Regulation of ornithine aminotransferase mRNA levels in rat kidney by estrogen and thyroid hormone

The regulation of the mitochondrial matrix enzyme, ornithine aminotransferase, by estrogen and triiodothyronine (T3) in rat kidney was examined using a cloned cDNA probe and in vitro translation of poly(A+) RNA. After a single, acute dose of either 17 beta-estradiol or T3, the rate of enzyme synthesis and the levels of translatable and hybridizable ornithine aminotransferase mRNA all increase in parallel. Levels of hybridizable mRNA were estimated by hybridization of randomly 32P-labeled RNA to filter-bound plasmid DNA. Maximal levels of induction by estrogen and T3 were about 15- and 3-fold, respectively. Lag times of at least 5 h and less than 3 h were observed for induction by T3 and estrogen. T3 and estrogen exert a synergistic effect in increasing ornithine aminotransferase mRNA levels. 16 h after T3 administration and 24 h after estrogen administration, a 1.6- and 13-fold increase in mRNA levels were observed. Both of these treatments in combination for the indicated time periods resulted in a 21-fold increase in ornithine aminotransferase mRNA. From the mRNA accumulation curves, half-lives of 10 to 14 h and 12 to 16 h were estimated for the mRNA after estrogen and T3 induction, respectively. These similar half-lives suggest that an increase in the rate of mRNA production is primarily responsible for the induction observed after estrogen administration.     

Translational and pretranslational control of ornithine aminotransferase synthesis in rat liver

The mitochondrial matrix enzyme, ornithine aminotransferase, is induced in rat liver by the administration of a diet high in protein and by glucagon. The rate of synthesis of the enzyme is increased 100-fold in the livers of rats maintained on a 60% relative to a 0% protein diet, whereas the levels of functional and hybridizable mRNA measured by in vitro translation and through the use of a cloned cDNA probe increased by only 2- to 6-fold and 2- to 3-fold, respectively. Under conditions of glucagon induction that resulted in a 10- to 12-fold increase in the rate of enzyme synthesis, the relative level of functional ornithine aminotransferase mRNA increased by only 2-fold, and the level of hybridizable mRNA actually decreased. The rate of polypeptide chain elongation and the relative number of ornithine aminotransferase nascent chains on polysomes were 2-fold and 23-fold greater, respectively, in hepatocytes derived from 60% relative to 0% protein-fed rats. Using these data, a 23-fold increase in the translational efficiency of the mRNA was calculated. This increase, along with a 2-fold increase in the mRNA level, completely account for the 40-fold increase in the rate of ornithine aminotransferase synthesis observed in hepatocytes derived from 60% protein-fed rats. We conclude that ornithine aminotransferase synthesis is regulated at both a translational and a pretranslational level in rat liver.     

Estrogen induction of ornithine aminotransferase in rat kidney slices

Immunologic titration of kidney extracts from control and estradiol-injected rats with anti-ornithine aminotransferase serum shows that the hormone induces the enzyme by increasing its concentration in the kidney. The induction has been studied in vitro with kidney slices. Several-fold increase in the rate of ¹⁴C-leucine incorporation into the enzyme by hexestrol has been demonstrated. In addition, certain antiestrogens also induce the enzyme synthesis in vitro. These results show that the induction of this enzyme in the kidney does not require the participation of an estrogen metabolite from another tissue.     

Complete amino acid sequence of rat kidney ornithine aminotransferase: identity with liver ornithine aminotransferase

The complete amino acid sequence of rat kidney ornithine aminotransferase [EC 2.6.1.13] is presented. The 404-residue sequence was determined by analysis of peptides generated by digestion of the S-carboxyamidomethylated protein with CNBr, Achromobacter protease I, arginylendopeptidase, or Staphylococcus aureus V8 protease. Mueckler and Pitot have reported the amino acid sequence of the rat liver enzyme (440 residues) as predicted from the nucleotide sequence of the cDNA [Mueckler, M.M. & Pitot, H.C. (1985) J. Biol. Chem. 260, 12993-12997]. The amino acid sequence of the rat kidney enzyme presented herein coincides with residue 36 (Gly) through 440 (Phe) of the predicted precursor protein, indicating that the liver and kidney enzymes are identical, and that the enzyme is processed at the amino-terminal region after translation.     

Estrogen receptor translocation and ornithine aminotransferase induction by estradiol in rat kidney.

Injection of a hyperphysiological dose of 17β-estradiol to the rat elicits a translocation of the cytoplasmic estrogen receptor in the kidney. This is followed, a few hours later, by an increase in the rate of ornithine aminotransferase synthesis. This increase, in turn, causes the enzyme activity to rise also a few hours later.Growth of rat kidney tumor MK3 has delayed the induction of ornithine aminotransterase by 17β-estradiol in the host kidney. However, the enzyme is not inducible in several normal tissues where the activity is high and where concentrations of estrogen receptor greatly exceed that in rat kidney. These observations suggest certain possible mechanisms of the inductive process.     

The regulation of ornithine aminotransferase synthesis by glucagon in the rat.

Ornithine aminotransferase (OAT) from rat liver mitochondria was purified to homogeneity. A monospecific antiserum against the enzyme protein was prepared in rabbits. Immunotitrations were performed on OAT present in crude mitochondrial extracts obtained from the livers and kidneys of rats in several hormonal and dietary states. No evidence was found for the existence of an immunologically reactive but enzymatically inactive form of OAT. The relative rate of enzyme synthesis in vivo was studied by pulselabeling rats with [4, 5-³H]leucine, isolating the enzyme protein by immunoprecipitation, and dissociating the immunoprecipitates on sodium dodecyl sulfate-acrylamide gels. Nine hours after a single subcutaneous injection of a glucagon oil emulsion, a 3-fold increase in OAT activity and a 12-fold increase in the synthetic rate of the enzyme were observed. Serine dehydratase activity increased on a time-course very similar to that of OAT following glucagon injection. These increases occurred only on low (0–12.5%) protein diets. At higher levels of dietary protein (30% and up), no further stimulation of OAT synthesis by glucagon was observed. Administration of actinomycin D within the first 2 h after glucagon injection resulted in an inhibition of OAT induction. When the administration of the antibiotic was delayed until 4 h after glucagon, no inhibition of OAT induction was observed. Glucose repression of the glucagon induction of the enzyme in hepatic mitochondria was demonstrated to be the result of a rapid inhibition of OAT synthesis.     

Hormonal regulation of ornithine aminotransferase biosynthesis in rat liver and kidney.

The relative rates of ornithine aminotransferase (OAT) synthesis in vivo were studied by pulse-labeling rats with [4,5-³H]leucine, isolating the mitochondrial enzyme protein by immunoprecipitation with a monospecific antibody, dissociating the immunoprecipitates on sodium dodecyl sulfate-acrylamide gels, and determining the radioactivity in OAT. After 4 days of treatment with triiodothyronine (T₃), both the enzyme activity level and the relative synthetic rate of OAT in rat kidney were elevated over twofold. The level of hepatic OAT activity was unaffected by this treatment. Thyroidectomy caused a 50% drop in the basal level of OAT activity and synthesis in kidney but not in liver. Although the basal levels of activity and synthesis of both renal and hepatic OAT were unaffected by adrenalectomy, the glucagon induction of the enzyme in liver was enhanced by about one-third and the T₃ induction in kidney was suppressed 50% by this operation. After 4 days of treatment with estrogen, both the enzyme activity level and the relative synthetic rate of OAT in male rat kidney were elevated nearly 10-fold. Hepatic OAT activity and synthesis were unaffected by this regimen. Thyroidectomy almost completely abolished the estrogen induction of OAT in kidney. OAT induction by estrogen could be restored by treating thyroidectomized rats with T₃. Simultaneous administration of T₃ plus estrogen to intact rats produced a multiple effect, resulting in a striking 20-fold induction of renal OAT. Although administration of either T₃ or estrogen causes an increase in the synthesis of immunoprecipitable OAT protein in rat kidney, each of these hormones may induce OAT by a different mechanism.     

Stimulation of ornithine decarboxylase synthesis in the rat thyroid

High titer antiserum to hepatic ornithine decarboxylase was prepared by employing enzyme·monospecific antibody complex as the immunizing antigen. This new antiserum preparation was successfully labeled with ¹²⁵I and was found to retain its specific immune properties. Iodinated antiserum was used to precipitate thyroid ornithine decarboxylase induced by a mixture of thyroid stimulating hormone and methyl xanthine in rat thyroids $\text{in vitro}$. ¹²⁵I-labeled antibody incorporation into the enzyme antibody complex after induction $\text{in vitro}$ showed an increase which paralleled the increase in enzymatic activity and thus suggested $\text{de novo}$ synthesis of thyroid enzyme protein.     

Maturation of growth hormone stimulation of kidney ornithine decarboxylase in the rat

The effect of ovine growth hormone (GH) on kidney ornithine decarboxylase (ODC) was studied in newborn, preweanling and young adult rats. Basal kidney ODC activity was very low from 4 to 22 days after birth but rose 20-fold by day 25; it remained elevated through day 45. GH failed to stimulate ODC in the first two weeks after birth. GH did however stimulate ODC markedly from 20 through 45 days. Kidney ODC was stimulated in the neonate by vasopressin and by isoproterenol, but not angiotensin II. Liver ODC remained relatively low and stable during development, and was responsive to GH at all ages studied. We conclude that a) the pattern of development of basal kidney ODC appears to be unique to this tissue and may be related to the postnatal maturation of renal morphology and/or function, b) neonatal kidney ODC is unresponsive to certain hormones but is not completely refractory to stimulation. These findings may have implications for the role of hormones in the maturation of the kidney and in the regulation of early renal function.     

Molecular cloning and nucleotide sequence analysis of mRNA for human kidney ornithine aminotransferase. An examination of ornithine aminotransferase isozymes between liver and kidney

The cDNA encoding ornithine aminotransferase (EC 2.6.1.13; OAT) was isolated from a human kidney cDNA library. The isolated cDNA contained the entire protein coding region and partial 3'- and 5'-untranslated regions. The nucleotide sequences of human kidney OAT cDNA were absolutely homologous with those of human liver OAT cDNA, and human kidney and liver OAT fused completely against the antibody to human kidney OAT in an Ouchterlony double diffusion test. These findings settled the controversy as to which characteristics of liver and kidney OAT isozymes are different. An N-terminal sequence analysis of purified mature human kidney OAT clarified that the leader peptide was cleaved between Gln-35 and Gly-36.     

Stimulation of tubulin synthesis by thyroid hormone in the developing rat brain

The effect of triiodothyronine on the biogenesis of tubulin has been studied in the developing rat brain. In organ cultures of brains from newborn rats, the hormone stimulates the incorporation of [14C]leucine into tubulin by 60-80% within 2 h in the absence of any significant change in total protein synthesis. This stimulation is strictly age-dependent (only brains from late fetal or newborn rats are sensitive), dose-dependent (stimulation increases progressively and reaches a maximum level with physiological dose of the hormone) and displays tissue specificity. The temporal correspondence of the sensitivity of the rat brain to triiodothyronine with the period of normal rise in the level of tubulin and that of the maximal level of nuclear triiodothyronine receptors in the brain strongly suggests the involvement of the hormone in regulating the biogenesis of tubulin during the differentiation and maturation of neonatal rat brain.     

Purification of ornithine aminotransferase by immunoadsorption

Ornithine aminotransferase was purified by conventional biochemical methods from rat kidney, rat liver, and human liver. Affinity-purified antibodies raised to the rat kidney enzyme were used to produce an immunoadsorbent enabling a one-step purification of ornithine aminotransferase to be made from crude human liver extracts. The harsh chemical conditions often required to desorb immunoadsorbents were avoided by isolating antibodies with low functional affinity and employing an electrophoretic desorption method which allowed the enzyme activity to be retained. The close structural similarity between human and rat ornithine aminotransferase was demonstrated by immunodiffusion reactions. It was therefore possible to purify the enzyme from human liver using immobilized antibodies raised against rat kidney ornithine aminotransferase. Furthermore, desorption was more readily achieved due to the lower affinity for the human enzyme.     

Comparison of rat and mouse ornithine aminotransferase with respect to molecular properties and regulation of synthesis

A comparative study of the synthesis patterns and molecular properties of mouse and rat ornithine aminotransferase (OAT) was conducted. The two enzymes were found to be very similar with respect to catalytic properties, two-dimensional electrophoresis patterns of tryptic digests, amino acid compositions, and antibody cross-reactivity. In vitro translation assays for OAT synthesis on free polysomes isolated from livers at different times of day showed similar circadian fluctuations in OAT synthesis for both species. However, hybridization measurements revealed no circadian changes in the levels of hybridizable OAT mRNA in these livers. These results demonstrate that the circadian cycling of OAT synthesis is regulated at the level of translation in both the rat and the mouse.