Incorporation of L-tyrosine, L-phenylalanine and L-3,4-dihydroxyphenylalanine as single units into rat brain tubulin.

The product of the incorporation of [14C]tyrosine as single unit into a protein of the soluble fraction of rat brain homogenate was purified by following a procedure used to purify tubulin. Sodium dodecylsulphate-polyacrylamide gel electrophoresis of the purified material showed a single protein band containing all the radioactivity. Purification data indicate that this protein accounts for 10.2% of the total protein of the supernatant fraction. This is in good agreement with the amount found for tubulin by the [3H]colchicine-binding method (10.5% of the total protein). The incorporated [14C]-tyrosine was found in the alpha-subunit of tubulin. Protein labelled with [3H]colchicine and [14C]tyrosine was precipatated with vinblastine sulphate and the radioactivity of 3H and that of 14C were quantitatively recovered in the precipitate (98%). Sodium dodecylsulphate-polyacrylamide gel electrophoresis of the vinblastine precipitate showed that the 14C radioactivity moved with the tubulin band. Results obtained in experiments with phenylalanine and 3,4-dihydroxyphenylalanine were identical to those obtained for tyrosine. Bineing of colchicine did not interfere with the incorporation of tyrosine. About 30% of tubulin from rat brain supernatant fraction can incorporate tyrosine as single unit.     

Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic systems.

Leucine incorporation was examined as a method for estimating rates of protein synthesis by bacterial assemblages in natural aquatic systems. The proportion of the total bacterial population that took up leucine in three marine environments was high (greater than 50%). Most of the leucine (greater than 90%) taken up was incorporated into protein, and little (less than 20%) was degraded to other amino acids, except in two oligotrophic marine environments. In samples from these two environments, ca. 50% of the leucine incorporated had been degraded to other amino acids, which were subsequently incorporated into protein. The degree of leucine degradation appears to depend on the organic carbon supply, as the proportion of 3H-radioactivity incorporated into protein that was recovered as [3H]leucine after acid hydrolysis increased with the addition of pyruvate to oligotrophic water samples. The addition of extracellular leucine inhibited total incorporation of [14C]pyruvate (a precursor for leucine biosynthesis) into protein. Furthermore, the proportion of [14C]pyruvate incorporation into protein that was recovered as [14C]leucine decreased with the addition of extracellular leucine. These results show that the addition of extracellular leucine inhibits leucine biosynthesis by marine bacterial assemblages. The molar fraction of leucine in a wide variety of proteins is constant, indicating that changes in leucine incorporation rates reflect changes in rates of protein synthesis rather than changes in the leucine content of proteins. The results demonstrate that the incorporation rate of [3H]leucine into a hot trichloroacetic acid-insoluble cell fraction can serve as an index of protein synthesis by bacterial assemblages in aquatic systems.     

Insulin stimulates synthesis of soluble proteins in isolated rat hepatocytes.

The incorporation of [3H]leucine into soluble cellular protein was measured in isolated hepatocytes at extracellular leucine concentrations ranging from 0.15 to 20.0 mM. Insulin caused a 12--15% stimulation of [3H]leucine incorporation in the presence of high extracellular leucine concentrations. It is concluded that insulin causes a small but significant increase in the rate of hepatic protein synthesis.     

Leucine incorporation and its potential as a measure of protein synthesis by bacteria in natural aquatic systems

Leucine incorporation was examined as a method for estimating rates of protein synthesis by bacterial assemblages in natural aquatic systems. The proportion of the total bacterial population that took up leucine in three marine environments was high (greater than 50%). Most of the leucine (greater than 90%) taken up was incorporated into protein, and little (less than 20%) was degraded to other amino acids, except in two oligotrophic marine environments. In samples from these two environments, ca. 50% of the leucine incorporated had been degraded to other amino acids, which were subsequently incorporated into protein. The degree of leucine degradation appears to depend on the organic carbon supply, as the proportion of 3H-radioactivity incorporated into protein that was recovered as [3H]leucine after acid hydrolysis increased with the addition of pyruvate to oligotrophic water samples. The addition of extracellular leucine inhibited total incorporation of [14C]pyruvate (a precursor for leucine biosynthesis) into protein. Furthermore, the proportion of [14C]pyruvate incorporation into protein that was recovered as [14C]leucine decreased with the addition of extracellular leucine. These results show that the addition of extracellular leucine inhibits leucine biosynthesis by marine bacterial assemblages. The molar fraction of leucine in a wide variety of proteins is constant, indicating that changes in leucine incorporation rates reflect changes in rates of protein synthesis rather than changes in the leucine content of proteins. The results demonstrate that the incorporation rate of [3H]leucine into a hot trichloroacetic acid-insoluble cell fraction can serve as an index of protein synthesis by bacterial assemblages in aquatic systems.     

Effects of electroconvulsive shock and cycloheximide on the incorporation of amino acids into proteins of mouse brain subcellular fractions.

—The incorporation of [4,5-³H]lysine and [1-¹⁴C]leucine into the proteins of subcellular fractions of mouse brain was examined following a single electroconvulsive shock (ECS) or following cycloheximide injections. When the [³H]lysine was injected intraperitoneally immediately after the ECS the incorporation into total brain proteins was decreased by more than 50% as compared to sham controls. The proportion of lysine incorporated into the microsomal fraction was increased, but no changes were observed in the other subcellular fractions including the synaptosomal fraction. With extended pulses administered at various times after the ECS there was no change in total incorporation nor were selective effects seen in any subcellular fractions. With intracranial injections of both [³H]lysine and [¹⁴C]leucine the decreased incorporation caused by ECS was not observed, neither were there selective changes in any subcellular fraction. This lack of inhibition occurred because the intracranial injection itself severely inhibited [³H]lysine incorporation. Cycloheximide (30 mg/kg) which depressed [³H]lysine incorporation into brain proteins by 84% caused a selective depression of the incorporation into the cell-sap fraction and selective elevations into the microsomal and synaptosomal fractions. Similar changes were seen with a higher (amnestic) dose of cycloheximide (150 mg/kg) which inhibited incorporation by 94%. These data are interpreted in terms of the diverse mechanisms by which ECS and cycloheximide inhibit protein synthesis.     

Effects of oleic acid on the biosynthesis of lipoprotein apoproteins and distribution into the very-low-density lipoprotein by the isolated perfused rat liver.

The effects of oleic acid on the biosynthesis and secretion of VLDL (very-low-density-lipoprotein) apoproteins and lipids were investigated in isolated perfused rat liver. Protein synthesis was measured by the incorporation of L-[4,5-3H]leucine into the VLDL apoproteins (d less than 1.006) and into apolipoproteins of the whole perfusate (d less than 1.21). Oleate did not affect incorporation of [3H]leucine into total-perfusate or hepatic protein. The infusion of oleate, however, increased the mass and radioactivity of the VLDL apoprotein in proportion to the concentration of oleate infused. Uptake of oleate was similar with livers from fed or fasted animals. Fasting itself (24 h) decreased the net secretion and incorporation of [3H]leucine into total VLDL apoprotein and decreased the output of VLDL protein by the liver. A linear relationship existed between the output of VLDL triacylglycerol (mumol/h per g of liver) and secretion and/or synthesis of VLDL protein. Net output of VLDL cholesterol and phospholipid also increased linearly with VLDL-triacylglycerol output. Oleate stimulated incorporation of [3H]leucine into VLDL apo (apolipoprotein) E and apo C by livers from fed animals, and into VLDL apo Bh, B1, E and C by livers from fasted rats. The incorporation of [3H]leucine into individual apolipoproteins of the total perfusate lipoprotein (d less than 1.210 ultracentrifugal fraction) was not changed significantly by oleate during perfusion of livers from fed rats, suggesting that the synthesis de novo of each apolipoprotein was not stimulated by oleate. This is in contrast with that observed with livers from fasted rats, in which the synthesis of the total-perfusate lipoprotein (d less than 1.210 fraction) apo B, E and C was apparently stimulated by oleate. The observations with livers from fed rats suggest redistribution of radioactive apolipoproteins to the VLDL during or after the process of secretion, rather than an increase of apoprotein synthesis de novo. It appears, however, that the biosynthesis of apo B1, Bh, E and C was stimulated by oleic acid in livers from fasted rats. Since the incorporations of [3H]leucine into the VLDL and total-perfusate apolipoproteins were increased in fasted-rat liver when the fatty acid was infused, part of the apparent stimulated synthesis of the VLDL apoprotein may be in response to the increased formation and secretion of VLDL lipid.     

Inhibition of T-lymphocyte activation by amiloride

The T-lymphocyte activation process involves a series of coordinately coupled biochemical events occurring in response to antigen or mitogen. These events have not been completely characterized. The present studies investigate the mechanism of protein synthesis during the initial phase of T-cell activation. Among the early biochemical changes, induction of protein synthesis was observed as early as 10 minutes after mitogen stimulation of T-lymphocytes. This early protein synthesis was inhibited by cycloheximide but was insensitive to actinomycin-D, indicating the presence of preformed mRNA in resting lymphocytes. Since early protein synthesis parallels the increase in protein kinase C activity in activated T-lymphocytes, these two biochemical events may be related. In the present report, amiloride, an inhibitor of Na+/H+ antiport and protein kinase C, significantly inhibited [3H]leucine and [3H]thymidine incorporation in a dose-dependent manner into phytohemagglutinin (PHA)-stimulated T-lymphocytes. Furthermore, when T-lymphocytes were stimulated by phorbol myristate acetate, a known activator of protein kinase C, a similar inhibition of protein and DNA synthesis by amiloride was observed. The partially purified cytosol fraction isolated from PHA-activated T-lymphocytes showed a 75% decrease in protein kinase C-mediated [32P] incorporation from ATP in the presence of 100 microM amiloride. These results suggest that the T-cell activation process following exposure to mitogens involves early protein synthesis, which may be mediated by protein kinase C.     

The synthesis of cytochrome b on mitochondrial ribosomes in baker's yeast.

Antiserum against a major cytochrome b peptide isolated from yeast mitochondria as described previously (Lin, L.-F.H., and Beattie, D.S., J. Biol. Chem. 1978, 253, 2412--2418) was raised in rabbits and shown to be monospecific against the pure antigen. Mitochondria were isolated from yeast cells grown in [3H]leucine, extracted with Lubrol and treated with antiserum to cytochrome b. Analysis of the immunoprecipitates by sodium dodecyl sulfate/polyacrylamide gel electrophoresis revealed the presence of a single major band of molecular weight 31 000 corresponding to cytochrome b. In order to determine the intracellular site of translation of cytochrome b, yeast cells were labeled in vivo under non-growing conditions with [3H]leucine in the absence or presence of inhibitors of cytoplasmic and mitochondrial protein synthesis. The incorporation of radioactive leucine into the apoprotein of cytochrome b isolated by immunoprecipitation followed by gel electrophoresis was insensitive to cycloheximide (an inhibitor of cytoplasmic protein synthesis) and sensitive to acriflavin, erythromycin, and chloramphenicol (inhibitors of mitochondrial protein synthesis). Furthermore, no cytochrome b apoprotein was present in a cytoplasmic petite mutant which lacked mitochondrial protein synthesis. Cytochrome b is thus a product of protein synthesis on mitochondrial ribosomes.     

Protein synthesis is increased in heart failure induced by low dose adriamycin in rabbits

Congestive heart failure was induced in rabbits by a chronic treatment with a low dose of adriamycin (0.75 mg/kg intravenously 3 times per week for 11 weeks). Twenty-four to 48 h after the last injection, adriamycin-treated rabbits had a three-fold increase in plasma norepinephrine, a seven-fold increase in plasma epinephrine, a 19 +/- 8% increase in heart rate, and a 54 +/- 10% decrease in the total tension generated by their isolated papillary muscles, when compared with normal age-matched controls. This demonstrated the occurrence of the cardiomyopathy and heart failure. The effect of adriamycin on myocardial and diaphragmatic protein synthesis was examined in vivo after a 1-h infusion with [3H]leucine and in vitro after a 2-h incubation of right ventricular papillary muscle with [3H]leucine. The rate of in vivo [3H]leucine incorporation into total protein was increased in the heart of the adriamycin-treated rabbits. The increases were 60 +/- 16% in the left ventricle, 49 +/- 18% in the septum, 32 +/- 18% in the right ventricle, and 66 +/- 16% in the atria. A similar increase was observed when measuring the rate of [3H]leucine incorporation into myosin, a myofibrillar protein, and when the rate of [3H]leucine incorporation into total protein was measured in vitro in papillary muscle. In contrast, the rate of [3H]leucine incorporation into total protein of the diaphragm was not significantly changed.(ABSTRACT TRUNCATED AT 250 WORDS)     

Purification and characterization of a novel cytotoxic substance from cell-free extract of Streptococcus pyogenes

A cytotoxic substance designated as streptococcal cytotoxic protein (SCP) was isolated from a cell-free extract of the Su strain of Streptococcus pyogenes possessing cytotoxic and antitumor activity. SCP was purified with a series of column chromatography and preparative PAGE to give a homogeneous single band as revealed by PAGE analysis. The purified SCP has a molecular mass of 165 kDa, composed of four 43 kDa subunits, and its pI is 4.3. SCP was sensitive to proteinases and was labile to heat and at acidic or alkaline pH. SCP showed inhibitory effects on the [3H]thymidine, [3H]uridine and [3H]leucine uptakes and on the growth of cells, and released 51Cr from cells when the protein was added to the cultures of Ehrlich ascites carcinoma (EAC), mouse mammary tumor (MM-2), leukemia (L-1210) and NIH-3T3 mammalian cells in vitro. SCP also showed an antitumor effect on EAC or MM-2 tumor-bearing mice but not on L-1210 tumor-bearing mice in vivo.     

Cysteine and methionine content of the Escherichia coli ribonucleic acid polymerase subunits.

We describe a procedure that allows cysteine and methionine content to be determined on microgram amounts of partially purified protein. The only requirements are that the protein can be obtained as a pure band after electrophoresis on a polyacrylamide gel and that some data on amino acid content be available. This method involves double labeling by growing bacterial cells with [3H]leucine and [35S]SO4 and determining the ratio of these radioisotopes incorporated into the ribonucleic acid polymerase subunits. The relative specific activities of [3H]leucine and [35S]cysteine and methionine are determined from the ratio of these isotopes incorporated into beta-galactosidase, the leucine, cysteine, and methionine contents of which are known. We have used this procedure to determine the sulfur content of the subunits of Escherichia coli ribonucleic acid polymerase. These new data are necessary to quantitate the rates of synthesis of these subunits by in vivo labeling with [35S]SO4.     

One-step purification of the serotonin transporter located at the human platelet plasma membrane.

A 68-kDa glycoprotein bearing the biological activity of the plasma membrane serotonin (5-hydroxytryptamine, 5-HT) transporter has been purified from human blood platelets, a classical cell model for the study of 5-HT uptake. After treatment of the whole platelet population or its plasma membrane fraction by sulfhydryl-dependent bacterial protein toxins or by digitonin, purification was reproducibly obtained by a one-step affinity chromatography using two different columns with 5-HT or 6-fluorotryptamine as ligands and elution by 5-HT or Na(+)-free buffer. The purified fraction migrated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single band with an apparent molecular mass of 68 kDa and exhibited an apparent isoelectric point of 5.6-6.2. Two sialic acid residues were detected in the purified material. The purified glycoprotein bound the 5-HT uptake blocker [3H]paroxetine with a Kd (0.25 nM) similar to the one observed for intact human platelets. It also bound [3H] 5-HT but neither [3H]hydroxytetrabenazine nor [3H] ouabain, the respective markers of the granular monoamine transporter and of the Na+,K(+)-ATPase associated to the plasma membrane 5-HT transporter. 5-HT derivatives and 5-HT uptake inhibitors exhibited similar Ki values for 5-HT uptake and paroxetine binding in intact human platelets and in the purified glycoprotein. Under laser UV irradiation, 40% of this purified glycoprotein could be labeled by either [3H]paroxetine or [3H]cyanoimipramine. No labeling was detected with either [3H] gamma-aminobutyric acid or [3H]GBR 12783, the respective markers of gamma-aminobutyric acid and dopamine carriers. The purified 68-kDa protein is therefore likely to correspond at least to the binding domain of the 5-HT transporter located at the human platelet plasma membrane.     

Measurement of protein degradation by release of labelled 3-methylhistidine from skeletal muscle and non-muscle cells

The rates of [³H]N^τ-methylhistidine (3-MH) accumulation in the medium, following pulse labelling of cells for 48 h with [³H]methionine, were used to measure myofibrillar protein degradation. In fused C₂C₁₂ myotubes, incubation for 24 or 48 h after the labelling period gave rates of myofibrillar degradation of 38 and 42%/day. In a leucine free medium, these rates were similar; 40 and 47%/day, respectively. Using identical conditions ± leucine, but in the absence of [³H]-methionine, rates of protein accretion and synthesis over 24–48 h were measured. From these data, rates of total protein degradation were calculated by difference and were similar to myofibrillar degradation rates. We have used the same pulse labelling protocol to assess whether the method is applicable to non-muscle cell lines based on the knowledge that 3T3 fibroblasts contain actin in the cytoskeleton. 3-MH was detected both in protein and upon its release into the medium. Actin degradation measured over a 48 h period gave a value half that obtained for total degradation, but the results suggest that the release of 3-MH by fibroblasts in vivo could be appreciable. The development of this methodology should provide a useful tool to investigate signalling mechanisms regulating actin degradation in a variety of cell types. © 1996 Wiley-Liss, Inc.     

Incorporation of [h]leucine and [h]valine into protein of freshwater bacteria: uptake kinetics and intracellular isotope dilution

Incorporation of [H]leucine and [H]valine into proteins of freshwater bacteria was studied in two eutrophic lakes. Incorporation of both amino acids had a saturation level of about 50 nM external concentration. Only a fraction of the two amino acids taken up was used in protein synthesis. At 100 nM, the bacteria respired 91 and 78% of leucine and valine taken up, respectively. Respiration of H and C isotopes of leucine gave similar results. Most of the nonrespired leucine was recovered in bacterial proteins, while only up to one-half of the nonrespired valine occurred in proteins. In intracellular pools of the bacteria, [H]leucine reached an isotope saturation of 88 to 100% at concentrations of >40 nM. For [H]valine, an isotope equilibrium of about 90% was obtained at concentrations of >80 nM. Within an incubation period of typically 1 h, tritiated leucine and valine incorporated into proteins of the bacteria reached an isotope saturation of 2 to 6%. In a 99-h batch experiment, bacterial protein synthesis calculated from incorporation of leucine and valine corresponded to 31 and 51% (10 nM) and 89 and 97% (100 nM), respectively, of the chemically determined protein production. Measured conversion factors of 100 nM leucine and valine were 6.4 x 10 and 6.6 x 10 cells per mol, respectively, and fell within the expected theoretical values. The present study demonstrates that incorporation of both valine and leucine produces realistic measurements of protein synthesis in freshwater bacteria and that the incorporation can be used as a measure of bacterial production.     

Sampling of the leucine pool from the growing peptide chain: difference in leucine specific activity of peptidyl-transfer RNA from free and membrane-bound polysomes.

The specific activity of leucine in newly synthesized protein was determined by isolating the nascent polypeptides of the growing polypeptide chains. The newt, Triturus viridescens, was labeled in vivo with [³H]leucine. Polysomes were prepared from the livers. Peptidyl-tRNA was released from the polysomes by EDTA, isolated by sucrose gradient and purified on hydroxylapatite. It was then hydrolyzed with HCl and the amino acids were reacted with ¹⁴C-labeled 1fluoro-2,4-dinitrobenzene. The specific activity of [³H]leucine was determined from the [¹⁴C]dinitrophenyl-[³H]leucine after purification by two-dimensional thin layer chromatography. By this approach we found twofold differences between leucine specific activity in the growing polypeptide chain of free polysomes and that of membrane-bound polysomes. Moreover, we recorded eight to tenfold differences between the specific activity of leucine in peptidyl-tRNA and that in the acid-soluble pool. Our results indicate and define the intracellular compartmentalization of the leucine pool available for protein synthesis.     

Solubilization of the vasopressin receptor from rat liver plasma membranes. Evidence for a receptor X GTP-binding protein complex

The GTPase activity of plasma membranes isolated from rat livers was stimulated 20% over basal by vasopressin. A concentration dependency curve showed that maximal stimulation was obtained with 10(-8) M vasopressin. The vasopressin-stimulated GTPase activity was not inhibited in plasma membranes that had been ADP-ribosylated with either cholera toxin or pertussis toxin. Identical results were obtained from plasma membranes that had been solubilized with 1% digitonin. When membranes that had been solubilized after preincubation with [3H]vasopressin were subjected to sucrose gradient centrifugation, the majority of protein-bound [3H]vasopressin migrated as a single band with a sedimentation constant of 16.8 S. Moreover, there was a GTPase activity that migrated with the bound [3H]vasopressin. This peak of bound [3H]vasopressin was decreased by 90% when the sucrose gradient centrifugation was run in the presence of 10 microM guanosine 5'-O-(thiotriphosphate). When the 16.8 S peak of bound [3H]vasopressin was further purified over a wheat germ lectin-Sepharose column, a GTPase activity co-eluted from the column with the protein-bound [3H]vasopressin. Direct evidence that a GTP-binding protein was present in the 16.8 S peak was obtained by the immunodetection of a 35-kDa beta subunit of a GTP-binding protein. These results support the conclusion that liver plasma membranes contain a GTP-binding protein that can complex with the vasopressin receptor.     

Purification and some properties of the glycolipid transfer protein from pig brain

A glycolipid-specific lipid transfer protein has been purified to apparent homogeneity from pig brain post-mitochondrial supernatant. The purified protein was obtained after about 6,000-fold purification at a yield of 19%. Evidence for the homogeneity of the purified protein includes the following: (i) a single band in acidic gel electrophoresis, in sodium dodecyl sulfate-gel electrophoresis, (ii) a single band in analytical gel isoelectric focusing, (iii) exact correspondence between the glycolipid transfer activity and stained protein absorbance in the acidic gel electrophoresis, and (iv) coincidence between the transfer activity and protein absorption at 280 nm in gel filtration through Ultrogel AcA 54. The protein has an isoelectric point of about 8.3 and a molecular weight of 22,000, as measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A molecular weight of 15,000 was calculated from AcA 54 gel filtration. The amino acid composition has been determined. The protein binds [3H]galactosylceramide but not [3H]phosphatidylcholine. Under the conditions used, 1 mol of the transfer protein bound about 0.13 mol of [3H]galactosylceramide. The glycolipid transfer protein-[3H]galactosylceramide complex was isolated by a Sephadex G-75 chromatography. An incubation of the complex with liposomes resulted in the transfer of [3H]galactosylceramide from the complex to the acceptor liposomes. The result indicates that the complex functions as an intermediate in the glycolipid transfer reaction. The protein facilitates the transfer of [3H]galactosylceramide from donor liposomes to acceptor liposomes lacking in glycolipid as well as to acceptor liposomes containing galactosylceramide.     

Incorporation of [3H]Leucine and [3H]Valine into Protein of Freshwater Bacteria: Uptake Kinetics and Intracellular Isotope Dilution

Incorporation of [³H]leucine and [³H]valine into proteins of freshwater bacteria was studied in two eutrophic lakes. Incorporation of both amino acids had a saturation level of about 50 nM external concentration. Only a fraction of the two amino acids taken up was used in protein synthesis. At 100 nM, the bacteria respired 91 and 78% of leucine and valine taken up, respectively. Respiration of ³H and ¹⁴C isotopes of leucine gave similar results. Most of the nonrespired leucine was recovered in bacterial proteins, while only up to one-half of the nonrespired valine occurred in proteins. In intracellular pools of the bacteria, [³H]leucine reached an isotope saturation of 88 to 100% at concentrations of >40 nM. For [³H]valine, an isotope equilibrium of about 90% was obtained at concentrations of >80 nM. Within an incubation period of typically 1 h, tritiated leucine and valine incorporated into proteins of the bacteria reached an isotope saturation of 2 to 6%. In a 99-h batch experiment, bacterial protein synthesis calculated from incorporation of leucine and valine corresponded to 31 and 51% (10 nM) and 89 and 97% (100 nM), respectively, of the chemically determined protein production. Measured conversion factors of 100 nM leucine and valine were 6.4 × 10¹⁶ and 6.6 × 10¹⁶ cells per mol, respectively, and fell within the expected theoretical values. The present study demonstrates that incorporation of both valine and leucine produces realistic measurements of protein synthesis in freshwater bacteria and that the incorporation can be used as a measure of bacterial production.     

Estrogen-binding proteins of calf uterus. Purification to homogeneity of receptor from cytosol by affinity chromatography.

The estrogen receptor has been purified to homogeneity from calf uterus cytosol by sequential affinity chromatography by using heparin--Sepharose 4B and 17-hemisuccinyl-17beta-estradiol-ovalbumin--Sepharose 4B. The procedure yields about 1.2 mg of receptor protein from 1 kg of calf uteri, with a recovery of 53%. The receptor protein, as a complex with 17beta-[3H]estradiol, is purified more than 99%. A single band is seen on polyacrylamide gel ectrophoresis under nondenaturing conditions. 17beta-[3H]Estradiol comigrates with the protein band. As computed from the specific activity of radioactive hormone, 64,450 g of purified receptor protein binds 1 mol of 17beta-estradiol. 17beta-[3H]Estradiol bound to the protein is displaced by estrogenic steriods but not by progesterone, testosterone, or cortisone. As judged by chromatography on calibrated Sephadex G-200 columns, the purified receptor is identical with native receptor in crude cytosol: both show a Stokes radius of 6.4 nm. On sucrose gradient in low-salt buffer, the purified receptor sediments at 8 S. On electrophoresis in NaDodSO4 gels, the purified receptor migrates as a single protein band with an apparent molecular weight of 70,000. The sedimentation coefficient measured on sucrose gradients in the presence of chaotropic salts [1 M NaBr or NaSCN (0.1 M)] is 4.2 S. We conclude that the estrogen receptor of cytosol consists of a single subunit weighing about 70,000 daltons and endowed with one estrogen binding site. Under native conditions in cytosol, several subunits associate to form a quaternary structure with a Stokes radius of 6.4 nm.     

Effect of inhibition of DNA synthesis on histone synthesis, turnover, and deposition in the rat testis

In testicular seminiferous epithelial cells (SEC) of normal and hypophysectomized rats, 1-beta-D-arabinofuranosylcytosine and hydroxyurea (at concentrations which inhibited DNA synthesis nearly completely) inhibited histone synthesis only partially, and to a different extent for each histone fraction. In the presence of the inhibitors, the extent of synthesis relative to the corresponding control was TH1-x greater than H1 greater than TH2B-x = X2 = H2A greater than H2B = H3 greater than H4, in which synthesis of the H4 fraction was about 50% of control and that of TH1-x was 90-95% of control. The extent of inhibition of synthesis of each histone fraction was similar after hypophysectomy and, therefore, the changing of the relative populations of heterogeneous cells in the SEC did not influence the relative effects of the inhibitors of DNA synthesis on the synthesis of the various histone fractions. After [3H]leucine injection, the molar proportions of labeled histones relative to H4 decreased markedly between 1.5 h and 6-15 days; this finding indicated that there was rapid removal of histones compared to the H4 fraction during this period. When [14C]thymidine was injected 24 h prior to hydroxyurea treatment and [3H]leucine injection, the ratios of specific activities of histone H4 to DNA did not change significantly over an 11-day period. It appears that newly synthesized histone H4 and other somatic histones are associated with existing DNA in the presence of DNA inhibitors.