Regulation of aspartate aminotransferase messenger ribonucleic acid level by testosterone

The effect of testosterone on precursor mitochondrial aspartate aminotransferase (pmAAT) mRNA was studied in rat ventral prostate and primary cell cultures of mini-pig prostate. Testosterone induced a 2-3-fold increase in pmAAT mRNA level in both rat ventral prostate and mini-pig prostate cultures. The pmAAT mRNA induction occurred 30 min after testosterone treatment and was maximal by 1.5 h. Prostatic mAAT activity was also induced by testosterone with a 1-2 h lag period. The time-course of induction of pmAAT mRNA, pmAAT activity and mAAT activity was consistent with stimulation of mRNA synthesis followed by increased synthesis and import of pmAAT into mitochondria. The effect of testosterone on pmAAT mRNA was specific because the increase in pmAAT mRNA was at least 2-fold greater than the increase in poly (A+) RNA. These results suggest that testosterone stimulated mAAT activity by induction of pmAAT mRNA. This continues to support our proposal that a major physiological effect of testosterone is increased pmAAT mRNA steady-state levels which result in increased pmAAT synthesis and increased mAAT activity. These changes ultimately result in increased citrate production by prostate epithelial cells.     

Testosterone stimulation of mitochondrial aspartate aminotransferase levels and biosynthesis in rat ventral prostate

The effects of testosterone on mitochondrial aspartate aminotransferase (mAAT) synthesis in rat ventral prostate was investigated. Procedures for the isolation, purification and characterization of AAT isozymes were developed and described. Purified mAAT preparations contained no demonstrable contaminating proteins. Prostatic mAAT was characterized as a cationic protein with an estimated mol. wt of 120,000. Cytoplasmic AAT (cAAT) isozyme was identified as an anionic protein with an estimated mol. wt of 132,000. A cytosolic cationic isozyme, similar to mAAT, was also identified as pre-mAAT. Testosterone administration to castrated rats resulted in significant increases in leucine incorporation into mAAT, in the level of mAAT, and in mAAT activity. These effects of testosterone were observed within 2 h of administration. Conversely, testosterone administration had none of these effects on cAAT or on non-AAT protein pool. Testosterone treatment did appear to increase leucine incorporation into pre-mAAT. Testosterone treatment in organ cultures and in prostate epithelial cell cultures resulted in the same stimulatory effects on mAAT as observed in the in vivo studies. The hormone was effective at the physiological concentration of 2 X 10(-9) M. These results indicated that testosterone has a rapid and specific effect on the biosynthesis of mAAT. This continues to support our proposal that testosterone regulates prostate citrate production via a stimulatory effect on mAAT which results in increased mitochondrial synthesis of citrate from aspartate.     

The androgenic regulation of prostate proteins with a high affinity for deoxyribonucleic acid. Evidence for a prostate deoxyribonucleic acid-unwinding protein.

1. When testosterone is injected into castrated rats in vivo, a significant increase in the incorporation of [35S]methionine into prostate proteins may be detected under conditions in vitro. 2. Studies based on DNA-cellulose chromatography show that the synthesis of prostate proteins with a high affinity for DNA is particularly enhanced by androgenic stimulation. 3. These changes in protein synthesis are negated when the anti-androgen, cyproterone acetate, is administered concomitantly with testosterone in vivo. 4. Two assays were developed for measuring the strand separation of prostate DNA; first, the retention of 3H-labelled native DNA on nitrocellulose membranes, and second, the activation of native DNA as a template for 9S prostate DNA polymerase. On the basis of these criteria, DNA-unwinding activity is present in the prostate gland and it is regulated by androgens in a steroid-and tissue-specific manner. 5. The results are discussed in the context of the mechanism of action of androgens, particularly since the changes provoked in DNA-unwinding activity by androgens precede the onset of DNA replication and mitosis.     

The effect of testosterone on citrate synthesis and citrate oxidation and a proposed mechanism for regulation of net citrate production in prostate

Citrate oxidation by rat ventral prostate was reduced by castration and increased by testosterone administration. Similarly, the mitochondrial aconitase activity was decreased by castration; whereas cytosol aconitase was unaffected. The rate of citrate oxidation is extremely low in prostate. Castration also decreased mitochondrial aspartate aminotransferase activity while having no effect on the cytosol isoenzyme. Testosterone markedly stimulated the net production of citrate from aspartate plus glutamate by prostate mitochondria. These studies support the proposal that aspartate is a major source of oxalacetate for citrate production, and that a "glutamate-aspartate-citrate" pathway may be functional in prostate mitochondria. In addition, testosterone can regulate citrate production by a specific effect on mitochondrial aspartate aminotransferase activity. Testosterone also regulates the flux of citrate through the Krebs cycle, but this represents only a small proportion of the citrate accumulated. These conditions would be consistent with the function of prostate epithelium in accumulating and secreting citrate.     

The influence of aging on androgen dynamics in the male rat

Androgen assimilation was investigated in a variety of accessory sex organs (seminal vesicles and anterior, dorsal, lateral, and ventral prostates) and in several nonaccessory sex organs in male Wistar rats. After administration of a pulse dose of [³H]testosterone in vivo to intact young (3–4 months old) rats, [³H]testosterone was the primary radioactive steroid recovered from most organs examined, except for the secondary sex glands where the reduced metabolites, [³H]5α-dihydrotestosterone (DHT) and [³H]5α-androstanediol(s), predominated. At longer postinjection times, [³H]DHT was preferentially retained in the accessory sex glands, presumably reflecting intracellular metabolism of [³H]testosterone to this compound and subsequent specific binding of [³H]DHT to receptor proteins. At the longest postinjection interval investigated, the ventral prostate retained greater concentrations of [³H]DHT than the lateral prostate which in turn had a higher [³H]DHT concentration than the seminal vesicles or anterior or dorsal prostates. The latter three glands retained approximately equal concentrations of [³H]DHT. Scatchard plot analyses of cytosol binding in 24-h castrates indicated that with one exception, the level of high affinity DHT binding sites was generally correlated with the retention of [³H]DHT in vivo in intact rats. Specifically, while the affinity for DHT binding in all accessory sex organs was the same, the number of high affinity binding sites per mg wet tissue weight was on the order of ventral prostate > anterior prostate ≥ seminal vesicles ≥ dorsal prostate > lateral prostate. Studies of the influence of aging to 22–26 months revealed no apparent differences in the affinity of the DHT receptor for its ligand in any of the accessory sex glands from 24-h castrates when the receptors were present in levels sufficiently high to quantify. The concentration of available DHT receptors with advancing age remained constant in the anterior and dorsal prostates, increased in the seminal vesicles, and declined in the ventral and lateral prostates. The decreases observed in the ventral prostate were only partial, but the receptors of the lateral prostate declined to nondetectable levels.     

Mitochondrial RNA and protein synthesis in enucleated African green monkey cells

The behavior of extramitochondrial protein synthesis and of mitochondrial RNA and protein synthesis was examined in the cytoplasts of African green monkey kidney cells (TC-7 subline) at different times following enucleation by cytochalasin B. The rate of incorporation of [³H]isoleucine into protein of the soluble cytoplasmic fraction decreased in an approximately exponential fashion, with a half-life of about five hours, during the first 26 hours after enucleation. Discrete mitochondrial 16 S, 12 S and 4 S RNA components were identified among the products of cytoplast RNA synthesis. The rates of [³H]uridine incorporation into the 16 and 12 S RNA components as well as into total RNA declined progressively after enucleation to a barely detectable level by the 20th hour. By contrast, the rate of chloramphenicol-sensitive [³H]isoleucine incorporation into protein (due to mitochondrial protein synthesis) did not undergo a substantial decline for at least 20 hours in TC-7 cytoplasts; instead, a reproducible transient stimulation occurred in the first hours following enucleation. The products of mitochondrial protein synthesis pulse-labeled in nucleated cells and in cytoplasts 24 hours after enucleation exhibited similar electrophoretic profiles.     

Secreted proteins from rat Sertoli cells.

Sertoli cell cultures were prepared from the testes of 20-day-old rats. The proteins which were secreted by the cells into the culture medium were labeled with [³H]leucine or l-[³H]fucose. The proteins were concentrated by ultrafiltration and analysed by polyacrylamide slab gel electrophoresis (PAGE) in the presence of sodium dodecyl sulfate (SDS). Autofluorography of the gels at ?70 °C showed that the rat Sertoli cells synthesized and secreted at least 7 major polypeptides. The polypeptides had molecular weights ranging from 16 000 to 140 000 D. Proteins which were secreted from cultures of testicular fibroblasts and myoid cells had electrophoretic properties on SDS-PAGE which were different from Sertoli cell secreted proteins. Addition of FSH and testosterone to the Sertoli cell cultures increased the total synthesis and secretion of [³H]leucine-labeled proteins. No qualitative changes in the proteins as a result of hormone application could be detected. However, the synthesis of a polypeptide of molecular weight 48 000 was increased relative to the other secreted peptides if the cells were maintained in FSH and testosterone. The Sertoli cell secreted proteins were shown to be glycoproteins which can bind to ConA-Sepharose and can be labeled with [³H]fucose. Tunicamycin, a specific inhibitor of N-glycosylation, inhibited the secretion of [³H]proteins by 50% but had little effect on the intracellular protein synthesis.     

Epithelial Na,K-ATPase expression is down-regulated in canine prostate cancer; a possible consequence of metabolic transformation in the process of prostate malignancy

Background  

An important physiological function of the normal prostate gland is the synthesis and secretion of a citrate rich prostatic fluid. In prostate cancer, citrate production levels are reduced as a result of altered cellular metabolism and bioenergetics. Na, K-ATPase is essential for citrate production since the inward Na⁺ gradients it generates are utilized for the Na⁺ dependent uptake of aspartate, a major substrate for citrate synthesis. The objective of this study was to compare the expression of previously identified Na, K-ATPase isoforms in normal canine prostate, benign prostatic hyperplasia (BPH) and prostatic adenocarcinoma (PCa) using immunohistochemistry in order to determine whether reduced citrate levels in PCa are also accompanied by changes in Na, K-ATPase expression.     

Transport of proteins, glycoproteins and cholinergic enzymes in regenerating hypoglossal neurons

The accumulation of [³H]leucine- and [³H]fucose-labelled axonal proteins, acetyl-CoA : choline O-acetyltransferase (ChAc, EC 2.3.1.6) and acetylcholinesterase (AChE, EC 3.1.1.7) was studied proximal to a ligature applied to the hypoglossal nerve of the rabbit at different phases of nerve regeneration. After 1 week of regeneration, the accumulation of rapidly migrating [³H]leucine-labelled proteins, ChAc and AChE was reduced as compared to that of the contralateral nerve. In contrast, the accumulation of [³H]fucose-labelled glycoproteins was markedly increased. After a regeneration period of 4-6 weeks, the accumulation of proteins and glycoproteins in the regenerating nerve was increased whereas the accumulation of ChAc and AChE was almost normal. The results indicate an initial depression of the synthesis and axonal transport of the bulk of rapidly migrating proteins, ChAc and AChE in the chromatolytic hypoglossal neurons whereas the synthesis and transport of rapidly migrating glycoproteins is increased. These initial changes are less pronounced during the subsequent regeneration period.     

Labelling of oviduct nuclear and nucleolar proteins during estrogen induced differentiation

Summary The effect of secondary stimulation with estrogen on synthesis of nuclear and nucleolar proteins is studied in chick oviduct.Isolated nuclei and nucleoli have a protein/DNA ratio of 5.2 and 5.6, respectively. 35% of nuclear and nucleolar protein is recovered in the histone fraction after hydroxylapatite chromatography. Gel electrophoretic separations of nuclear and nucleolar nonhistones are largely similar as to visible bands and distribution of radioactivity. Nucleoli bind 1.4 times more [³H] estradiol as compared to whole nuclei.Nucleolar histones are labelled slightly more actively with [³H] leucine than nuclear histones; nucleolar nonhistones are labelled about 3 times more actively than nuclear nonhistones. An 18 hour secondary stimulation with estrogen increases the radioactivity of histones by 6-fold and that of nonhistones by 2.5-fold in whole nuclei as well as in nucleoli. Stimulation appears to increase preferentially radioactivity of nonhistones at 50 000 daltons. As this change is observed in whole nuclei and nucleoli and is not reduced with hydroxyurea, it is suggested that this may be related to a gross structural reorganisation of chromatin induced by the hormone.     

Stimulation by abscisic acid of RNA synthesis in discs from healthy and tobacco mosaic virus-infected tobacco leaves

Uptake of abscisic acid from the culture medium by discs of healthy and tobacco mosaic virus-infected tobacco leaves was measured. Small (two to five-fold) increases in abscisic acid concentration in discs caused increases in rates of [³H]uridine and [³H]adenine incorporation into total nucleic acid, virus RNA and host ribosomal RNA. Net accumulation of virus RNA was also enhanced by abscisic acid. This evidence for stimulation of RNA synthesis is compared with previous reports showing inhibition of RNA synthesis in other tissues. It is suggested that the increase in endogenous abscisic acid caused by tobacco mosaic virus infection may be at least partly responsible for observed increases in rates of RNA synthesis after infection.Abbreviations ABA abscisic acid - TMV tobacco mosaic virus     

Effects of cycloheximide,d-threo-chloramphenicol,erythromycin and actinomycin D on De-novo synthesis of cytoplasmic and mitochondrial proteins in the cotyledons of germinating pea seeds

Summary Inhibitors of, and radioactive substrates for, protein synthesis were introduced into germinating pea (Pisum sativum L.) seeds, and protein synthesis was allowed to proceed in vivo. Subsequent analyses of subcellular fractions showed the following: Cycloheximide strongly inhibited the incorporation of [¹⁴C]leucine into both mitochondrial and cytoplasmic proteins. d-Threo-chloramphenicol and erythromycin did not affect cytoplasmic protein synthesis, but partially inhibited mitochondrial protein synthesis. These results suggest that most of the new mitochondrial proteins were originally synthesized in the cytoplasm. Actinomycin D did not appreciably affect the initial incorporation of [¹⁴C]leucine into either mitochondrial or cytoplasmic proteins, suggesting that information (mRNA) concerning the initially synthesized proteins may be present in the quiescent seeds. The lack of appreciable incorporation of [³H]thymidine into mitochondrial DNA supported our previons report that mitochondria may not be synthesized de novo in pea cotyledons.     

Effect of divalent cations of the amphetamine-induced stimulation of [3H]catechol synthesis in the striatum.

Abstract— The effects of divalent cations on the stimulation of [³H]catechol formation in striatal slices induced by d-amphetamine was studied in order to determine the role of calcium in this action of amphetamine. In the absence of any divalent cations in the medium, amphetamine did not significantly stimulate [³H]catechol synthesis in striatal slices, but it produced a marked stimulation of synthesis when calcium (1.25 mm ) was added to the medium. In the presence of calcium (1.25 mm ), high concentrations of magnesium (15mm ), other divalent cations (2.5 mm ) such as barium, strontium, manganese and cobalt, as well as verapamil, inhibited the amphetamine-induced stimulation. When the slices were incubated in medium containing no divalent cations, the addition to the medium of either strontium, cobalt, zinc, or magnesium (2.5 mm ) could not support the amphetamine-induced stimulation of [³H]catechol synthesis, while the addition of barium resulted in a significant stimulation of synthesis. In contrast, the stimulation produced by amphetamine in the presence of manganese was comparable to that observed when calcium had been added to the medium. Since amphetamine did not alter the specific activity of [³H]tyrosine in the tissue in the presence of any of the divalent cations tested, the amphetamine-induced stimulation of [³H]catechol synthesis was probably due to an increase in tyrosine hydroxylase activity. Calcium and manganese were also able to support the stimulation of [³H]catechol synthesis in striatal slices induced by high potassium concentration. However, compared to the effects with amphetamine, manganese was much less effective than calcium in supporting the stimulation induced by high potassium concentration. These results show that specific divalent cations can support the stimulation of catechol synthesis induced by amphetamine in striatal slices, and suggest that the entry of these specific ions into cells, presumably dopamine neurons, is involved in this action.     

Increase in manganese superoxide dismutase activity in the mouse heart after X-irradiation

Local X-irradiation of mouse heart caused a large increase in manganese superoxide dismutase activity (MnSOD) in this organ but not in copper and zinc containing superoxide dismutase (CuZn SOD) activity. MnSOD induction was both dose and time dependent. Another mitochondrial enzyme, citrate synthase, was not induced by X-irradiation. The amount of immunoreactive MnSOD also increased after X-irradiation, showing that the amount of MnSOD protein increased after X-irradiation. The response to X-irradiation was found to be biphasic—with one large peak and one smaller peak of manganese superoxide dismutase activity. The effect of various inhibitors of cellular activities on these two peaks of MnSOD activity was examined. Cycloheximide, a cytosolic protein synthesis inhibitor, abolished both peaks of MnSOD activity, while chloramphenicol, a mitochondrial protein synthesis inhibitor, has no effect on either peak. Actinomycin D, a RNA-synthesis inhibitor, lowered both peaks, but had more of an effect on the second peak than on the first. In vivo protein synthesis studies using [³H]arginine showed that an increase in new protein synthesis occurred during the time period of the second peak, but did not occur during the first peak. These results are consistent with the hypothesis that MnSOD induction occurs in two peaks with the first peak due to a preformed MnSOD protein or mRNA for MnSOD and the second peak due to an increase in new protein synthesis.     

The effect of cyclic AMP on glycoprotein secretion in isolated rat hepatocytes

The effects of dibutyryl cyclic AMP on glycoprotein biosynthesis, intracellular mobilization, and secretion in isolated rat hepatocytes are described. Dibutyryl cyclic AMP (2.5 mm) initially suppresses [³H]glucosamine or [³H]fucose incorporation into cellular macromolecular material; however, after $\text{3}\text{1}\text{2}$ h, the incorporation of these radiolabeled carbohydrates into macromolecular material was stimulated relative to control cells. The stimulation in accumulation of cellular glycoprotein occurred in membrane-associated fractions, with most of this accumulation occurring in the Golgi elements. The glycoprotein produced in the presence of dibutyryl cyclic AMP was quantitatively precipitated by antibodies directed against rat serum, suggesting that the accumulated cellular material is normally destined for secretion from the cell. Dibutyryl cyclic AMP also produced a drastic inhibition of glycoprotein secretion which persisted during the cellular accumulation of glycosylated material. Exposure of the hepatocytes to colchicine (10 μm) produced a similar increase in accumulation of [³H]glucosamine-containing immunoprecipitable material in the cellular fraction and a similar inhibition in secretion. The initial dibutyryl cyclic AMP-mediated suppression of synthesis of intracellular glycosylated material occurred entirely in non-membrane-associated intracellular fractions. Also, the initial accumulation of [³H]glucosamine-containing immunoprecipitable material was not suppressed during the first $\text{3}\text{1}\text{2}$ h after exposure to dibutyryl cyclic AMP, suggesting the initial suppression represents a metabolic process unrelated to secretion. The incorporation of [³H]leucine into macromolecular material was inhibited in both cellular and secreted fractions after exposure to dibutyryl cyclic AMP; however, the accumulation into the extracellular environment was inhibited to a greater extent. The patterns of [³H]glucosamine-containing lipid biosynthesis were unaffected by dibutyryl cyclic AMP.     

Developmental Control of Apiogalacturonan Biosynthesis and UDP-Apiose Production in a Duckweed

Vegetative fronds of Spirodela polyrrhiza were induced to form dormant turions by the addition of 1 micromolar abscisic acid or by shading. The cell wall polymers of fronds contained a high proportion of the branched-chain pentose, d-apiose (about 20% of total noncellulosic wall sugar residues), whereas turion cell walls contained only trace amounts (about 0.2%). When the fronds were fed d-[³H]glucuronic acid for 30 minutes, the accumulated UDP-[³H]apiose pool accounted for about 27% of the total phosphorylated [³H]pentose derivatives; in turions, the UDP-[³H]apiose pool accounted for only about 4% of the total phosphorylated [³H]pentose derivatives. We conclude that the developmentally regulated decrease in the biosynthesis of a wall polysaccharide during turion formation involves a reduction in the supply of the relevant sugar nucleotide. One controlling enzyme activity is suggested to be UDP-apiose/UDP-xylose synthase. However, since there was a 100-fold decrease in the rate of polysaccharide synthesis and only a 9-fold decrease in UDP-apiose accumulation, there is probably also control of the activity of the relevant polysaccharide synthase.     

Contribution of aromatase to the deoxyribonucleic acid synthesis of MCF-7 human breast cancer cells and its suppression by aromatase inhibitors.

We have studied the effects of various steroids on DNA synthesis in MCF-7 human breast carcinoma cells, which have aromatase activity and which exert an oestrogen receptor-mediated growth, to assess the significance of intracellular aromatase on growth stimulation as well as inhibition by aromatase inhibitors. The cells were cultured for 96 h in phenol red-free medium containing 10% charcoal-treated fetal bovine serum and test reagents and pulse-labelled with [3H]thymidine. Physiological concentrations of oestradiol, oestrone, testosterone (T) and androstenedione (AD) stimulated thymidine incorporation. However, oestrone-sulphate and dihydrotestosterone (DHT) only stimulated at concentrations greater than the physiological levels. T and DHT stimulation was blocked by tamoxifen, but not by cyproterone acetate, suggesting that the stimulation was mediated via the oestrogen receptor but not by the androgen receptor. Stimulation by T and AD was reduced by aminoglutethimide and 14 alpha-hydroxy-4-androstene-3,6,17-trione, both of which inhibit aromatase activity, however, stimulation by nonaromatizable DHT was not reduced by the inhibitors, suggesting that androgens were converted by the intracellular aromatase to oestrogens which stimulated the thymidine incorporation. It is suggested that intracellular aromatase significantly contributes to the stimulation of DNA synthesis and that aromatase inhibitors suppress the stimulation.     

PRODUCTION OF MEMBRANE WHORLS IN RAT LIVER BY SOME INHIBITORS OF PROTEIN SYNTHESIS

Inhibitors of protein synthesis capable of differential effects on nascent peptide synthesis on membrane-bound and free polyribosomes were employed to investigate the structure and function of cellular membranes of liver. The formation of membranous whorls in the cytoplasm and distension of nuclear membranes were induced by inhibitors of protein synthesis (i.e., cycloheximide and emetine) which predominantly interfere with nascent peptide synthesis on membrane-bound polyribosomes in situ. Other inhibitors of protein synthesis such as puromycin and fusidic acid, which inhibit nascent peptide synthesis on both free and membrane-bound polyribosomes, and chloramphenicol, which inhibits mitochondrial protein synthesis, did not induce these alterations. Cycloheximide, puromycin, and chloramphenicol produce some common cellular lesions as reflected by similar alterations in morphology, such as swelling of mitochondria, degranulation of rough endoplasmic reticulum, and aggregation of free ribosomes. The process of whorl formation in the cytoplasm, the incorporation of [³H]leucine and of [³H]choline into endoplasmic reticulum and the total NADPH-cytochrome c reductase activity of the endoplasmic reticulum were determined. During maximum formation of membranous whorls, [³H]leucine incorporation into cytoplasmic membranes was inhibited, while [³H]choline incorporation into these structures was increased; maximum inhibition of protein synthesis and stimulation of choline incorporation into endoplasmic reticulum, however, preceded whorl formation. Cycloheximide decreased the activity of NADPH-cytochrome c reductase of rough endoplasmic reticulum, but increased NADPH-cytochrome c reductase activity of smooth endoplasmic reticulum. In addition, cycloheximide decreased the content of hemoprotein in both the microsomal and mitochondrial fractions of rat liver, and the activities of mixed function oxidase and of oxidative phosphorylation were impaired to different degrees. Succinate-stimulated microsomal oxidation was also inhibited. The possible mechanisms involved in the formation of membranous whorls, as well as their functions, are discussed.     

The relationship between DNA synthesis and the synthesis of nuclear proteins in rat brain during development

—The incorporation of [³H]thymidine into nuclear DNA of rat brain progressively increased from birth until the 8th postnatal day and it was lowest in the adult brain. When isolated nuclei from brain cells were separated into a neuronal- and a glial-rich fraction (composed of glial and neuroblast nuclei in young animals), the specific radioactivity of the DNA was higher in the glial-rich fraction at all ages investigated. The incorporation of [³H]leucine into proteins of rat brain was considerably higher in the 8-than in the 1-day-old rat. The greatest difference in the rate of protein synthesis between 8- and 1-day-old brain occurred in the nuclear proteins, especially those associated with DNA. There was an accumulation of protein and RNA in nuclei from brain cells from birth to the 8th postnatal day. The increased content of proteins occurred primarily in the fraction soluble in buffered saline (nuclear sap).