Specific protein synthesis in isolated epithelium of guinea-pig seminal vesicle. Effects of castration and androgen replacement

Four intrinsic soluble secretory proteins are synthesized in vitro by isolated seminal-vesicle mucosa from sexually mature guinea pigs. Newly synthesized specific proteins labelled with [¹⁴C]glycine and [¹⁴C]lysine were precipitated by using double-antibody immunoprecipitation techniques and their radioactivity was assessed. Rates of synthesis were determined on each of 5 days after castration. By 5 days after castration the wet weight of the epithelium decreased to 42% of intact control values; the absolute amount of specific protein synthesized in vitro after 60min incubation decreased to 28% and the 27500g cytoplasmic protein content decreased to 31%. Thus androgen deprivation leads to a decrease in general protein synthesis in vivo, as well as to a decrease in specific protein synthesis in vitro. Specific protein synthesis comprised 76% of the total protein formed in isolated tissue from animals 5 days after castration as compared with 99–100% in tissue from intact animals. At 72h after an injection of testosterone or dihydrotestosterone, seminal-vesicle epithelium wet weight, cytoplasmic protein content and capability for synthesizing specific proteins in vitro were restored to approx. 70% of normal values. At 72h after onset of therapy with 3α-androstanediol, both epithelium wet weight and cytoplasmic protein content had increased significantly, but without a corresponding increase in the capability of the isolated tissue to synthesize specific proteins. The soluble labelled proteins synthesized in vitro by isolated epithelium from intact animals during 60 or 120min incubation were essentially entirely immunoprecipitable, i.e. specific. In contrast, approx. 29% of all soluble protein newly synthesized by isolated epithelium from animals 5 days after castration was acid-precipitable, but not immunoprecipitable, i.e. `non-specific'. The injection of testosterone into castrated animals inhibited the synthesis of the non-specific fraction by isolated tissue. The effects of castration on the ultrastructure of guinea-pig seminal-vesicle epithelium are also presented.     

An investigation of acid-soluble nuclear proteins of human leucocytes in relation to fraction RP2-L, a component of neoplastic cells

1. The claim that tumour cells contain a specific nuclear protein was investigated. The presence of this component was confirmed in Walker tumour cells by the chromatography on CM-cellulose of nuclear proteins labelled with [¹⁴C]lysine. This protein was studied further in a number of human leucocyte cells. 2. The labelling of leucocyte nuclear proteins with [¹⁴C]lysine was attempted during incubation and culture in vitro. Incorporation of the label into acid-soluble nuclear proteins was highest in normal lymphocytes cultured with phytohaemagglutinin, followed by chronic-myeloid-leukaemic leucocytes and mixed samples of normal leucocytes incubated in plasma. Little incorporation was seen in similar extracts of chronic-lymphatic or normal leucocytes. 3. Lymphocytes were the only cells that gave nuclear extracts with amino acid analysis similar to that of unfractionated histones. 4. Little of the [¹⁴C]lysine in nuclear extracts of incubated leucocytes proved to be of chromosomal origin. No evidence was found of an RP2-L component in the highly labelled nuclear extracts of phytohaemagglutinin-treated lymphocytes until after 6 days of culture with [¹⁴C]lysine. This component was soluble in saline. 5. Evidence is presented that fraction RP2-L is a non-histone protein constituent of cell nuclei whose labelling with [¹⁴C]lysine may be dependent on the metabolic state of the cell. Thus this component is not specific to the neoplastic state.     

Identification of the site of glycation of γ-II-crystallin by (14C)-fructose

Cataract formation in diabetes may be via non-enzymic glycosylation (glycation) of lens proteins due to increased concentrations of sugars present in the lenses of diabetic patients. The objective of this project was to identify the site(s) of glycation of bovine γ-II-crystallin by [¹⁴C]fructose. γ-II-crystallin was isolated from soluble lens nucleus proteins by gel chromatography, followed by ion-exchange chromatography and was then glycated by incubation with [¹⁴C]fructose. Radioactively labelled γ-II-crystallin was cleaved with trypsin. Affinity chromatography of the tryptic peptides gave a single main peak containing the majority of the radioactivity. This indicated that fructose had reacted at a single site on the protein. Amino acid analysis of this peptide showed it to contain only lysine and a trace amount of glycine. By relating the results of the amino acid analysis to the amino acid sequence of γ-II-crystallin, it was concluded that the labelled peptide corresponded to the N-terminal dipeptide. The site of glycation of bovine γ-II-crystallin by fructose was thereby identified as the α-NH₂ group of the N-terminal glycine.     

TRANSPORT OF LYSINE FROM CEREBROSPINAL FLUID OF THE CAT

—The clearance from cerebrospinal fluid of l-[¹⁴C]lysine and l-[³H]arginine was measured during ventriculo-cisternal perfusions of anaesthetized cats. Increasing in the perfusate the concentration of unlabelled l-lysine produced a gradual reduction in clearance of the labelled amino acids without altering the uptake of l-[¹⁴C]lysine by the choroid plexus. Net transport of l-lysine out of cerebrospinal fluid occurred by saturable and non-saturable components. The saturable component satisfied Michaelis-Menton kinetics, while the behaviour of the non-saturable component was consistent with diffusion. A V_max of 0·017 μmol/min and an affinity constant (k_t) of 0·83 mm were estimated. The clearance of l-lysine was unaffected by the addition to the perfusate of high concentrations of selected neutral amino acids, but was stimulated by the presence of l-cystine. Conversely, a high concentration of l-lysine did not affect the clearance of glycine or cycloleucine. The dibasic amino acids appear to be removed from cerebrospinal fluid by a relatively specific, mediated transport system which may serve to regulate their concentrations in the cerebrospinal fluid.     

Dégradation d'acides aminés à l'interface eau-sédiment réconstitué d'une lagune méditerranéenne (Golfe du Lion)

Degradation of Amino Acids at a Simulated Water-sediment Interface of a Mediterranean Lagoon Environment, Golfe du Lion The degradation of two ¹⁴C and ³H labelled amino acids at the simulated water-sediment interface of a Mediterranean lagoon was studied. The four day experiments included the respiratory activity measurement and the study of incorporation processes of the radioactivity in specific organic fractions of the ¹⁴C arginine. After active mineralization occurred during the first day, the radioactivity in the acid-soluble fraction decreased and polycondensed products were progressively incorporated. The radioactivity of the ³H lysine was included mainly in the acid soluble fraction. The nature of the substrate, and the reducing conditions in the environment affect the radioactivity distribution in the organic fractions. The identification of amino acids in the acid-soluble and base soluble fractions shows that the labelled arginine and lysine and other amino acids in the acid soluble and base soluble fractions shows that the labelled arginine and lysine released from the initial compounds are important quantitatively.     

Human–Human Hybridomas from Lung Cancer Patients Secrete Anti-DNA Antibodies

The effects of modification of the arginine/lysine ratio of dietary protein on the cholesterol kinetics were studied in male rats. Single amino acids (lysine to soybean protein and arginine to casein) were added to approximate the arginine/lysine ratio in different proteins. After acclimation to these diets for 30 days, rats were administered intravenous [¹⁴C]cholesterol and oral [³H]cholesterol. Analysis of the die-away curve of [¹⁴C]cholesterol showed an apparent independence of cholesterol kinetics to the dietary manipulations, but there was a moderate reduction of the size of the slowly exchangeable pool and of the biliary concentration of cholesterol when lysine was added to soybean protein. Addition of amino acids neither influenced cholesterol absorption nor the fecal excretion of the radioactivities from labeled cholesterol. The results indicate that manipulating the arginine/lysine ratio of dietary protein by adding single amino acids is not necessarily effective in ameliorating cholesterol metabolism in rats, although the arginine addition caused a significant reduction of serum cholesterol and triglyceride.     

d-β-HYDROXYBUTYRATE: A MAJOR PRECURSOR OF AMINO ACIDS IN DEVELOPING RAT BRAIN

Abstract— D-β-hydroxybutyrate (β-OHB) was compared to glucose as a precursor for brain amino acids during rat development. In the first study [3-¹⁴C]β-OHB or [2-¹⁴C]glucose was injected subcu-taneously (01 μCi/g body wt) into suckling rats shortly after birth and at 6. 11, 13, 15 and 21 days of age. Blood and brain tissue were obtained 20 min later after decapitation. The specific activity of the labelled precursor in the blood and in the brain tissue was essentially the same for each respective age suggesting that the labelled precursor had equilibrated between the blood and brain pools before decapitation. [3-¹⁴C]β-OHB rapidly labelled brain amino acids at all ages whereas [2-¹⁴C]glucose did not prior to 15 days of age. These observations are consistent with a maturational delay in the flux of metabolites through glycolysis and into the tricarboxylic acid cycle. Brain glutamate, glutamine, asparate and GABA were more heavily labelled by [3-¹⁴C]β-OHB from birth-15 days of age whereas brain alanine was more heavily labelled by [2-¹⁴C]glucose at all ages of development. The relative specific activity of brain glutamine/glutamate was less than one at all ages for both labelled precursors suggesting that β-OHB and glucose are entering the‘large’glutamate compartment throughout development. In a second study, 6 and 15 day old rats were decapitated at 5 min intervals after injection of the labelled precursors to evaluate the flux of the [¹⁴C]label into brain metabolites. At 6 days of age, most of the brain acid soluble radioactivity was recovered in the glucose fraction of the [2-^,4C]glucose injected rats with 72, 74, 65 and 63% after 5, 10, 15 and 20 min. In contrast, the 6 day old rats injected with [3-¹⁴C]β-OHB accumulated much of the brain acid soluble radioactivity in the amino acid fraction with 22, 47, 57 and 54% after 5, 10, 15 and 20 min. At 15 days of age the transfer of the [¹⁴C]label from [2-¹⁴C]glucose into the brain amino acid fraction was more rapid with 29, 40, 45, 61 and 73% of the brain acid soluble radioactivity recovered in the amino acid fraction after 5, 10, 15, 20 and 30 min. There was almost quantitative transfer of [¹⁴C]label into the brain amino acids of the 15-day-old [3-¹⁴C]β-OHB injected rats with 66, 89, 89, 89 and 90% of the brain acid soluble radioactivity recovered in the amino acid fraction after 5, 10, 15, 20 and 30 min. The calculated half life for /?-OHB at 6 days was 19 8 min and at 15 days was 12-2 min. Surprisingly, the relative specific activity of brain GABA/glutamate was lower at 15 days of age in the [3-¹⁴C]β-OHB injected rats compared to the [2-¹⁴C]glucose injected rats despite a heavier labelling of brain glutamate in the [3-¹⁴C]β-OHB injected group. We interpreted these data to mean that β-OHB is a less effective precursor for the brain glutamate ‘subcompartment’ which is involved in the synthesis of GABA.     

Protein synthesis in neurons and glial cells of the developing rat brain: an in vivo study

Abstract— A technique for the isolation of pure neuronal perikarya and intact glial cells from cerebral cortex has been developed for routine use. The yield of neuronal perikarya and glial cells was greater from highly immature (5–10 days) rat cerebral cortex than from the cortex of older rats (18–43 days). The perikarya/glia yield ratio decreased with age indicating that, as the glial population matured, the procedure succeeded in isolating a gradually smaller proportion of the existing neurons. The perikarya/glia ratio was highest for the 5-day-old cortex in which no mature glial cells could be identified. After a 10-min pulse in vivo of intrathecally injected [¹⁴C]phenylalanine, the specific radioactivity of the neuronal proteins was higher than that of the glial proteins in the 5-, 10- and 18-day-old rat but was lower in the 43-day-old rat. The values for absolute specific radioactivity of the ¹⁴C-labelled proteins in both cell types were greater, the younger the brain. The ¹⁴C-labelling of neuronal and glial proteins in the 18-day-old rat was assessed in vivo as a function of time by determining the incorporation of [¹⁴C]phenylalanine into such proteins at 5, 10, 20 and 45 min after administration of the amino acid. The rate of incorporation of [¹⁴C]phenylalanine into the glial cells was faster than into the neurons since higher specific radioactivities of the glial proteins could be achieved at earlier times. Also, a biphasic pattern of ¹⁴C-labelling of the glial proteins was noted, suggesting, perhaps, a sequential involvement of the oligodendrocytes and astrocytes. Homogenates of prelabelled neuronal perikarya were fractionated into the nuclear, mitochondrial microsomal and soluble cell sap fractions. In the 18-day-old cerebral cortex, the proteins of the microsomal fraction exhibited the highest specific radioactivity at the end of 10 min, whereas by 20 min proteins of the mitochondrial fraction were most highly labelled. The specific radioactivity of the nuclear proteins increased over the entire 45-min experimental period. On the contrary, the proteins of the soluble cell sap, in which the specific radioactivity was at all times by far the lowest, were maximally labelled by 5 min. Examination of the labelling of the neuronal subcellular fractions as a function of age revealed that at 10 min after administration of [¹⁴C]phenylalanine, the specific radioactivities of all ¹⁴C-labelled proteins were highest in the youngest (5-day-old) neurons. The proteins of the microsomal fraction were most rapidly labelled at all ages. During this interval the proteins of the soluble cell sap were only moderately labelled in the 5-day-old neurons and were totally unlabelled in the 43-day-old neurons, indicating age-dependent differences in the rate of utilization of the amino acid precursor by the neurons.     

Amino acid synthesis from glucose-U-14C in Glossina morsitans

Amino acid synthesis from glucose-U-¹⁴C was investigated in 2 day post-emergent and pregnant females of Glossina morsitans. This insect can synthesize alanine, aspartic acid, cystine, glutamic acid, glycine, proline, and serine from glucose. Arginine, histidine, hydroxyproline, isoleucine, leucine, lysine, methionine, phenylalanine, taurine, threonine, and valine showed no radioactivity and hence may be classified as nutritionally indispensable amino acids. Although tyrosine and hydroxyproline were not synthesized from glucose, they are at least partially dispensable nutrients for this insect because their synthesis from phenylalanine has been demonstrated. After the labelled glucose injection the highest radioactivity was recovered in the proline fraction. This is probably related to its rôle as an important energy reserve for flight. The radioactive amino acids recovered from females and from their offspring following glucose-U-¹⁴C injection were similar to those recovered from younger females. Radioactivity was also detected in the expired CO₂ and the excreta. The amino acids alanine, arginine, cystine, glycine, histidine, leucine/isoleucine, lysine, methionine, proline, and valine were identified in the excreta, of which arginine and histidine were in the largest amounts. Only excreted alanine, glycine, and proline showed radioactivity.     

Microbial growth on C1 compounds. Synthesis of cell constituents by methane- and methanol-grown Pseudomonas methanica

1. A study has been made of the incorporation of carbon from [¹⁴C]methane, [¹⁴C]methanol and [¹⁴C]bicarbonate by cultures of Pseudomonas methanica growing on methane, and [¹⁴C]methanol by cultures of the same organism growing on methanol. 2. The distribution of radioactivity within the non-volatile constituents of the ethanol-soluble fractions of the cells, after incubation with labelled compound for periods up to 3min., has been analysed by chromatography and radioautography. 3. Over 90% of the radioactivity fixed from [¹⁴C]methane or [¹⁴C]methanol at the earliest times of sampling appeared in phosphorylated compounds. Glucose phosphate and fructose phosphate together constituted the largest part of the radioactive phosphates (70–90%); phosphoglycerate was a relatively minor component (2–17%). Other compounds becoming labelled during the incubation included glycine, serine, glutamate, aspartate, malate, citrate and alanine. 4. The first stable products of [¹⁴C]bicarbonate fixation were malate and aspartate (containing between them over 90% of the total radioactivity fixed at the earliest times of sampling). 5. The percentage of the total radioactivity fixed that was contained in each of the radioactive compounds has been plotted against time. The slopes of the curves obtained show that hexose phosphates are primary stable products of [¹⁴C]methane and [¹⁴C]methanol incorporation and that aspartate and malate are primary stable products of [¹⁴C]bicarbonate incorporation. 6. No carboxydismutase activity has been found in cell-free extracts of the organism. This fact, together with the other findings, shows that an autotrophic metabolism involving the ribulose diphosphate cycle of carbon dioxide fixation cannot be operating.     

Transamidination of [1-14C]-guanidinoacetic acid to 14C-glycine and decarboxylation to 14CO2 in white spruce shoot primordia entering winter dormancy

Feeding [1-¹⁴C]-guanidinoacetic acid to shoot primordia, O₂ uptake was inhibited and major products were ¹⁴C-glycine, ¹⁴CO₂ and ¹⁴C-serine. The direct decarboxylation of [1-¹⁴C]-guanidinoacetic acid to ¹⁴CO₂ and N-methylguanidine, the methylation of [1-¹⁴C]-guanidinoacetic acid to ¹⁴C-creatine, and the lytic cleavage to urea and ¹⁴C-glycine were all ruled out. Enzymatic transamidinations of [1-¹⁴C]-guanidinoacetic acid with amino acid acceptors occurred as arginine-rich storage proteins were being turned over and new proteins synthesized containing ¹⁴C-glycine and ¹⁴C-serine. The products of transamidination were recycled as substrates until ¹⁴C-glycine was metabolized in different directions and transported to mitochondria and peroxisomes. ¹⁴C-Glycine was decarboxylated by a glycine decarboxylase multienzyme complex resulting in a net carbon loss and a sharp decline in total protein rich in arginine N. Under these conditions, unlabelled arginine and ornithine contributed as substrates for reversible transamidination reactions. Peroxisomes and mitochondria are hypothesized as providing arginine-derived nitric oxide to maintain redox homeostasis in response to the stresses imposed by [1-¹⁴C]-guanidinoacetic acid and to protect against the inhibitory activity of sulfhydryls on transamidinase activity. The destruction of a respiratory inhibitor by transamidination may comprise a mechanism associated with the awakening from of dormancy and the mobilization of storage protein reserves in conifers.     

Two Biosynthetic Pathways to delta-Aminolevulinic Acid in a Pigment Mutant of the Green Alga, Scenedesmus obliquus

Pigment mutant C-2A′ of the unicellular green alga Scenedesmus obliquus develops only traces of chlorophyll and has no detectable amount of δ-aminolevulinic acid (ALA) when grown in the dark. In light it develops ALA and in the presence of levulinic acid (LA), a competitive inhibitor of ALA dehydratase, it accumulates 0.18 mmoles of ALA per 10 microliters of packed cell volume per 12 hours. This amount could be increased up to 15 times by feeding precursors and cofactors.

Incubation with [U-¹⁴C]glutamate, [1-¹⁴C]glutamate, and [2-¹⁴C]glycine yielded significantly labeled ALA, whereas [1-¹⁴C]glycine did not label the ALA specifically. Thus, two pathways using either glycine/succinyl-coenzyme A or incorporating the whole C-5-skeleton of glutamate into ALA are present in this alga. The efficiency of the glycine/succinyl-coenzyme A pathway seems to be three times higher than that of the glutamate pathway. Incubation with [5-¹⁴C]2-ketoglutarate, which can serve both pathways as a precursor, resulted in radioactivity of ALA as high as the sum of both labeling with [1-¹⁴C]glutamate and [2-¹⁴C]glycine.

Since the newly synthesized chlorophyll was radioactive regardless of labeled substrate employed, both pathways culminate in chlorophyll formation.

     

Synthesis of 4-thia-[6-13C]lysine from [2-13C]glycine: access to site-directed isotopomers of 2-aminoethanol, 2-bromoethylamine and 4-thialysine

4-Thialysine (S-(2-aminoethyl)-l-cysteine) is an analog of lysine. It has been used as an alternative substrate for lysine in enzymatic reactions. Site-directed isotopomers are often needed for elucidation of mechanism of reactions. 4-Thialysine can be synthesized by reacting cysteine with 2-bromoethylamine, an important reagent in chemical-modification rescue (CMR) of proteins. Here, we present the synthesis of 4-thia-[6-¹³C]lysine, one of the isotopomers of 4-thialysine, from commercially available starting material [2-¹³C]glycine via formation of five intermediates including 2-amino[2-¹³C]ethanol and 2-bromo[1-¹³C]ethylamine. The compounds were characterized using various spectroscopic techniques. Moreover, we discuss that our strategy would provide access to site-directed isotopomers of 2-aminoethanol, 2-bromoethylamine and 4-thialysine. Biological activity of 4-thia-[6-¹³C]lysine was tested in the enzymatic reaction of lysine 5,6-aminomutase.     

Ontogenetic Study of the Effects of Energetic Nutrients on Amino Acid Metabolism of Rat Cerebral Cortex

We studied the effect of various energetic nutrients on metabolism of l-[U-¹⁴C]leucine and [1–¹⁴C]glycine in cerebral cortex of rats at different ages. At gestational age, glucose and lactate stimulated protein synthesis from l-[U-¹⁴C]leucine and [1–¹⁴C]glycine and from l-[U-¹⁴C]leucine, respectively; glucose, -OH-butyrate and lactate stimulated lipid synthesis from l-[U-¹⁴C]leucine. At 10 days of age, glucose, mannose, and fructose stimulated protein synthesis, and glucose and mannose stimulated oxidation to CO₂ as well as lipid synthesis from l-[U-¹⁴C]leucine. In adult rats, glucose, mannose, and fructose stimulated protein synthesis from l-[U-¹⁴C]leucine and [1–¹⁴C]glycine; glutamine also markedly decreased the oxidation of l-[U-¹⁴C]leucine and [1–¹⁴C]glycine in 10–day-old and adult rats.     

The effects of electrical stimulation and ionic alterations on the metabolism of amino acids and proteins in excised superior cervical ganglia of the rat

Abstract— The effects of supramaximal electrical stimulation on the metabolism of amino acids and proteins in incubated superior cervical ganglia of the rat were studied by the use of a gas-liquid chromatographic (GLC) assay procedure. Stimulation at 5 Hz for 2 h caused an apparent increase in tissue levels of free amino acids, with alanine, serine, glycine, valine, threonine, isoleucine and aspartate (+ asparagine) most noticeably affected. The amino acid composition (partial) of the TCA-insoluble proteins of resting and stimulated ganglia was approximately the same after 60 min of incubation, but there was less TCA-insoluble protein in the stimulated ganglia. The addition of amino acids (at plasma concentrations) to the standard media had no apparent affect on the amino acid composition of this protein fraction. Stimulation for 0 , 5 h initially increased the efflux of alanine, valine, proline and ornithine into the incubation media but prolonged stimulation (for 4–0 h) decreased the efflux of alanine, serine, glycine and isoleucine and increased the efflux of lysine into the incubation media. The leakage of amino acids from the ganglia appeared to be a sodium-dependent process. The incorporation of ¹⁴C from [U-¹⁴C]glucose into glutamate (+ glutamine) and aspartate (+ asparagine) was greater in stimulated than in resting ganglia. However, the conversion of glutamate carbons from [U-¹⁴C]l -glutamate into aspartate was not affected by stimulation. Incorporation of ¹⁴C from [U-¹⁴C]glucose into glycine and serine was apparently not affected by stimulation during the 60 min of incubation. However, serine was the only amino acid which exhibited a higher specific radioactivity in stimulated ganglia than in resting ganglia incubated for 4 h in standard media. Lithium ions had the apparent specific effect of increasing the labelling with ¹⁴C from [U-¹⁴C]glucose into ornithine, and increasing the efflux and overall metabolism of serine in the ganglia. Incorporation of ¹⁴C from [U-¹⁴C]glucose into proteins was lower in the stimulated than in the resting ganglia if compensation was made for the higher radioactivity available in the total free amino acid pool of the stimulated ganglia. The rate of ¹⁴C incorporation from [U-¹⁴C]glutamate into the TCA-insoluble proteins of resting ganglia was greater when no other amino acids at concentrations approximating plasma levels were added to the bathing media; this rate was lower in stimulated than in resting ganglia.     

Albumin synthesis by the perfused rat liver. A comparison of methods with special reference to the effect of dietary protein deprivation

1. Isolated perfused rat livers were used to study synthesis of albumin after donors had been fed on normal or protein-free diets. 2. Methods of determining the liver's ability to produce albumin included incorporation of [¹⁴C]carbonate, [³H]lysine and [¹⁴C]arginine, as well as a direct method based on a heterologous perfusing system of rat erythrocytes and rabbit plasma. 3. Livers from protein-deprived rats were found to form extremely little urea and not to incorporate ¹⁴CO₂ into [¹⁴C]urea, but they were capable of producing [¹⁴C]urea from [¹⁴C]arginine and of incorporating the latter and [³H]lysine into albumin. 4. By immunological means these lives were found to synthesize less albumin than normal, but their ability was only slightly impaired when related to body weight or liver weight. 5. These findings are consistent with a block in urea-cycle enzymes with relative integrity of arginase activity and of amino acid activation.     

A SOLUBLE PREPARATION FROM RAT BRAIN THAT INCORPORATES INTO ITS OWN PROTEINS [14C]ARGININE BY A RIBONUCLEASE-SENSITIVE SYSTEM AND [14C]TYROSINE BY A RIBONUCLEASE-INSENSITIVE SYSTEM

Abstract— A 100,000 g supernatant fraction from rat brain that was passed through a column of Sephadex G-25-40 was able, after addition of some factors, to incorporate [^I4C]arginine (apparent K_m= 5 μM) and [¹⁴C]tyrosine (apparent K_m= 20 μM) into its own proteins. The factors required for the incorporation of [¹⁴C]arginine were: ATP (optimal concentration = 0-25-2 μM) and Mg²⁺ (optimal concentration 5 mM). For the incorporation of [^I4C]tyrosine the required factors were: ATP (apparent K_m= 0-75 μM), Mg²⁺ (optimalconcentration 8-16 mM) and K⁺ (apparent K_m= 16 mM). Addition of 19 amino acids did not enhance these incorporations. Optimal pHs were: for [¹⁴C]arginine and [¹⁴C]tyrosine, respectively, 7-4 and 7-0 in phosphate buffer and 7–9 and 7-3-8-1 in tris-HCl buffer. Pancreatic ribonuclease abolished the incorporation of [¹⁴C]arginine but had practically no effect in the incorporation of [¹⁴C]tyrosine. Furthermore, [¹⁴C]arginyl-tRNA was a more effective donor of arginyl groups than [¹⁴C]arginine, whereas [¹⁴C]tyrosyl-tRNA was considerably less effective than [¹⁴C]tyrosine. The incorporations of [¹⁴C]arginine and [¹⁴C]tyrosine into brain proteins were from 25- to 2000-fold higher than for any other amino acid tested (12 in total). In brain [¹⁴C]arginine incorporation was higher than in liver and thyroid but somewhat lower than in kidney. In comparison to brain, the incorporation of [¹⁴C]tyrosine was negligible in liver, thyroid or kidney. Kinetic studies showed that the macromolecular factor in the brain preparation was complex. The protein nature of the products was inferred from their insolubilities in hot TCA and from the action of pronase that rendered them soluble. [¹⁴C]Arginine was bound so that its a-amino group remained free. Maximal incorporation of [¹⁴C]tyrosine in brain of 30-day-old rats was about one-third of that in the 5-day-old rat. The changes with postnatal age in the incorporation of [¹⁴C]arginine were not statistically significant.     

Renal glomerular collagen synthesis in streptozotocin diabetes Reversal of increased basement membrane synthesis with insulin therapy

The effect of diabetes and insulin on basement membrane synthesis in vitro be renal glomeruli obtained from normal and diabetic rats was determined. Four groups of experimental animals were used: age-matched controls; streptozotocin-diabetic; and streptozotocin-diabetic treated with insulin for half or all of the duration of diabetes. Isolated glomeruli were incubated with [¹⁴C]-lysine and the radioactive lysine and hydroxylysine in glomerular proteins were measured. [¹⁴C]Lysine incorporation and hydroxy[¹⁴H]lysine synthesis were elevated in diabetic glomeruli. Progressive diminution in ¹⁴C-labelled protein and hydroxy[¹⁴C]lysine formation was observed in incubations containing glomeruli from insulin-treated diabetic rats, with greater reversal toward normal following longer periods of exogenous insulin administration. Basement membrane synthesis, determined by the appearance of labelled hydroxylysine in membranes obtained from sonicated glomeruli, was increased in diabetic preparations. Reversal of these changes toward normal values was observed in glomeruli from rats treated with insulin immediately following induction of diabetes. The results indicate that basement membrane synthesis is increased in renal glomeruli from streptozotocin-diabetic rats, and that this process is restored toward normal with continuous insulin therapy.     

Biosynthesis of thyroglobulin. Incorporation of [1-14C]galactose, [1-14C]mannose and [4,5-3H2]leucine into soluble proteins by rat thyroids in vitro

1. Rat thyroid lobes were incubated for various periods of time in Krebs–Ringer bicarbonate containing [³H]leucine and either [1-¹⁴C]galactose or [1-¹⁴C]mannose. Radioactivity in soluble proteins was determined after their separation by sucrose-gradient centrifugation. 2. The time-course of incorporation of label from [¹⁴C]-mannose into soluble thyroid proteins was parallel to that observed for [³H]leucine. There was a lag of at least 30min. before either label appeared in non-iodinated thyroglobulin (protein 17–18s). During this time both labels were detected in two fractions known to contain subunit precursors of thyroglobulin (fractions 12s and 3–8s). Radioactivity from double-labelled fractions 12s and 3–8s was transferred to protein 17–18s during subsequent incubation in an unlabelled medium. 3. In contrast, most of the [¹⁴C]galactose was immediately incorporated into protein 17–18s. 4. During the first hour of incubation, puromycin almost completely inhibited the incorporation of label from [³H]leucine and [¹⁴C]mannose into all protein fractions, but had little effect on the incorporation of [¹⁴C]galactose into protein 17–18s. 5. These results indicate that mannose is incorporated into the carbohydrate groups of protein 17–18s at an earlier stage in its formation than galactose. It is suggested that the synthesis of the carbohydrate groups of ghyroglobulin begins soon after formation of the polypeptide components, more than 30min. before these are aggregated to protein 17–18s; carbohydrate synthesis then proceeds in a stepwise manner, galactose being incorporated at about the time of aggregation of subunits to protein 17–18s. Most, if not all, the carbohydrate is added to thyroglobulin before it is iodinated.     

In Vivo Synthesis of Crown Gall-specific Agrobacterium tumefaciens-directed Derivatives of Basic Amino Acids

Several kinds of primary sunflower (Helianthus annuus) crown gall tissues were established in tissue culture and then labeled in vivo with either [¹⁴C]arginine, [¹⁴C]histidine, [³H]lysine, or [³H]ornithine. Crown gall tissues incited by Agrobacterium tumefaciens strains that utilize octopine as a sole source of carbon or nitrogen for growth synthesized the four members of the N²-(1-carboxyethyl)-amino acid family: octopine, histopine, lysopine, and octopinic acid. Those tissues incited by A. tumefaciens strains that utilize nopaline synthesized nopaline and two new compounds, a lysine and an ornithine derivative (ornaline). A normal tissue culture, a habituated tissue culture, and a crown gall culture from a strain of the bacteria unable to utilize either octopine or nopaline did not synthesize any of the amino acid derivatives. We could not detect any other crown gall-specific derivatives of the four basic amino acids.