Publications (12) View all
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Article: Ethanol metabolism by HeLa cells transduced with human alcohol dehydrogenase isoenzymes: control of the pathway by acetaldehyde concentration.
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ABSTRACT: Human class I alcohol dehydrogenase 2 isoenzymes (encoded by the ADH1B locus) have large differences in kinetic properties; however, individuals inheriting the alleles for the different isoenzymes exhibit only small differences in alcohol elimination rates. This suggests that other cellular factors must regulate the activity of the isoenzymes. The activity of the isoenzymes expressed from ADH1B*1, ADH1B*2, and ADH1B*3 cDNAs was examined in stably transduced HeLa cell lines, including lines which expressed human low K(m) aldehyde dehydrogenase (ALDH2). The ability of the cells to metabolize ethanol was compared with that of HeLa cells expressing rat class I alcohol dehydrogenase (ADH) (HeLa-rat ADH cells), rat hepatoma (H4IIEC3) cells, and rat hepatocytes. The isoenzymes had similar protein half-lives in the HeLa cells. Rat hepatocytes, H4IIEC3 cells, and HeLa-rat ADH cells oxidized ethanol much faster than the cells expressing the ADH1B isoenzymes. This was not explained by high cellular NADH levels or endogenous inhibitors; but rather because the activity of the β1 and β2 ADHs was constrained by the accumulation of acetaldehyde, as shown by the increased rate of ethanol oxidation by cell lines expressing β2 ADH plus ALDH2. The activity of the human β2 ADH isoenzyme is sensitive to inhibition by acetaldehyde, which likely limits its activity in vivo. This study emphasizes the importance of maintaining a low steady-state acetaldehyde concentration in hepatocytes during ethanol metabolism.Alcoholism Clinical and Experimental Research 01/2011; 35(1):28-38. · 3.34 Impact Factor -
Article: Human carboxylesterases: an update on CES1, CES2 and CES3.
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ABSTRACT: Carboxylesterases belong to Phase I group of drug metabolizing enzymes. They hydrolyze a variety of drug esters, amides, carbamates and similar structures. There are five 'carboxylesterase' genes listed in the Human Genome Organization database. In this review, we will focus on the CES1, CES2 and CES3 genes and their protein products that have been partially characterized. Several variants of these three CESs result from alternate splicing, single nucleotide polymorphisms and multiple copy variants. The three CESs, are largely localized to tissues that are major sites of drug metabolism like the mucosa of the gastrointestinal tract, lungs and liver but, they differ in tissue-specific expression. The amino acid alignment of the three CESs reveals important conserved catalytic and structural residues. There are interesting insertions and deletions that may affect enzymatic function as determined by homology modeling of CES3 using the CES1 three-dimensional structure. A comparison of the substrate specificity of CES1 versus CES2 reveals broad but distinct substrate preferences. There is little information on the substrate specificity of CES3 but it seems to have a lower catalytic efficiency than the other two CESs for selected substrates.Protein and Peptide Letters 11/2009; 16(10):1207-14. · 1.94 Impact Factor -
Article: Kinetic and cellular characterization of novel inhibitors of S-nitrosoglutathione reductase.
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ABSTRACT: S-Nitrosoglutathione reductase (GSNOR) is an alcohol dehydrogenase involved in the regulation of S-nitrosothiols (SNOs) in vivo. Knock-out studies in mice have shown that GSNOR regulates the smooth muscle tone in airways and the function of beta-adrenergic receptors in lungs and heart. GSNOR has emerged as a target for the development of therapeutic approaches for treating lung and cardiovascular diseases. We report three compounds that exclude GSNOR substrate, S-nitrosoglutathione (GSNO) from its binding site in GSNOR and cause an accumulation of SNOs inside the cells. The new inhibitors selectively inhibit GSNOR among the alcohol dehydrogenases. Using the inhibitors, we demonstrate that GSNOR limits nitric oxide-mediated suppression of NF-kappaB and activation of soluble guanylyl cyclase. Our findings reveal GSNOR inhibitors to be novel tools for regulating nitric oxide bioactivity and assessing the role of SNOs in vivo.Journal of Biological Chemistry 08/2009; 284(36):24354-62. · 4.77 Impact Factor -
Article: Expression and characterization of a human carboxylesterase 2 splice variant.
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ABSTRACT: CPT-11 [7-ethyl-10-[4-(1-piperidino)-1-piperidino] carbonyloxycamptothecin or Irinotecan] is a carbamate prodrug that is activated in vivo by carboxylesterase (CES)-2 to SN-38 (7-ethyl-10-hydroxycamptothecin), a potent topoisomerase I inhibitor. There is high interindividual variation when CPT-11 is used in the treatment of colorectal cancer. Several splice variants of CES2 are reported in the expressed sequence tag database. Real-time polymerase chain reaction was used to determine the abundance of the CES2 and splice variant of human carboxylesterase 2 (CES2Delta(458-473)) transcripts in 10 paired samples of human tumor and normal colon tissue. The results showed that the CES2Delta(458-473) transcript accounts for an average of 6% of total CES2 transcripts in colon tissue, and there is large interindividual variation in CES2 expression in both tumor and normal colon samples. The carboxylesterase activity of the colon samples was determined by 4-methylumbelliferyl acetate hydrolysis assays and nondenaturing polyacrylamide gel electrophoresis followed by activity staining. Significant, positive correlations were found between CES2 expression levels and both measures of carboxylesterase activity. We cloned and expressed the CES2Delta(458-473) protein in Sf9 insect cells. The purification profiles and preliminary characterization of the CES2Delta(458-473) protein indicated that the expressed protein is folded and glycosylated like CES2. However, in vitro assays show that the CES2Delta(458-473) protein lacks 4-methylumbelliferyl acetate and irinotecan hydrolase activities. In conclusion, we found that the CES2Delta(458-473) protein is an inactive splice variant of CES2 and that its transcript is spliced at a relatively constant rate in tumor and normal colon tissue.Journal of Pharmacology and Experimental Therapeutics 11/2007; 323(1):94-101. · 3.83 Impact Factor -
Article: A multiple reaction monitoring method for absolute quantification of the human liver alcohol dehydrogenase ADH1C1 isoenzyme.
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ABSTRACT: Although significant progress has been made in protein quantification using mass spectrometry during recent years, absolute protein quantification in complex biological systems remains a challenging task in proteomics. The use of stable isotope-labeled standard peptide is the most commonly used strategy for absolute quantification, but it might not be suitable in all instances. Here we report an alternative strategy that employs a stable isotope-labeled intact protein as an internal standard to absolutely quantify the alcohol dehydrogenase (ADH) expression level in a human liver sample. In combination with a new targeted proteomics approach employing the method of multiple reaction monitoring (MRM), we precisely and quantitatively measured the absolute protein expression level of an ADH isoenzyme, ADH1C1, in human liver. Isotope-labeled protein standards are predicted to be particularly useful for measurement of highly homologous isoenzymes such as ADHs where multiple signature peptides can be examined by MRM in a single experiment.Analytical Biochemistry 11/2007; 369(1):18-26. · 3.00 Impact Factor
