Increase in hepatic tyrosine aminotransferase mRNA during enzyme induction by N6,O2'-dibutyryl cyclic AMP.

Tyrosine aminotransferase mRNA was quantitated by translation in a cell-free system derived from wheat germ followed by specific immunoprecipitation of the newly synthesized enzyme subunit. Hepatic poly(A)-containg RNA prepared from rats treated for 4 h with N6, O2'-dibutyryl cyclic AMP and theophylline was approximately 5.6 times more active in directing the synthesis of the tyrosine aminotransferase subunit relative to untreated controls. The overall template activity of the RNA prepared from control and cyclic AMP-treated animals was virtually identical, demonstrating that the cyclic nucleotide effect was specific for the tyrosine aminotransferase mRNA. At all times, after a single injection of dibutyryl cyclic AMP and theophylline, the increase in hepatic enzyme activity was accompanied by corresponding induction in the level of functional tyrosine aminotransferase mRNA. Other inducers of tyrosine aminotransferase, such as glucagon and hydrocortisone, also increased the level of tyrosine aminotransferase mRNA in proportion to their effect on enzyme activity. The RNA polymerase II inhibitor, alpha-amanitin, completely blocked the dibutyryl cyclic AMP-mediated increase in tyrosine aminotransferase mRNA activity. These studies demonstrate that, in intact animals, the induction of tyrosine aminotransferase activity by dibutyryl cyclic AMP can be completely accounted for by a corresponding increase in the level of functional mRNA coding for the enzyme.     

Translation of mRNA from rat-liver polysomes into tyrosine aminotransferase and tryptophan oxygenase in a protein-synthesizing system from wheat germ. Effects of cortisol on the translatable levels of mRNA for these two enzymes.

Messenger RNA was isolated from rat liver polysomes by phenol/chloroform extraction and subsequent oligo(dT)-cellulose chromatography. The mRNA was translated in a protein-synthesizing system in vitro derived from wheat germ. The system was optimized in respect to Mg2+ and K+. The presence of spermidine or spermine is necessary for the synthesis of polypeptides having molecular weights of over 20 000. In the absence of the bases only small molecular weight products are formed. The amount of protein synthesized is linearly dependent on the amount of mRNA added up to concentrations of 80 mug mRNA/ml. The synthesis of tyrosine aminotransferase and tryptophan oxygenase in the system in vitro has been demonstrated by specific immunoprecipitation and sodium-dodecylsulfate polyacrylamide gel electrophoresis of the precipitate with enzyme proteins as marker. The amount of specific product formed is linearly dependent on the amount of mRNA present. The amount of translatable tyrosine aminotransferase mRNA and tryptophan oxygenase mRNA increases after administration of hydrocortisone to adrenalectomized rats. At low doses of hormone (2 mg/100 g body weight) maximal values are observed at 4 h, control levels being reached at 6-8 h after hormone application. With higher doses of hydrocortisone (20 mg/100 g body weight) maximal values are attained at 6 h, tending to control levels 14 h after treatment. The enzyme activity curves are parallel to the mRNA curves, the peak of enzyme activity occurring 2 h after the peak of mRNA activity.     

Effect of cortisol on the content of mRNA coding inducible tyrosine aminotransferase isoenzyme in rat liver]

In vitro estimation of synthesis of inducible tyrosine aminotransferase isoenzyme, directed by poly-A-containing RNA from liver of intact and corticol treated rats, is carried out. Total poly-A-containing RNA from liver polyribosomes of intact and induced rats was translated in cell-free system from wheat germs. Two antibodies immunoprecipitation was used to identify the translocation product (tyrosine aminotransferase). It was found that a synthesis of a specific protein product, precipitated by antibodies to tyrosine aminotransferase, takes place in cell-free system under translation of polysomic poly-A-containing liver RNA. The amount of immunoprecipitated product indicates, that the content of individual poly-A-containing mRNA for inducible tyrosine aminotransferase isoenzyme in liver of cortisol-induced rats is considerably higher than in intact animals.     

In vitro synthesis of a putative precursor of serine: pyruvate aminotransferase of rat liver mitochondria

Serine:pyruvate aminotransferase [EC 2.6.1.51] of rat liver, an enzyme induced by glucagon in mitochondria, was synthesized in cell-free protein synthesizing systems derived from nuclease-treated rabbit reticulocyte lysate and wheat germ extract as a putative precursor which was approximately 2,000 daltons larger than the subunit of mature enzyme. The hepatic level of translatable messenger RNA coding for the putative precursor was approximately 40 times higher in rats received a glucagon administration 3.5 h before sacrifice than in control animals.     

Partial purification of rat alpha-lactalbumin mRNA.

Alpha-lactalbumin messenger RNA was partially purified from RNA extracted from 3-5 day lactating rat mammary glands on a poly(U)-sepharose column followed by sucrose gradient centrifugation. Apha-Lactalbumin mRNA activity was assayed in wheat germ cell-free translational system by immunoprecipitation of the in vitro synthesized protein using specific antiserum prepared against purified rat alpha-lactalbumin. In the purified mRNA preparation alpha-lactalbumin mRNA activity comprised approximately 85% of the total mRNA activity.     

Thyrotropin-releasing hormone inreases prolactin mRNA activity in the cytoplasm of GH-cells as measured by translation in a wheat germ cell-free system

A wheat germ embryo extract was used to translate cytoplasmic RNA isolated from rat pituitary tumor cells (GH-cells). This RNA directed the synthesis of a radioactive product which was precipitated with antiserum specific for rat prolactin. The molecular weight of this immunoprecipitated product was 24,500 as determined by electrophoresis in denaturing gels. Prolactin secreted by intact GH-cells had a molecular weight identical to standard pituitary prolactin, reported to be about 22,500. Our finding that a larger form of prolactin is made by the wheat germ system is similar to results recently described by Maurer, Stone and Gorski (J. Biol. Chem., in press). Thyrotropin-releasing hormone (TRH) stimulates prolactin synthesis in GH-cells, and cytoplasmic RNA isolated from cells treated with TRH directed the synthesis in wheat germ extracts of larger amounts of prolactin than RNA isolated from control cells. The increase in translatable cytoplasmic mRNA for prolactin corresponded to the increase in prolactin synthesis which suggests that the increase in prolactin synthesis in TRH-treated cells is a result of the accumulation of cytoplasmic mRNA for prolactin.     

Cell-free synthesis of a larger-molecular-weight precursor of cytochrome c oxidase subunit V from rat liver and the distribution of its mRNA between free and membrane-bound polysomes

Poly(A)-rich RNA from phenol-extracted rat liver polysomes was translated in a heterologous cell-free system derived from wheat germs. The labeled translation products were incubated with an antiserum against cytochrome c oxidase subunit V. After immunoprecipitation and affinity chromatography with protein-A-Sepharose, the isolated antigen-immunoglobulin complexes were analyzed by sodium dodecyl sulfate/polyacrylamide gel electrophoresis and fluorography. Only one protein with an apparent molecular weight of 15 500 was visualized. In immunocompetition experiments with unlabeled individual cytochrome c oxidase subunits IV, V, VI or VII only subunit V could compete with the 15 500-Mr protein synthesized in vitro. Two-dimensional fingerprints of cytochrome c oxidase subunit V and the polypeptide synthesized in vitro showed a high degree of similarity. It is concluded that the cytochrome c oxidase subunit V is synthesized as a precursor with an amino-terminal extension of about 25 amino acids. It was possible to convert the precursor of cytochrome c oxidase subunit V synthesized in vitro to its mature form by intact mitochondria as well as by submitochondrial particles. A chain length of 830 +/- 70 nucleotides was estimated for the poly(A)-rich mRNA of the higher-molecular-weight precursor of rat liver cytochrome c oxidase subunit V. Assuming a molecular weight of 15 500 for the precursor a non-coding region of about 300 nucleotides must exist. In experiments on the site of synthesis it is shown that the poly(A)-rich RNA for the higher-molecular-weight precursor of cytochrome c oxidase subunit V is found in free, loosely and tightly membrane-bound polyribosomes.     

Synthesis of nascent prothrombin and albumin in a heterologous system using rat liver messenger RNA purified in oligo (dT)-cellulose.

Highly active m-RNA was prepared by phenol extraction of rat liver polysomes followed by oligo (dT)-cellulose chromatography. This m-RNA preparation stimulated total protein synthesis in rabbit reticulocyte lysates and in wheat germ extracts. Nascent prothrombin and albumin synthesized in the reticulocyte system programmed with this m-RNA were precipitated with specific antibodies and identified by their electrophoretic mobilities on SDS-acrylamide gels.     

Synthesis of a larger precursor for the subunit IV of rat liver cytochrome c oxidase in a cell-free wheat germ system

Poly(A)+RNA from phenol-extracted rat liver polysomes was translated in a heterologous cell-free system derived from wheat germ. The RNA stimulated the incorporation of [35S]methionine into proteins 20- to 30-fold. The labeled translation products were incubated with an antiserum against cytochrome c oxidase. After binding of the antigen x immunoglobulin complex to and elution from protein A-Sepharose and sodium dodecyl sulfate (SDS)-polyacrylamide step gel electrophoresis, autoradiography was carried out. Mainly one major protein with an apparent molecular weight of 19,500 was visualized. When the unlabeled individual cytochrome c oxidase subunits IV, V, VI, or VII, isolated from preparative SDS-polyacrylamide gels, were added to the translation mixture, it was found that only subunit IV could compete with the in vitro-synthesized protein of 19.5 kilodaltons in respect to the binding to the cytochrome c oxidase antiserum. The in vitro-synthesized product was 3,000 daltons larger than the cytochrome c oxidase subunit polypeptide IV. It is concluded that the subunit IV is synthesized as a precursor. Evidence for the precursor form was obtained from translation experiments with [35S]methionine bound to a specific initiator tRNA which led to a radioactively labeled product of identical electrophoretic mobility as the 19.5 kilodalton protein. Furthermore, two dimensional tryptic fingerprints of subunit IV and its precursor show a high degree of similarity.     

Physical properties, limited proteolysis, and acetylation of tyrosine aminotransferase from rat liver

The native and one of the modified forms of tyrosine aminotransferase were purified from rat liver and characterized. Several hydrodynamic properties of the native enzyme are: Stokes radius, 46 A; subunit isoelectric point, 5.6; sedimentation coefficient, 5.6 S, frictional ratio, 1.44; diffusion coefficient, 4.65 X 10(-7) cm2 s-1; extinction coefficient of a 1% solution (w:v) at 280 nm, 10.5 cm-1. The molecular weight of the dimeric protein is 110,500 as calculated from the Stokes radius and sedimentation coefficient. The subunit of the modified form is of lower molecular weight than the subunit of the native enzyme and has a pI of about 5.9. During isoelectric focusing, both forms of the enzyme separate into two components. The more acidic component that is resolved from the native enzyme is phosphorylated, but the other component is not. The amino acid composition of native tyrosine aminotransferase differs from values reported for mixtures of the three forms of this enzyme. Neither the native nor the modified forms of the enzyme possess a free alpha-amino group as judged by dansylation, nor can they be digested with leucine aminopeptidase, implying that the NH2-terminus is blocked. The possibility that tyrosine aminotransferase is acetylated was examined by translating poly(A)+RNA from hepatoma cells in a cell-free translational system in the presence and absence of inhibitors of protein acetylation. [35S]Tyrosine aminotransferase synthesized in the presence of the inhibitors has a more basic isoelectric point than the native enzyme as determined by isoelectric focusing, suggesting that the enzyme is acetylated either at the NH2-terminal or the epsilon-amino group of an internal lysine. When digested by either of two lysosomal proteases, tyrosine aminotransferase is cleaved to a smaller size. These data show that tyrosine aminotransferase is susceptible to several post-translational modifications.     

Tyrosine aminotransferase from rat liver, a purification in three steps.

Tyrosine aminotransferase from rat liver was isolated by a three step purification method involving affinity chromatography, CM-50 chromatography and G-200 gel filtration. In order to synthesize the affinity gel, the coenzyme pyridoxamine-5′-phosphate was coupled via a spacer group to a sepharose matrix. The enzyme preparation showed a single band in SDS-acrylamide gel electrophoresis and contains three multiple enzyme forms. A molecular weight of 50,000 of the tyrosine aminotransferase subunit was estimated.     

Nonidentity of liver alcohol dehydrogenase and the principal protein target of hepatic azocarcinogen

During hepatocarcinogenesis in the rat by the aminoazo dyes, a principal carcinogen-protein conjugate (azoprotein) is formed in liver cytosol from a normal target protein, whose identity and function are unknown. Based on similarities of amino acid compositions, molecular weights, and subunit sizes of azoprotein and liver alcohol dehydrogenases, others have proposed that liver alcohol dehydrogenase is the principal normal target protein of azocarcinogens during liver carcinogenesis in the rat.In the present study, specific antiserum precipitated the principal liver azoprotein and target protein, but failed to precipitate rat liver alcohol dehydrogenase. The ability of the antiserum to distinguish and to separate the azoprotein and target protein from alcohol dehydrogenase shows that this enzyme is not the principal target protein of the azocarcinogens.     

Stabilization of rat liver tyrosine aminotransferase by tetracycline.

Rat liver tyrosine aminotransferase was purified 200-fold and an antiserum raised against it in rabbits. 2. Hepatic tyrosine aminotransferase activity was increased fourfold by tyrosine, twofold by tetracycline, 2.5-fold by cortisone 21-acetate and ninefold by a combination of tyrosine and cortisol administered intraperitoneally to rats. 3. Radioimmunoassay with 14C-labelled tyrosine aminotransferase, in conjunction with rabbit antiserum against the enzyme, revealed that cortisol stimulates the synthesis of the enzyme de novo, but that tetracycline has no such effect. 4. Incubation of rat liver homogenates with purified tyrosine aminotransferase in vitro leads to a rapid inactivation of the enzyme, which tetracycline partially inhibits. 5. The inactivation is brought about by intact lysosomes, and the addition of 10mM-cysteine increases the rate of enzyme inactivation, which is further markedly increased by 10mM-Mg2+ and 10mM-ATP. Here again tetracycline partially inhibits the decay rate, leading to the inference that the increase of tyrosine aminotransferase activity in vivo by tetracycline is brought about by the latter inhibiting the lysosomal catheptic action.     

Tyrosine aminotransferase of chicken liver: purification and properties

Tyrosine aminotransferase has been purified from chicken liver to homogeneity by a 5-step procedure. The resultant enzyme preparation has a specific activity (256 units activity/mg protein) comparable to results published for the enzyme purified from rat liver and represented an overall recovery of 35-40%. In terms of structure (native and subunit molecular weights, immunological reactivity, and kinetic parameters) (apparent Michaelis constants for L-tyrosine and 2-oxoglutarate, oxoacid specificity, pH optimum) the purified enzyme from chicken liver exhibits remarkable similarities to tyrosine amino-transferase from rat liver.     

Monospecific antiserum to rat spermidine synthase and its application to rat tissues and several mammals

Monospecific antiserum to rat spermidine synthase was prepared by immunization of rabbits with purified enzyme protein from rat prostate, and its usefulness for analysis of spermidine synthase protein in not only rat tissues but also several other mammals was demonstrated by Western blotting and immunotitration of the enzyme activity. Application of the antiserum for elucidating the relationship between the enzyme activity and protein in normal rat tissues strongly suggested that marked difference in spermidine synthase activity among rat tissues depends solely on the difference in the amount of enzyme protein. Also, application of the antiserum for analyzing spermidine synthase from liver of mouse, rat, guinea pig, pig, and human, showed that the enzymes had a similar subunit molecular weight of 35,000 and a cross-reactivity with the antiserum, exhibiting almost the same immunoreactivity to mouse enzyme as to rat enzyme. Thus, it was suggested that the antiserum would be useful for further studies of mammalian spermidine synthase from the viewpoints of enzymology and molecular biology.     

An improved purification and further characterization of the messenger ribonucleic acid for the fatty acid synthetase from rat liver

High purity fatty acid synthetase mRNA has been prepared from rat liver. The translational purity of the mRNA preparation was at least 27% as judged by the percentage of the radioactivity incorporated into acid-insoluble material that was precipitated by anti-fatty acid synthetase antibody. The specific activity of the mRNA was 220-times greater than that reported previously from this laboratory [1]. The large increase in the specific activity was achieved by the repeated use of high resolution linear-log sucrose density gradient centrifugation and the removal of 28 S rRNA by Sepharose 4B chromatography, as well as by the optimization of the K⁺ concentration (160 mM) in the reticulocyte lysate translation system. The mRNA preparation showed a single major band on agarose gel electrophoresis under denaturing conditions, and the translational activity of the fatty acid synthetase mRNA on the gel was found to coincide with this band. The molecular weight of the fatty acid synthetase mRNA is 2.5·10⁶ Da. The mRNA directed the synthesis of fatty acid synthetase with a molecular weight indistinguishable from that of the authentic enzyme subunit (M_r = 240 000). The copurification of the translation product and authentic enzyme revealed that the fatty acid synthetase polypeptides synthesized in the reticulocyte lysate system are assembled in vitro into dimers, the native form of the enzyme.     

Expression of differentiated functions in hepatoma cell hybrids: IX extinction and reexpression of liver-specific enzymes in rat hepatoma-Chinese hamster fibroblast hybrids.

Most of the hybrid clones derived from a cross of Chinese hamster fibroblasts (DON) with rat hepatoma cells (Faza 967) showed preferential loss of rat chromosomes. Two of the hybrid clones retained the rat chromosomes, and both showed extinction of 4 liver-specific enzymes: aldolase B, liver alcohol dehydrogenase, and the inducible enzymes tyrosine aminotransferase and alanine aminotransferase. Subcloning of 1 of these hybrids, which contained 2 sets of hepatoma chromosomes and 1 set of hamster chromosomes, permitted the isolation of some clones which reexpressed 1 or more of the liver-specific enzymes. Liver alcohol dehydrogenase was the most frequently reexpressed enzyme and aldolase B the least. Tyrosine aminotransferase inducibility was reexpressed independently of basal activity, and the enzyme produced by the reexpressing hybrid cells was precipitated by a specific antiserum. No correlation was detected between the presence or absence of the marker chromosomes (large metacentrics) of the hamster parent and the extinction and reexpression of the hepatic enzymes. The results reported confirm and extend to interspecific hybrids the observation of the stable and independent reexpression of tissue-specific enzymes.     

Low Molecular Weight Active Form of Inducible Liver Tyrosine Aminotransferase

RECENT experiments^1–4 suggest that there are several forms of inducible liver tyrosine aminotransferase and that they may be stimulated by different hormones and expressed differently by genetic mutation. We now report the occurrence of a low molecular weight form of enzymatically active soluble tyrosine aminotransferase, which is inducible as is the larger molecular weight enzyme. Assuming that the latter is a tetramer⁵, the former has a tentative molecular weight equivalent to a subunit of the larger enzyme.     

Purine nucleoside phosphorylases purified from rat liver and Novikoff hepatoma cells.

Purine nucleoside phosphorylase (PNP) was purified from rat hepatoma cells and normal liver tissue utilizing the techniques of ammonium sulfate fractionation, heat treatment, ion-exchange and molecular exclusion chromatography, and polyacrylamide gel electrophoresis. Homogeneity was established by disc gel electrophoresis in the presence and absence of sodium dodecyl sulfate. Purified rat hepatoma and liver PNPs appeared to be identical with respect to subunit and native molecular weight, substrate specificity, heat stability, kinetics and antigenic identity. A native molecular weight of 84,000 was determined by gel filtration. A subunit molecular weight of 29,000 was determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A single isoelectric point was observed at pH 5.8, and the pH optimum was 7.5. Inosine, guanosine, xanthosine, and 6-mercaptopurine riboside were substrates for the enzymes. The apparent K_m for both inosine and guanosine was about 1.0 × 10^?4m and for phosphate was 4.2 × 10^?4m. Hepatoma and liver PNP showed complete cross-reactivity using antiserum prepared against the liver enzyme.     

Complete amino acid sequence of rat liver cytosolic alanine aminotransferase

The complete amino acid sequence of rat liver cytosolic alanine aminotransferase (EC 2.6.1.2) is presented. Two primary sets of overlapping fragments were obtained by cleavage of the pyridylethylated protein at methionyl and lysyl bonds with cyanogen bromide and Achromobacter protease I, respectively. The protein was found to be acetylated at the amino terminus and contained 495 amino acid residues. The molecular weight of the subunit was calculated to be 55,018 which was in good agreement with a molecular weight of 55,000 determined by SDS-PAGE and also indicated that the active enzyme with a molecular weight of 114,000 was a homodimer composed of two identical subunits. No highly homologous sequence was found in protein sequence databases except for a 20-residue sequence around the pyridoxal 5'-phosphate binding site of the pig heart enzyme [Tanase, S., Kojima, H., & Morino, Y. (1979) Biochemistry 18, 3002-3007], which was almost identical with that of residues 303-322 of the rat liver enzyme. In spite of rather low homology scores, rat alanine aminotransferase is clearly homologous to those of other aminotransferases from the same species, e.g., cytosolic tyrosine aminotransferase (24.7% identity), cytosolic aspartate aminotransferase (17.0%), and mitochondrial aspartate aminotransferase (16.0%). Most of the crucial amino acid residues hydrogen-bonding to pyridoxal 5'-phosphate identified in aspartate aminotransferase by X-ray crystallography are conserved in alanine aminotransferase. This suggests that the topology of secondary structures characteristic in the large domain of other alpha-aminotransferases with known tertiary structure may also be conserved in alanine aminotransferase.