with HNE induced HSP72 and blocked LPS-stimulated IL-1 beta release possibly by inhibiting interleukin converting enzyme. Consequently, the in vitro results and demonstration of HNE protein adducts following ozone exposure are consistent with HNE being involved in this process in vivo and suggest that the cellular toxic effects of ozone could be a result of thiol reactive aldehydes produced by ozone.
Am J Respir Cell Mol Biol 1996 Aug
PMID:4-Hydroxynonenal mimics ozone-induced modulation of macrophage function ex vivo. 870 85

We have established granulosa cell lines which express constitutively the rat FSH receptors by cotransfection of primary granulosa cells obtained from preovulatory follicles with SV40 DNA, Ha-ras oncogene and a plasmid expressing FSH receptors. These cells respond specifically to ovine and human FSH by cell rounding, intracellular cAMP accumulation, and progesterone secretion in a dose-dependent manner. A new method for the demonstration and quantitation of changes in cell shape-Small Angle Laser Light Scattering (SALLS) analysis-has been utilized for measurement of cell rounding in response to FSH stimulation in these cells. When cells were incubated with increasing doses of either ovine or human FSH, partial rounding of cells was observed at FSH concentrations as low as 24 pM, while complete rounding of cells was observed at a range of 0.24-2.4 nM of FSH. Following aldehyde fixation, hormone-treated cells were examined using the method of SALLS analysis. Histograms obtained by applying SALLS analysis on FSH stimulated GFSHR-17 cells were a reflection of the structural changes induced by the hormone. FSH- and forskolin-incubated cells yielded structured distributions with defined mean size and standard deviations. Moreover, the increase in sharpness of dominant peak in the histogram was correlated with elevated concentration of FSH in a dose dependent manner. In conclusion, cellular response to FSH is correlated with a specific pattern of light scattered in immortalized granulosa cells expressing functional FSH receptors. Therefore, SALLS analysis may serve as a useful tool for in vitro bioassay of the gonadotropic hormone. Moreover, this method may lend itself to in vitro bioassay of any hormone that induces specific morphological changes in target cells.
Mol Cell Endocrinol 1996 Apr 19
PMID:Fourier analysis of differential light scattering for the quantitation of FSH response associated with structural changes in immortalized granulosa cells. 873

Proteasomes are multisubunit proteases that exist universally among eukaryotes. They have multiple proteolytic activities, and are believed to have important roles in regulating cell cycle, selective intracellular proteolysis, and antigen presentation. To determine the possible role that proteasomes may play in controlling the life cycle of African trypanosomes, we have isolated proteasomes from the bloodstream and the insect (procyclic) forms of Trypanosoma brucei by DEAE-cellulose chromatography and glycerol gradient fractionation in the presence of ATP. No 26 S proteasome homologs was identified in T. brucei under these experimental conditions. The proteasomes isolated from these two forms of T. brucei are very similar to the rat blood cell 20 S proteasome in their general appearance under the electron microscope. The profile of trypanosome proteasome subunits in sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) has eight visible protein bands with molecular weights ranging from 23 to 34 kDa, and cross-reacted very poorly with the anti-human 20 S proteasome antibodies on immunoblots. Two-dimensional gel electrophoresis of the parasite proteasomes shows a similar number of major subunits with pI's ranging from 4.5 to 7. Using a variety of fluorogenic peptides as substrates, the trypanosome proteasomes exhibited unusually high trypsin-like, but somewhat lower chymotrypsin-like activities, as compared to the rat 20 S proteasome. These proteolytic activities were, however, insensitive to phenylmethylsulfonyl fluoride (PMSF), tosyl-phenylalanine chloromethylketone (TPCK), tosyl-lysine chloromethylketone (TLCK) and trans-epoxy succinyl-L-leucylamido-(4 guanidino) butane (E-64), but the trypsin-like activity of trypanosome proteasomes was inhibited by leupeptin, an aldehyde known to inhibit the trypsin-like activity of mammalian proteasomes, thus ruling out possible contamination by other serine or cysteine proteases. Some quantitative differences in the substrate specificities between the proteasomes from bloodstream and procyclic forms were indicated, which may play a role in determining the differential protein turnovers at two different stages of development of T. brucei.
Mol Biochem Parasitol 1996 Jun
PMID:Purification and characterization of proteasomes from Trypanosoma brucei. 881 75

L-threose is a product of ascorbate oxidation and degradation. By virtue of its free aldehyde group it can form Schiff-bases with tissue proteins, altering their normal function. In this study, we have examined the possibility of its detoxification to L-threitol by aldose reductase in the lens. The rat lens enzyme present in fresh homogenate as well as after 100 fold purification was found to utilize L-threose with a km of 7.1 x 10(-4) M. The specificity of the reaction was affirmed by its inhibition with sorbinil and quercetin, the well known aldose reductase inhibitors. Further studies on the role of this enzyme in preventing toxicity due to degradation products of ascorbate are in progress.
Mol Cell Biochem 1996 Jun 21
PMID:Studies on L-threose as substrate for aldose reductase: a possible role in preventing protein glycation. 885 62

The ability of indole-3-carbinol (indole-3-methanol) to trap a metastable synthetic-free radical is presented. Indole-3-carbinol is capable of acting as a scavenger of free radicals in an in vitro system. The presence of indole-3-carbinol determines the disappearance of the free radicals, the reaction being time- and concentration-dependent. The scavenging activity of different indoles is compared. Indole-3-carbinol and indole-3-acetic acid are both able to scavenge free radicals, but indole-3-carbinol is more effective. Other indoles such as indole-3-aldehyde and indole-3-carboxylic acid do not show the ability to trap free radicals. Indole-3-aldehyde appears as a product of indole-3-carbinol reaction with free radicals. The formation of an adduct between the free radical generated in vitro and indole-3-carbinol has also been detected. Stability of indole-3-carbinol in buffered media at different pH values and formation of 3,3'-diindolylmethane from indole-3-carbinol is also studied. The scavenging activity of indole-3-carbinol and its implications on the anti-carcinogenesis process is discussed.
Biochem Mol Biol Int 1996 Aug
PMID:Indole-3-carbinol as a scavenger of free radicals. 887 65


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