Immunoaffinity purification of human thromboxane synthase

A recently produced monoclonal antibody against human thromboxane synthase was used to purify the enzyme from platelets in a one-step procedure with good yields. The isolated protein exhibited a single band of about 58 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and contained one heme/mol. Although the visible spectrum of the oxidized enzyme displayed a peak at 418 nm like the previously isolated enzyme after dithionite reduction and CO addition, it shifted to 419 nm but not to 450 nm where only a small shoulder could be detected. Its catalytic activity was only 1-5% of the previous preparations, but with the same Km of about 10 microM and a ratio of thromboxane B2: 12-hydroxyheptadecatrienoic acid of 1:1. Studies with EPR spectrometry and inhibitors confirmed that only a minor part of the enzyme was in its native heme-thiolate conformation, whereas the major part had been converted to the inactive P420 form by the elution procedure. The amino acid analysis revealed 46% hydrophobic residues. According to the sequence of 26 amino acids from the N-terminus and two tryptic peptides no homology to one of the cytochrome P450 monooxygenases, or to cyclooxygenase, or to prostacyclin synthase was detected.     

Immunoaffinity purification and characterization of leucine aminopeptidase from human liver

Leucine aminopeptidase was purified from human liver cytosol to homogeneity, 1538-fold, with a yield of 84.4% by immunoaffinity chromatography. Increases in the activity and the stability of the enzyme were simultaneously observed during the purification procedure, suggesting the presence of some endogenous inhibitor in cytosol. The specific activity and Km value of the enzyme for L-leucine amide were found to be 58.00 mumol/min/mg of protein and 4.02 mM, respectively, at pH 8.0. The molecular weight of the enzyme was determined to be 360,000 by both polyacrylamide gradient gel electrophoresis and Sephadex G-200 gel filtration. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of native and dimethyl suberimidate cross-linked enzyme indicate that the native enzyme has two subunits of Mr 53,000 (a) and 65,000 (b) and is a hexamer arranged as a trimer of dimers (3 X (a X b)). The optimum pH was 10.5, and the enzyme was stable in the pH range from 7.5-8.5. The enzyme was activated by divalent metal ions, especially by Mg2+ and Mn2+, with no change in Km value. The enzyme was inhibited by metal-chelating agents, indicating it to be a metalloenzyme. Amastatin and bestatin strongly inhibited the enzyme, but leupeptin did not. The enzyme had a broad substrate specificity toward oligopeptides and amino acid amides but had little or no activity toward chromogenic substrates. The enzyme also could hydrolyze natural substrates contained in liver cytosol and accordingly produce many kinds of amino acids commonly found in proteins.     

Immunoaffinity purification and characterization of nucleotide pyrophosphatase from human placenta

Nucleotide pyrophosphatase [EC 3.6.1.9] was purified to homogeneity from human placenta using a monoclonal antibody affinity column. By sodium dodecylsulfate--polyacrylamide gel electrophoresis, the purified enzyme showed a major band at a molecular size of 130 K. The enzyme was a glycoprotein with N-linked oligosaccharides consisting of both complex- and oligomannoside-types. Substrate specificity to hydrolyze phosphodiester and phosphosulfate linkages as well as other properties were similar to those of nucleotide pyrophosphatase and phosphodiesterase from other sources.     

Immunoaffinity purification and characterization of diamine oxidase from Cicer

Antiserum specific for diamine oxidase (DAO;EC 1.4.3.6) from Lens culinaris cross-reacted with DAO from several other members of the Leguminosae when tested by agar double diffusion. Antibodies purified by affinity chromatography were used to make an immunoadsorbent for the one-step purification of DAO from various species of the Leguminosae. This technique has made it possible to purify in one step the already characterized DAO from pea and lentil, and the unknown diamine oxidase from Cicer arietinum. This enzyme was partially characterized; it showed a pH optimum of 7.5 with putrescine as substrate and followed typical Michaelis-Menten kinetics with a K_m of 2.4 × 10^?4 M. Copper ligands and carbonyl group-directed reagents inhibited the enzyme.     

Comparative purification and characterization of invertebrate muscle glycogen synthase from the porcine parasite Ascaris suum

Glycogen synthase has been purified from the obliquely striated muscle of the swine parasite Ascaris suum. The muscle contains a concentration of glycogen synthase and glycogen which is 20-fold and 15-fold, respectively, greater than rabbit skeletal muscle. The enzyme could not be solubilized with salivary amylase, but partial solubilization was achieved by activation of endogenous phosphorylase. The enzyme was purified to 85-90% homogeneity (specific activity = 4.3 units/mg) by DEAE-cellulose, Sepharose 4B, and glucosamine 6-phosphate chromatography. The purified glycogen synthase was substantially similar to rabbit skeletal muscle enzyme with respect to Mr (gel electrophoresis and gel filtration), pH dependence, aggregation properties, temperature dependence, and kinetic constants for substrates and activators. Glycogen synthase I was converted to glycogen synthase D by the cyclic AMP-dependent protein kinase. The cyclic AMP-dependent protein kinase catalyzed the incorporation of 1.3 mol of phosphate into each glycogen synthase I subunit and the concomitant interconversion to glycogen synthase D. Since glycogen is the sole fuel utilized by this organism during nonfeeding periods of the host, the characterization of this enzyme provides further insight into the regulatory mechanisms which determine glycogen turnover.     

Immunoaffinity purification and characterization of glyceraldehyde-3-phosphate dehydrogenase from human erythrocytes

A new procedure utilizing immunoaffinity column chromatography has been used for the purification of glyceraldehyde-3-phosphate dehydrogenase （GAPDH, EC 1.2.1.12） from human erythrocytes. The comparison between this rapid method （one step） and the tra- ditional procedure including ammonium sulfate fractionation followed by Blue Sepharose CL-6B chromatography shows that the new method gives a highest specific activity with a highest yield in a short time. The characterization of the purified GAPDH reveals that the native enzyme is a homotetramer of -150 kDa with an absolute specificity for the oxidized form of nicotinamide adenine dinucleotide （NAD＋）. Western blot analysis using purified monospecific polyclonal antibodies raised against the purified GAPDH showed a single 36 kDa band corresponding to the enzyme subunit. Studies on the effect of temperature and pH on enzyme activity revealed optimal values of about 43℃ and 8.5, respectively. The kinetic parameters were also calculated： the Vmax was 4.3 U/mg and the Km values against G3P and NAD＋ were 20.7 and 17.8 μM, respectively. The new protocol described represents a simple, economic, and reproducible tool for the purification of GAPDH and can be used for other proteins.     

Immunoaffinity purification and characterization of vacuolar H+ATPase from bovine kidney

Vacuolar proton-translocating ATPase from bovine kidney was purified in one step by immunoprecipitation and immunoaffinity chromatography using an immobilized anti-H+ATPase monoclonal antibody. The monoclonal antibody affinity matrix coprecipitated polypeptides with Mr of 70,000, a cluster at 56,000, 45,000, 42,000, 38,000, 33,000, 31,000, 15,000, 14,000, and 12,000 from solubilized bovine kidney microsomal membranes, a pattern that was unaffected by different detergent washing conditions. A nearly identical pattern of polypeptides was observed in H+ATPase partially purified by an entirely independent method. The immunoaffinity purified H+ATPase had reconstitutively active ATP-induced acidification and potential generation that was inhibited by N-ethylamaleimide. The purified enzyme had specific activities as high as 3.1 mumol/min/mg protein, dual pH optima at 6.5 and 7.2, and a Km for ATP of 150 microM. The substrate preference was ATP greater than ITP much greater than UTP greater than GTP greater than CTP. The affinity purified H+ATPase was stimulated by phosphatidyl glycerol greater than phosphatidyl inositol much greater than phosphatidyl choline greater than phosphatidyl serine. The immunoaffinity purified enzyme did not require monovalent anions or cations for activity, and the divalent cation preference for activity was Mn, Mg much greater than Ca greater than Co much greater than Sr, Ba. The enzyme was not inhibited by ouabain, azide, or vanadate, but had kappa 1/2 inhibitory concentrations of 22.2 microM for N-ethylmaleimide, 14.9 microM for NBD-Cl, 4.9 microM for N,N'-dicyclohexylcarbodiimide, 13.8 microM for 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid, and 315 microM for Zn, values close to those for inhibition of proton transport in the native vesicles. The affinity purified kidney enzyme has similarities to but also significant differences in structural and enzymatic properties from those reported for other vacuolar H+ATPase.     

A novel influenza A virus activating enzyme from porcine lung: purification and characterization

Proteolytic activation of hemagglutinin, an envelope glycoprotein of the influenza virus, by host proteases is essential for infection and proliferation of the virus. However, there is no well-defined, inherent source of host proteases in man or swine, both of which are natural hosts for human influenza viruses. We have recently isolated a 32 kDa protein in a high salt extract from porcine lungs, which possess the hemagglutinin processing activity. In this study, we attempted to purify another hemagglutinin processing enzyme from porcine lung. The purified enzyme, named tryptase TC30, exhibited a molecular mass of about 30 kDa by SDS-PAGE and 28.5 kDa by gel filtration chromatography, suggesting that it is a monomer. Tryptase TC30 cleaved peptide substrates with Arg at the P1 position, and preferentially substrates with the Ser-Ile-Gin-Ser-Arg sequence corresponding to the HA cleavage site sequence of the A/PR/8/34 influenza virus. Among various inhibitors tested, trypsin-type serine protease inhibitors, such as aprotinin, antipain, benzamidine and leupeptin, efficiently inhibited the proteolytic activity of the enzyme. The N-terminal 40 amino acid sequence of tryptase TC30 exhibits more than 60% homology to mast cell tryptases from mice MCP-6 and human tryptase-alpha and -beta. These data indicate that tryptase TC30, the 30 kDa enzyme from porcine lung, is a novel hemagglutinin-cleaving enzyme.     

Monoclonal antibodies to thromboxane synthase from porcine lung. Production and application to development of a tandem immunoradiometric assay

Two hybridoma cell lines secreting antibodies against thromboxane synthase of porcine lung were produced. Clone TS1 secretes IgG2a antibody of lower affinity, while clone TS2 secretes IgG1 antibody of higher affinity. Both antibodies (when bound to rabbit anti-mouse IgG-Staphylococcus aureus complex) can immunoprecipitate thromboxane synthase from crude enzyme preparations in an active form suggesting that binding was not directed at the active site. Each antibody showed a distinctive pattern of cross-reactivity with thromboxane synthase from different porcine tissues. Neither of the antibodies cross-reacted with the enzyme from tissues of other species tested, indicating the heterogeneous nature of the enzyme among species. Competitive binding assay revealed that TS1 and TS2 recognized different determinants on the enzyme. The fact that two antibodies bind to separate epitopes on the same enzyme allows the development of a sensitive tandem immunoradiometric assay. The assay, based on binding of 125I-TS2 to thromboxane synthase immobilized on TS1-S. aureus complex, was linear with 7.5 approximately 75 ng of purified lung thromboxane synthase as standards and applicable to enzyme preparations regardless of their purity. The concentration of immunoreactive thromboxane synthase in porcine tissues as determined by this assay followed the order of platelet greater than colon greater than duodenum greater than lung greater than kidney greater than stomach. The fact that gastrointestinal tract is enriched with thromboxane synthase suggests that thromboxane may have significant physiological roles to be recognized in these organs.     

DNA polymerase alpha-DNA primase from human placenta. Immunoaffinity purification and preliminary characterization

Highly purified DNA polymerase alpha-DNA primase from normal human tissue (human placenta) has been prepared by immunoaffinity purification on immobilized anti-human DNA polymerase alpha monoclonal antibody SJK 287-38. According to data from SDS electrophoresis this preparation consists of subunits of 180, 160, 145, 140 kDa (a cluster of DNA-polymerizing subunits), 73 kDa (function unknown) and 59, 52 kDa (corresponding to primase). Three active enzyme forms of 270, 460 and 575 kDa have been revealed using native electrophoresis followed by detection of DNA polymerase activity.     

Substrate inactivation of lung thromboxane synthase preferentially decreases thromboxane A2 production

Bovine lung thromboxane synthase was immobilized on phenyl-Sepharose beads by adsorption. The immobilized enzyme was catalytically active and synthesized both TXA2 and HHT. The production of both products was inhibited by 1-benzylimidazole and furegrelate. Multiple additions of PGH2 dramatically reduced the ability of the enzyme to synthesize TXA2, but did not effect the synthesis of HHT. In addition, 1-benzylimidazole did not protect thromboxane synthase from inactivation with multiple additions of PGH2. When the enzyme was incubated with PGH2 in the presence of 1-benzylimidazole, the synthesis of TXA2 was inhibited. When the inhibitor was removed the enzyme had still been inactivated by PGH2 in the presence of 1-benzylimidazole. Thus the substrate inactivation of the enzyme does not require the production of TXA2. Our data suggests that the synthesis of TXA2 and HHT can be differentially inactivated and may occur at different sites on the enzyme.     

Immunoaffinity purification and cDNA cloning of human platelet prostaglandin endoperoxide synthase (cyclooxygenase).

The cDNA for prostaglandin endoperoxide synthase (cyclooxygenase) was cloned from human platelets by the polymerase chain reaction amplification method, and the primary structure of the enzyme was deduced from the nucleotide sequence. The enzyme was composed of 599 amino acids including 23-amino acid signal sequence, and the calculated molecular weight of the mature protein was 65,995. The enzyme was immunoaffinity-purified from human platelets. The N-terminal amino acid sequence determined by Edman degradation was Ala-Asp-Pro-Gly-Ala-Pro-Thr-Pro-, and the result confirmed the primary structure of the enzyme, which was deduced from the cDNA sequence.     

The affinity purification and characterization of ATP synthase complexes from mitochondria

The mitochondrial F₁-ATPase inhibitor protein, IF₁, inhibits the hydrolytic, but not the synthetic activity of the F-ATP synthase, and requires the hydrolysis of ATP to form the inhibited complex. In this complex, the α-helical inhibitory region of the bound IF₁ occupies a deep cleft in one of the three catalytic interfaces of the enzyme. Its N-terminal region penetrates into the central aqueous cavity of the enzyme and interacts with the γ-subunit in the enzyme''s rotor. The intricacy of forming this complex and the binding mode of the inhibitor endow IF₁ with high specificity. This property has been exploited in the development of a highly selective affinity procedure for purifying the intact F-ATP synthase complex from mitochondria in a single chromatographic step by using inhibitor proteins with a C-terminal affinity tag. The inhibited complex was recovered with residues 1–60 of bovine IF₁ with a C-terminal green fluorescent protein followed by a His-tag, and the active enzyme with the same inhibitor with a C-terminal glutathione-S-transferase domain. The wide applicability of the procedure has been demonstrated by purifying the enzyme complex from bovine, ovine, porcine and yeast mitochondria. The subunit compositions of these complexes have been characterized. The catalytic properties of the bovine enzyme have been studied in detail. Its hydrolytic activity is sensitive to inhibition by oligomycin, and the enzyme is capable of synthesizing ATP in vesicles in which the proton-motive force is generated from light by bacteriorhodopsin. The coupled enzyme has been compared by limited trypsinolysis with uncoupled enzyme prepared by affinity chromatography. In the uncoupled enzyme, subunits of the enzyme''s stator are degraded more rapidly than in the coupled enzyme, indicating that uncoupling involves significant structural changes in the stator region.     

The purification and preliminary characterization of UMP synthase from human placenta

Orotate phosphoribosyltransferase (EC 2.4.2.10) and orotidine 5'-monophosphate decarboxylase (EC 4.1.1.23) are the final two of six enzymatic steps required in the de novo biosynthesis of uridine 5'-monophosphate (UMP). Earlier work of this laboratory showed that, in the mouse Ehrlich ascites carcinoma, both of these enzymatic activities were contained on the single multifunctional polypeptide chain, UMP synthase. We report here that the placenta provided an available human source for UMP synthase with 40-fold higher orotate phosphoribosyltransferase and orotidine 5'-monophosphate decarboxylase specific activities than erythrocytes, a human source previously used by others. By using the placenta as a source of UMP synthase and by developing a novel purification procedure different from that used in the purification of UMP synthase from the Ehrlich ascites carcinoma (the only other homogeneous preparation of a mammalian UMP synthase), we achieved the purification of human UMP synthase to apparent homogeneity. This represents the first publication to homogeneity of UMP synthase from a human source as well as from a source other than malignant cell lines. Contrary to earlier reports human placental UMP synthase was found to be a multifunctional protein containing both enzymatic activities on a single polypeptide of 51,000 molecular weight. Preliminary characterization of the human placental UMP synthase showed it to be similar to UMP synthase from the Ehrlich ascites carcinoma in subunit molecular weight, native molecular weight, isozyme pattern (although not absolute pI values), pH optima of enzymatic activities, and kinetic constants for orotidine 5'-monophosphate (Km) and 6-azauridine 5'-monophosphate (Ki) at the decarboxylase site.     

Partial purification and characterization of citrate synthase from Dictyostelium discoideum.

The effect of thyroidectomy on oxidative metabolism of rat liver, kidney, and brain mitochondria has been examined. The respiration in liver, kidney, and brain mitochondria was affected differentially after thyroidectomy, the common effect in all the tissues being the impairment in state 3 as well as state 4 rates of succinate oxidation. Thyroidectomy did not have any effect on $\text{ADP}\text{O}$ ratios; however, compared to normal, respiratory control indexes were, in general, somewhat higher. Thyroidectomy also did not alter total ATPase activity of liver, kidney, and brain mitochondria, although the basal ATPase activity had decreased significantly under these conditions. The cytochrome content of the mitochondria also showed tissue-specific changes after thyroidectomy; however, no significant changes in the absorption characteristics of the cytochromes were seen. The succinate and glutamate dehydrogenase activities of mitochondria from liver, kidney, and brain were not affected by thyroidectomy, thereby ruling out the possibility that the decrease in substrate oxidation may be due to alterations in the primary dehydrogenase levels. It is concluded that thyroid hormone(s) may have a tissue-specific role in regulating the metabolic functions of mitochondria.     

Immunoaffinity purification and functional characterization of interphase and meiotic Drosophila nuclear lamin isoforms

Three isoforms of a single nuclear lamin have been identified in Drosophila. Two, lamins Dm1 and Dm2, are present during interphase and are apparently in equilibrium with each other in vivo. The third, lamin Dmmit, is found in cells that have undergone nuclear envelope breakdown, either during meiosis or mitosis. All three isoforms were purified under nondenaturing conditions using a novel technique of immunoaffinity chromatography and their in vitro activities were examined. Interphase lamins Dm1 and Dm2 can assemble into filaments at physiologic ionic strength; assembly is reversible upon addition of concentrated NaCl. Negative staining of filaments formed in vitro shows long, unbranched bundles approximately 20 nm in diameter. Addition of specific antilamin antibodies blocks in vitro assembly completely. In contrast with lamins Dm1 and Dm2, lamin Dmmit remains soluble at physiologic ionic strength. These observations are consistent with the notion that lamina disassembly in vivo is due, at least in part, to changes in properties of the lamins themselves.