Assay and partial purification of epoxide hydrase from rat liver microsomes

Solubilized cytochrome P-450 monooxygenase and epoxide hydrase activities from rat liver microsomes have been separated by column chromatography. The highly active epoxide hydrase fraction is still contaminated with cytochrome P-450, which has very low monooxygenase activity. The highly purified cytochrome P-450 fraction possesses high monooxygenase activity and is essentially devoid of epoxide hydrase activity. Purification factors for the epoxide hydrase through four purification steps are similar with [³H]styrene oxide, [³H]naphthalene oxide, [³H]cyclohexene oxide, and benzene oxide as substrates. Failure of benzene oxide to inhibit hydration of styrene or naphthalene oxide in the most purified preparations in indicative of the presence of at least two hydrases. These purified cytochrome monooxygenase and hydrase preparations represent valuable tools for the study of the intermediacy of arene oxides in drug metabolism. Thus, with naphthalene, only naphthol is formed with the monooxygenase, while both naphthol and the dihydrodiol are formed in the presence of monooxygenase and hydrase. A convenient radiochemical synthesis of [³H]naphthalene 1,2-oxide and assays for the measurement of the hydration of [³H]naphthalene oxide and benzene oxide, based on differential extractions and high-pressure liquid chromatography, respectively, are described.     

Characterization and partial purification of a neurotrophic factor for cerebrocortical neurons from chicken cerebral extract

The survival of cerebrocortical neurons from 6 to 8-day-old chick embryos was investigated in a serum-free hormone-supplemented medium. The addition of cerebral extract promoted the survival of cortical neurons in a dose-dependent manner, but induced almost no neurite outgrowth. The trophic activity was higher in the adult cerebrum than in the embryonic cerebrum. The tropic factor was partially purified from adult chicken cerebrum, and the molecular weight of the factor was estimated to be about 60 kDa. The activity for survival factor was fairly resistant to heat or trypsin treatment. When the partially purified sample was, however, treated with trypsin (1 mg/ml) for 20 h and applied to a TSK G2000 SW gel filtration column, the activity moved from 60 to 70 kDa untreated active fractions to fractions with about 10 kDa. These physicochemical properties of the survival factor suggest a new class of macromolecular trophic factors in the brain.     

Characterization and purification of adenosine deaminase 1 from human and chicken liver

Adenosine deaminase 1 (ADA1) was purified from human and chicken liver. The purified enzyme had a molecular weight of approximately 42,000 Da on SDS-PAGE. In humans, ADA1 was mainly purified concomitant with ADA-binding protein, dipeptidyl peptidase IV (DPP IV)/CD26; however, in chickens, only ADA1 without DPP IV was purified. Both human and chicken ADA1s showed similar properties on substrate specificities, sensitivities on inhibitors, and pH profile. However, they had different affinities with adenosine-Sepharose and IgG anti-ADA1-Sepharose. Human ADA1 was not adsorbed in adenosine-Sepharose column, but chicken ADA1 was adsorbed. As for IgG anti-ADA1-Sepharose column, the results were converse. Furthermore, human ADA1 could bind to DPP IV whereas chicken ADA1 could not.     

Phosphatidylethanolamine:dolichol acyltransferase. Characterization and partial purification of a novel rat liver enzyme.

Incubation of rat or human post-heparin plasma with [3H]dolichol incorporated in liposomes consisting of dioleoyl phosphatidylcholine:dioleoyl phosphatidylethanolamine (3:1) resulted in the formation of radioactive dolichyl oleate. Non-heparinized plasma did not esterify dolichol, and, hence, the enzyme involved is probably associated with the cell surface and released into the blood by heparin. The major location of this activity was the liver, and, therefore, a partial purification of the enzyme from heparinized rat liver perfusates was performed using DEAE-Sephacel and heparin-Sepharose chromatography. The dolichol acyltransferase activity copurified with hepatic lipase activity in a lipid-protein complex of 350 kDa. Optimal acylation is achieved at pH 7.5 in the presence of 5% plasma and 20 mM Ca2+. Esterification can only be obtained when dolichol is present in a phospholipid bilayer, and the reaction is strongly stimulated by unsaturated phosphatidylethanolamine or phosphatidylserine. Radiolabeling experiments demonstrated that the primary acyl donor is phosphatidylethanolamine from which the fatty acid is transferred exclusively from position 1. Neither cholesterol nor retinol are esterified by the enzyme, and the reaction is not stimulated by acyl-CoA. Both the extracellular localization and the mechanism of transacylation clearly distinguish this new enzyme from the acyl-CoA:dolichol acyltransferase described earlier in microsomes.     

Characterization and partial purification of protein fatty acyltransferase activity from rat liver

The acylation of proteins through the addition of palmitate to cysteine residues is a common posttranslational modification for a variety of proteins, but the enzymology of this reversible modification has resisted elucidation. We developed a strategy to purify protein fatty acyltransferase (PAT) activity from rat livers that took advantage of recent knowledge on the cellular location and inhibition of PAT activity. We determined that three different thiolases have PAT activity in the presence of imidazole and therefore started the purification with a plasma membrane fraction to minimize the contamination with these enzymes. After detergent extraction of the plasma membrane fraction, the PAT activity was enriched about 90-fold by sequential chromatography including affinity chromatography to a cerulenin-based inhibitor of palmitoylation. The partially purified PAT activity (1) was lost with treatments to degrade or denature proteins, (2) could acylate tubulin, Galpha(i) and RGS16 and (3) showed a preference for palmitate and to a lesser degree other long-chain fatty acids. This purification procedure is a significant advance over previous efforts at PAT purification and a starting point for a proteomic approach for identification of mammalian PAT.     

Solubilization and partial purification of aromatase from chicken ovary

Aromatase, the cytochrome P-450 that converts androgen to estrogen, has been solubilized from chicken ovarian microsomes with the nonionic detergent Emulgen 913. Following chromatography on gel filtration, anion exchange, dye affinity, and hydrophobic media, ovarian aromatase is purified up to 27-fold with 10-15% recovery. Separation of the cytochrome P-450 aromatase from NADPH cytochrome P-450 reductase is achieved during the purification. The partially purified enzyme is stable for as long as 6 months when frozen in liquid nitrogen in buffer containing dithiothreitol, glycerol, Emulgen and 150 mM KCl.     

Extraction and partial purification of acyl-CoA:1-acyl-sn-glycero-3-phosphocholine acyltransferase from rat liver microsomes

Acyl-CoA:l-acyl-sn-glycero-3-phosphochoh'ne acyltransferase (EC 2.3.1.23) was extracted from rat liver microsomes with an aqueous dispersion of 1-acylsn-glycero-3-phosphocholine, a substrate of the enzyme, and purified up to 30-fold. The procedure includes removal of unrelevant proteins and lipids by washings of microsomes with a buffer of high ionic strength and with buffers containing detergents, extraction of the enzyme with an aqueous dispersion of 1-acyl-sn-glycero-3-phosphocholine, and chromatography by gel filtration. The acyltransferase was eluted from a Ultrogel AcA 34 column at a position with a K_av of 0.122; an elution position of a protein with a molecular weight of 225 000.The partially purified enzyme was active over a wide range of pH with an optimum at around pH 8. Depending on the acyl donors, different rates of the reaction were obtained by the preparation. The order was: arachidonoyl-CoA > linoleoyl-CoA = oleoyl-CoA > palmitoyl-CoA. The enzyme preparation acylated 1-acyl-sn-glycero-3-phosphocholine, 1-acyl-sn-glycero-3-phosphoethanolamine and 1-acyl-sn-glycero-3-phosphoinositol but not acylated 2-acyl-sn-glycero-3-phosphocholine, 1-acyl-sn-glycerol 3-phosphate or diacylglycerol. Some sulfhydryl-binding reagents inactivated the enzyme.     

Characterization of a novel alpha-D-mannosidase from rat brain microsomes

A new alpha-D-mannosidase has been identified in rat brain microsomes. The enzyme was purified 70-100-fold over the microsomal fraction by solubilization with Triton X-100, followed by ion exchange, concanavalin A-Sepharose, and hydroxylapatite chromatography. The purified enzyme is very active towards mannose-containing oligosaccharides and has a pH optimum of 6.0. Unlike rat liver endoplasmic reticulum alpha-D-mannosidase and both Golgi mannosidases IA and IB, which have substantial activity only towards alpha 1,2-linked mannosyl residues, the brain enzyme readily cleaves alpha 1,2-, alpha 1,3-, and alpha 1,6-linked mannosyl residues present in high mannose oligosaccharides. The brain enzyme is also different from liver Golgi mannosidase II in that it hydrolyzes (Man)5GlcNAc and (Man)4GlcNAc without their prior N-acetylglucosaminylation. Moreover, the facts that the ability of the enzyme to cleave GlcNAc(Man)5GlcNAc, the biological substrate for Golgi mannosidase II, is not inhibited by swainsonine, and that p-nitrophenyl alpha-D-mannoside is a poor substrate provide further evidence for major differences between the brain enzyme and mannosidase II. Inactivation studies and the co-purification of activities towards various substrates suggest that a single enzyme is responsible for all the activities found. In view of these results, it seems possible that, in rat brain, a single mannosidase cleaves asparagine-linked high mannose oligosaccharide to form the core Man3GlcNAc2 moiety, which would then be modified by various glycosyl transferases to form complex type glycoproteins.     

Characterization and partial purification of liver glucose transporter GLUT2

GLUT2, the major facilitative glucose transporter isoform expressed in hepatocytes, pancreatic beta-cells, and absorptive epithelial cells, is unique not only with its low affinity and broad substrate specificity as a glucose transporter, but also with its implied function as a glucose-sensor. As a first essential step toward structural and biochemical elucidation of these unique, GLUT2 functions, we describe here the differential solubilization and DEAE-column chromatography of rat hepatocyte GLUT2 protein and its reconstitution into liposomes. The reconstituted GLUT2 bound cytochalasin B in a saturable manner with an apparent dissociation constant (K(d)) of 2.3 x 10(-6) M and a total binding capacity (B(T)) of 8.1 nmol per mg protein. The binding was completely abolished by 2% mercury chloride, but not affected by cytochalasin E. Significantly, the binding was also not affected by 500 mM D-glucose or 3-O-methyl D-glucose (3OMG). The purified GLUT2 catalyzed mercury chloride-sensitive 3OMG uptake, and cytochalasin B inhibited this 3OMG uptake. The inhibition was dose-dependent with respect to cytochalasin B, but was independent of 3OMG concentrations. These findings demonstrate that our solubilized GLUT2 reconstituted in liposomes is at least 60% pure and functional, and that GLUT2 is indeed unique in that its cytochalasin B binding is not affected by its substrate (D-glucose) binding. Our partially purified GLUT2 reconstituted in vesicles will be useful in biochemical and structural elucidation of GLUT2 as a glucose transporter and as a possible glucose sensor.     

Solubilization and partial purification of cytochrome P-450 from rat lung microsomes

Cytochrome P-450 from rat lung microsomes has been solubilized and purified 8-fold by using affinity chromatography on an ω-amino-$\text{n}$-octyl derivative of Sepharose 4B. The purified fraction was free of cytochrome $\text{b}$₅ and NADPH-cytochrome $\text{c}$ reductase and showed spectral characteristics similar to those of lung microsomal cytochrome P-450. When combined with NADPH-cytochrome $\text{c}$ reductase partially purified from liver microsomes, the cytochrome P-450 fraction supported the hydroxylation of benzo (α)pyrene and the activity was proportional to the content of the hemoprotein. No absolute requirement for phosphatidylcholine was found.     

Characterization and partial purification of L-asparaginase from Corynebacterium glutamicum

A high L-asparaginase (L-asparagine amidohydrolase: EC 3.5.1.1) activity was found under conditions of lysine overproduction in cultures of Corynebacterium glutamicum. L-Asparaginase was purified 98-fold by protamine sulphate precipitation. DEAE-Sephacel anion exchange, ammonium sulphate precipitation and Sephacryl S-200 gel filtration. The asparaginase protein was subjected to PAGE under non-denaturing conditions, identified by an in situ reaction and eluted from the gel in an active form. The estimated Mr from gel filtration and SDS-PAGE was 80,000. The L-asparaginase activity was inhibited by the L-asparagine analogue 5-diazo-4-oxo-L-norvaline. Neither D-asparagine nor L-glutamine was a substrate for the enzyme. L-Asparaginase was produced constitutively: its role may be that of an overflow enzyme, converting excess asparagine into aspartic acid, the direct precursor of lysine and threonine.     

Identification, expression, and purification of a pyrethroid-hydrolyzing carboxylesterase from mouse liver microsomes

Carboxylesterases are enzymes that catalyze the hydrolysis of a wide range of ester-containing endogenous and xenobiotic compounds. Although the use of pyrethroids is increasing, the specific enzymes involved in the hydrolysis of these insecticides have yet to be identified. A pyrethroid-hydrolyzing enzyme was partially purified from mouse liver microsomes using a fluorescent reporter similar in structure to cypermethrin (Shan, G., and Hammock, B. D. (2001) Anal. Biochem. 299, 54-62 and Wheelock, C. E., Wheelock, A. M., Zhang, R., Stok, J. E., Morisseau, C., Le Valley, S. E., Green, C. E., and Hammock, B. D. (2003) Anal. Biochem. 315, 208-222) and subsequently identified as a carboxylesterase (NCBI accession number BAC36707). The expressed sequence tag was then cloned, expressed in baculovirus, and purified to homogeneity. Kinetic constants for a large number of both type I and type II pyrethroid or pyrethroid-like substrates were determined. This esterase possesses similar kinetic constants for cypermethrin and its fluorescent-surrogate (k(cat) = 0.12 +/- 0.03 versus 0.11 +/- 0.01 s(-1)). Compared with their cis- counterparts, trans-permethrin and cypermethrin were hydrolyzed 22- and 4-fold faster, respectively. Of the four fenvalerate isomers the (2R)(alphaR)-isomer was hydrolyzed at least 1 order of magnitude faster than any other isomer. However, it is unlikely that this enzyme accounts for the total pyrethroid hydrolysis in the microsomes because both isoelectrofocusing and native PAGE indicate the presence of a second region of cypermethrin-metabolizing enzymes. A second carboxylesterase gene (NCBI accession number NM_133960), isolated during a cDNA mouse liver library screening, was also found to hydrolyze pyrethroids. Both these enzymes could be used as preliminary tools in establishing the relative toxicity of new pyrethroids.     

Induction by Triacetyloleandomycin and partial purification of a LM3 form of cytochrome P-450 from rabbit liver microsomes

Treatment of rabbits with Triacetyloleandomycin (a currently used antibiotic in human therapy) at 1 mmol per kg of body weight daily for 5 days results in a significant induction of liver microsomal cytochrome P-450, (2.6 nmol/mg proteins). Electrophoresis in SDS polyacrylamide gels shows this increase in P-450 is associated to the appearance of a strong band in a zone located between the major bands of microsomes induced by phenobarbital and β-naphtoflavone (LM₃ forms in Coon's terminology). Partial purification of this P-450 LM₃ (TAO) was undertaken by chromatographic procedures (CM cellulose and hydroxylapatite). Its subunit molecular weight is 52 000; the absolute spectra in the oxidized, ferrous and CO-ferrous forms present maxima at 417, 536, and 570 nm; 415 and 548 nm; 450 and 555 nm respectively. Monooxygenase activity of LM₃ (TAO) was compared with that of LM₂ and LM₄ in a reconstituted system containing NADPH cytochrome P-450 reductase and phosphatidylcholine; the activity of P-450 LM₃ (TAO) was higher than that of LM₂ and LM₄ with chlorcyclizine as a substrate. According to these observations, LM₃ (TAO) resembles LM₃ (b), a constitutive form of untreated rabbit liver microsomes.