OSMOTIC REGULATION OF α-AMYLASE SYNTHESIS AND POLYRIBOSOME FORMATION IN ALEURONE CELLS OF BARLEY

Water stress inhibits the gibberellic acid (GA₃)-induced synthesis of α-amylase in aleurone layers of barley (Hordeum vulgare L.). Electron microscope evidence indicates that the effect of water stress induced by 0.6 M solutions of polyethylene glycol (PEG) is to reduce the binding of ribosomes to the endoplasmic reticulum. This was confirmed by sucrose density gradient centrifugation of polyribosome preparations from stressed cells. The reduction in polyribosome formation does not result from reduced ribosome activity as measured by [³H]peptidylpuromycin formation. Thus, calculation of percent active ribosomes shows that osmoticum has little effect on the ability of ribosomes to incorporate puromycin into nascent protein. Water stress does not cause a marked decrease in the total RNA level of aleurone cells. Estimates of total RNA in postmitochondrial supernatant fractions from stressed cells show only a reduction of 8–9% relative to the control. Membrane synthesis measured by [¹⁴C]choline incorporation is depressed by 15% in cells stressed with 0.6 M PEG for 2.5 hours.     

Ribosome metabolism in hormone-treated Jerusalem artichoke tuber slices in the absence and presence of 5-fluorouracil

In order to examine the relation of protein synthesis to the onset of growth, changes in ribosome content and activity were compared in aged, metabolically active Jerusalem artichoke (Helianthus tuberosus L.) slices incubated in water or 2,4-dichlorophenoxyacetic acid+kinetin. In water, cells do not grow or divide and rRNA and protein levels remain constant. The percentage membrane-bound (mb) ribosomes drops from 25% to 16% during 24h. At the same time the proportion of ribosomes active in protein synthesis in both free and mb populations declines from about 69% to 54%. In auxin+kinetin, cell expansion occurs and is accompanied by a 3-fold increase in rRNA and a 50% increase in total protein content. The percentage mb ribosomes remains at 25% throughout 48 h of growth. During the first 24h of growth 70% of ribosomes in both free and mb populations are active; this value declines to near water levels at 48 h. Considering the large increase in total ribosomes the number of synthetically active ribosomes is substantially increased during growth. 5-Fluorouracil (5-FU) does not inhibit hormone induced growth but does depress total rRNA content by about one-third. It also reduces [³H]uridine incorporation into ribosomes by 70% and the newly made ribosomes are mostly inactive in protein synthesis. On the other hand, the inhibitor does not significantly affect the proportion of total ribosomes active in protein synthesis and only partially reduces protein accumulation during the second 24 h of growth. It is suggested that while ribosome production is reduced in 5-FU, ribosome turnover is also retarded resulting in retention of near normal capacity for protein synthesis and growth.     

Stage-specific synthesis of proteins complexed to ribonucleoprotein particles and ribosomes in zoospores of Blastocladiella emersonii.

In Blastocladiella emersonii zoospores, a set of proteins was found associated with the ribosomes and free ribonucleoprotein particles distinct from the ribosomes and polyribosomes. These proteins were designated P120, P105, P64, P56, and P42 based on their molecular weights determined by gel electrophoresis. Synthesis of these proteins was detected only during late sporulation just before the time polyadenylated ribonucleic acid accumulates in the sporangia. These proteins banded in isopycnic metrizamide gradients at densities of 1.31 and 1.27 g/cm3, which corresponded to the densities of the ribosomes and free ribonucleoprotein particles, respectively. Comparison of the distribution of the proteins in sucrose versus metrizamide gradients suggested that P105 was removed from the free ribonucleoprotein particles before complexing with the ribosomes. During germination, these proteins disappeared from the ribosomal fractions, with kinetics corresponding to the resumption of protein synthesis. Another protein (P178) was observed to bind to the ribosomes before the onset of protein synthesis during germination. Cycloheximide did not block the addition of this protein to the monoribosomes.     

Protein synthesis in resting and stimulated human lymphocytes

Summary The ribosomal profiles in lysates from resting and phytohemagglutinin stimulated human lymphocytes have been analyzed by sucrose gradient centrifugation. The percentage of polyribosomes increased during lymphocyte transformation reaching a maximal value of 60 to 70% of the total ribosomes after 72 hours of mitogen addition. This time period coincides with maximalin vivo protein synthesis. On the other hand, in nonstimulated lymphocytes, about 25% of the ribosomal particles appeared as aggregates, independently of the incubation period.Experiments performed with homologous cell free systems containing ribosomes and supernatant fluids prepared from unstimulated or activated lymphocytes demonstrate that the mixtures containing both components from stimulated lymphocytes are several fold more active in polypeptide synthesis than the systems which contain ribosomal particles and cell sap from resting cells. Assays carried out with mixtures combining the components from both sources indicate that the increased activity depends on ribosomes as well as on the supernatant fractions.Dedicated to Professor LUIS F. LELOIR on the occasion of his 70^th birthday.     

Effects of serum deprivation, insulin and dexamethasone on polysome percentages in C2C12 myoblasts and differentiating myoblasts.

An increase in the rate of protein synthesis in living cells can be achieved by regulating the quantity of mRNA, ribosomes, and enzymes available for translation or by regulating the efficiency at which existing components are used. Efficiency can be measured by comparing the number of ribosomes actively engaged in the synthesis of protein (polysomes) to the pool of free ribosomes. The objective of this study was to determine the percentage of ribosomes found as polysomes in C2C12 cells deprived of serum or exposed to insulin or dexamethasone 24 h before and after being stimulated to differentiate. Individual 60 mm culture dishes were exposed to serum-free control medium, medium containing serum, insulin, or dexamethasone for a period of 1 h or 2 h and then quickly frozen. The ribosomes and polysomes from these cells were separated by ultracentrifugation on 15 to 60% sucrose gradients and the absorbance across the gradient at 254 nm was recorded. Polysome percentages were determined as the area under the polysome peak divided by the total area under the curve. Serum deprivation caused a 12% decline in the percentage of ribosomes found as polysomes (P < 0.01). Dexamethasone caused a quadratic decline (P < 0.05) in polysome percentage, while insulin yielded a quadratic increase (P < 0.05). Protein synthesis assays measuring 3H-tyrosine uptake showed similar responses. These changes occurred in the absence of any differences in total RNA concentration. It was concluded that differentiation and the absence of serum in the media reduced the rate of recruitment of ribosomes for protein synthesis. Insulin increased ribosome recruitment which was also observed by a similar increase in incorporation of radio-labeled tyrosine.     

Structural dynamics of bacterial ribosomes. I. Characterization of vacant couples and their relation to complexed ribosomes

Ribosomes not engaged in protein synthesis (vacant couples), in contrast to complexed ribosomes bearing nascent chains, dissociate during sedimentation in sucrose gradients at high g forces and at Mg²⁺ concentrations below 15 mm. As a result of this dissociation, a new peak between the 70 S complexed ribosomes and the free 50 S subunits is observed, the position of which shifts from about 55 S to 70 S as the Mg²⁺ concentration in the gradient is raised from 5 to 15 mm. The apparent 60 S peak consists of 50 S subunits produced during dissociation in the gradient. At low g forces, the sedimentation rate of complexed and vacant ribosomes is indistinguishable, even at 5 mm-Mg²⁺. These sedimentation properties are valid criteria to differentiate vacant and complexed ribosomes. This is shown by converting complexed ribosomes quantitatively into vacant couples by removing the nascent chains through termination release or with puromycin, or by converting vacant couples into initiation complexes with R17 RNA, fMet-tRNA and initiation factors.Ribosomes from cells harvested by slow cooling consist almost entirely of vacant couples, all of which are active in protein synthesis with natural messengers. The structural features responsible for the interaction between subunits are discussed.     

Adenine depurination and inactivation of plant ribosomes by an antiviral protein of Mirabilis jalapa (MAP)

Mirabilis antiviral protein (MAP) is a single-chain ribosome-inactivating protein (RIP) isolated from Mirabilis jalapa L. It depurinates the 28S-like rRNAs of prokaryotes and eukaryotes. A specific modification in the 25S rRNA of M. jalapa was found to occur during isolation of ribosomes by polyacrylamide/agarose composite gel electrophoresis. Primer extension analysis revealed the modification site to be at the adenine residue corresponding to A⁴³²⁴ in rat 28S rRNA. The amount of endogenous MAP seemed to be sufficient to inactivate most of the homologous ribosomes. The adenine of wheat ribosomes was also found to be removed to some extent by an endogenous RIP (tritin). However, the amount of endogenous tritin seemed to be insufficient for quantitative depurination of the homologous ribosomes.Endogenous MAP could shut down the protein synthesis of its own cells when it spreads into the cytoplasm through breaks of the cells. Therefore, we speculate that MAP is a defensive agent to induce viral resistance through the suicide of its own cells.     

Protein synthesis in resting and growth-stimulated human peripheral lymphocytes : Evidence for regulation by a non-messenger RNA

Stimulation of lymphocyte growth is accompanied by an early increase in the rate of protein synthesis. This increase is dependent upon the flow of inactive free ribosomes into polysomes, which is limited by a rate-controlling step at initiation [2]. Addition of actinomycin D (actD) to lymphocytes caused a gradual reduction in protein synthesis in resting cells, but rapidly inhibited both the elevation of protein synthesis and the activation of free ribosomes which normally follow exposure to mitogens. Since actD does not affect protein synthesis in enucleated lymphocytes [4], the effect in intact cells must be mediated by a nuclear event, which available data indicate is RNA synthesis. ActD prevented the accumulation of 80S initiation complexes which normally occurs in resting lymphocytes treated with pactamycin and cycloheximide, showing that its locus of action was at some point in initiation. The decline in rate of protein synthesis began without detectable lag when resting lymphocytes were treated with actD. However, after growth stimulation, a delay of ca 50 min occurred before the protein synthetic rate declined in response to actD. These observations agree with the hypothesis that the concentration of some moderately short-lived RNA is rate-limiting for protein synthesis in resting lymphocytes, and that an early event in growth stimulation is a rise in the amount of this component to levels which are no longer rate-limiting. This permits an increased flow of ribosomes into polysomes and a consequent rise in protein synthesis. Available evidence indicates that the regulatory RNA is neither mRNA nor rRNA, but may either be one of the small cytoplasmic RNAs whose function is unknown, or tRNA_i^met.     

Compartmentation of the rough endoplasmic reticulum

It has become evident during recent years that a wide variety of proteins are synthesized on membrane-bound polysomes, very many of which are not ultimately secreted from the cell. The majority of proteins appear to go through some form of post-translational modification before the final appearance of an 'active' product, and in some cases the polypeptide chain may be modified before the completed protein molecule is released from the ribosome. This then raises the question concerning the possibility of the organization of the rough endoplasmic reticulum into individual domains, or compartments, each of which may have the responsibility of performing definite and well defined functions. During recent years the behaviour of two subfractions of the rough endoplasmic reticulum in a variety of cell types and under a variety of conditions has been studied in order to gain insight into a possible compartmentation of this organelle. Throughout the studies disruption of cells has been performed by nitrogen cavitation. This technique was chosen in order to provide conditions of homogenization which were extremely reproducible since shearing forces, mechanical damage and the effects of local heating were eliminated. Endoplasmic reticulum (ER) membranes isolated from the post-mitochondrial supernatant have been separated into subfractions by centrifugation on discontinuous sucrose gradients. By virtue of their high density imparted by the association of ribosomes, rough ER (RER) membranes penetrate 1.4 M sucrose accumulating above either 2.0 M sucrose (light rough -LR membranes) or a cushion of 2.3 M sucrose (heavy rough -HR membranes). Smooth (S) membranes, which are virtually devoid of ribosomes, collect above 1.4 M sucrose. The HR, LR and S subfractions in MPC-11 cells differ in a number of respects: RNA/protein and RNA/phospholipid ratios, polysome profiles and marker enzymes. When cells were homogenized in buffer containing 25 mM KCl then all three ER subfractions were observed, however, when the buffer contained 100 mM KCl then only the LR and S subfractions were observed in gradients, radioactivity equivalent to that in the HR fraction was not recovered in the other two subfractions. Four times as many light chain immunoglobulin polypeptides were found associated with polysomes of HR membranes compared to LR membranes. The nuclear associated ER (NER), though very active in protein synthesis, was only 20% as active in the synthesis of light chain as the combined LR/HR fraction. Studies with MPC-11 cells showed that the relative amounts of the three ER subfractions were related to the phase of the cell cycle.(ABSTRACT TRUNCATED AT 400 WORDS)     

Free ribosomes and growth stimulation in human peripheral lymphocytes: Activation of free ribosomes as an essential event in growth induction

During the initial ten hours of growth in lymphocytes stimulated by phytohemagglutinin, the cells are converted from a state in which over 70% of all ribosomes are inactive free ribosomes, to one in which over 80% of ribosomes are in polysomes or in native ribosomal subunits. In this initial period, there was a neglible increase in total ribosomal RNA due to increased RNA synthesis, and abolition of ribosomal RNA synthesis with low concentrations of actinomycin D did not interfere with polysome formation. Therefore, the conversion is accomplished by the activation of existing free ribosomes rather than by accumulation of newly synthesized particles. The large free ribosome pool of resting lymphocytes is thus an essential source of components for accelerated protein synthesis early in lymphocyte activation, before increased synthesis can provide a sufficient number of new ribosomes. Free ribosomes accumulate once more after 24 to 48 hours of growth, when RNA and DNA synthetic activity are maximal. This reaccumulation of inactive ribosomes at the peak of growth activity may represent preparation for a return to the resting state where cells are again susceptible to stimulation. Activation of free ribosomes to form polysomes appears to involve modification of at least two steps: (a) dissociation of free ribosomes with stabilization as native subunits, and (b) adjustment of a rate-limiting step at initiation.     

Characterization of poly(a)-protein complexes isolated from free and membrane-bound polyribosomes of Ehrlich ascites tumor cells

Proteins present in messenger ribonucleoprotein particles were labeled with [³⁵S]-methionine in Ehrlich ascites tumor cells in which synthesis of new ribosomes was inhibited. Poly(A)-protein complexes were isolated from free and membrane-bound polyribosomes by sucrose gradient centrifugation and affinity chromatography on oligo(dT)-cellulose. Both classes of Poly(A)-protein particles contain a poly(A) chain of about 70 adenyl residues and a protein with a molecular weight of 76000 attached to it.     

RIBOSOMAL SUBUNITS FROM NEONATAL MOUSE BRAIN HIGHLY ACTIVE IN POLYPHENYLALANINE SYNTHESIS

Abstract— A highly active subcellular protein synthesising system is described, in which uncomplexed ribosomes isolated from 5 to 7 day old mouse brain can be reprogrammed with polyuridylic acid. Either purified free polyribosomes or microsomes were used as the starting material for the preparation of uncomplexed ribosomes by treatment with 0.5 m -KCl and puromycin. After reduction of the salt concentration 80S ribosomes were isolated by washing through sucrose. When, subsequently, zonal centrifugation in equivolumetric sucrose gradients containing 0.5 m -KCI was performed, purified ribosomal subunits were obtained. Cross-contamination of subunits was less than 5%. Re-associated ribosomes and recombined isolated ribosomal subunits both showed high activities in vitro. Incorporation levels of 50–60 phenylalanine residues per ribosome could be reached, at a rate of 0.5–2.0 residues/min/ribosome, depending on the activity of the high speed supernatant enzymes added. It was shown by paper chromatography of the cell-free product that only oligophenylalanine formation takes place. It was estimated that 6&70% of the ribosomes present in vitro were actively participating in the protein synthesis process.     

Isolation of stable ribosomal subunits from spores of Bacillus cereus.

Analyses of ribosomes extracted from spores of Bacillus cereus T by a dryspore disruption technique indicated that previously reported defects in ribosomes from spores may arise during the ribosome extraction process. The population of ribosomes from spores is shown to cotain a variable quantity of free 50S subunits which are unstable, giving rise to slowly sedimenting particles in low-Mg2+ sucrose gradients and showing extremely low activity in in vitro protein synthesis. The majority of the ribosomal subunits in spores, obtained by dissociation of 70S ribosomes and polysomes, are shown to be as stable as subunits from vegetative cells, though the activity of spore polysomes was lower than that of vegetative ribosomes. In spite of the instability and inactivity of a fraction of the spore's ribosomal subunits, the activity of the total population obtained from spores by the dry disruption technique was 32% of vegetative ribosome activity, fivefold higher than previously obtained with this species. The improvement in activity and the observed variability of subunit destabilization are taken as evidence for partial degradation of spore ribosomes during extraction.     

Mechanism of protein synthesis inhibition during stationary phase in Bacillus stearothermophil US

Summary The appearance of a protein (association factor I) in ribosomes from Bacillus stearothermophilus at stationary phase of growth is described. Association factor I is present on 30S subunits and 30S–50S ribosomal couples, but not on 50S subunits. This protein is responsible for the low levels of polyphenylalanine synthesis shown by stationary phase ribosomes. Association factor I is able to bind to free 30S–50S ribosomal couples but not to polysomes, and exerts its effect by inhibiting the initiation step of protein synthesis. Ribosomes preincubated with association factor I have a decreased ability for polypeptide snythesis directed phage mRNA or poly(U).     

Relief of polarity in E. coli depleted of 30S ribosomal subunits.

Summary Escherichia coli was depleted of ribosomes by a thermal shock at 47° C which quantitatively destroyed the 30S ribosomal subunits. During recovery in minimal medium at 30° C RNA is synthesized while protein synthesis resumes only after about 90 min. It is shown that lac mRNA is synthesized in the complete absence of ribosomal activity and hence RNA synthesis is not coupled to protein synthesis. Lac mRNA from a series of lac nonsense mutants was examined in both heated and untreated cells. It was found that the polar effect of nonsense mutation is relieved in the absence of ribosomes and that this relief is due to the synthesis of larger mRNA molecules. Since Rho remained active in thermally treated cells, premature termination at secondary signals within the lac operon must also depend on the presence of active ribosomes.Abbreviations used SSC 0.15 M Nacl, 0.015 M sodium citrate (pH 7.0) - mRNA messenger ribonucleic acid - IPTG isopropyl--D-thiogalactopyranoside - cAMP adenosine 3: 5-cyclic monophosphoric acid - LDS lithium dodecyl sulfate - TCA trichloroacetic acid The paper forms part of the first author's M.Sc. thesis     

The Mode of Action of Pederin,a Drug Inhibiting Protein Synthesis in Eucaryotic Organisms

Abstract

Pederin, a toxic substance isolated from the insect Paederus fuscipes, inhibits growth of Saccharomyces cerevisiae and EUE cells but not of Bacillus subtilis. Protein synthesis in vitro appears to be inhibited by the drug in preparations obtained from organisms containing 80 S ribosomes (yeast, EUE cells and rat liver) but not in those from organisms endowed with 70 S ribosomes (E. coli and B. subtilis). Pederin inhibits protein synthesis at a stage subsequent to the formation of the ternary complex between ribosomes, aminoacyl-tRNA and messenger RNA. Resistance or susceptibility to the drug appears to be a characteristic of ribosomes.     

Effect of food deprivation and hypophysectomy on in vitro protein synthesis by membrain-bound and free hepatic ribosomes.

The protein synthetic activities of membrane-bound and free hepatic ribosomes isolated from intact rats fed ad libitum, and normal rats subjected to food restriction to match that of hypophysectomised (Hx) rats were compared to the in vitro protein synthetic capacity of hepatic ribosomes isolated from Hx rats. Hypophysectomy resulted in decreased protein synthetic ability of bound ribosomes, whether protein synthesis was directed by endogenous messenger RNA (mRNA) (p less than 0.05) or by polyuridylic acid (polyU) (p less than 0.01). In contrast, the protein synthetic activity of free hepatic ribosomes from Hx rats was reduced when protein synthesis was directed by endogenous mRNA (p less than 0.05) but, when polyU was substituted as the messenger, the protein synthetic activity of these free ribosomes was equal to that of control rats. On the other hand the effects of food restriction on hepatic ribosomal function could be clearly differentiated from the effects observed following hypophysectomy. Thus, the reduced protein synthetic activity of hepatic bound ribosomes isolated from food restricted normal rats was not demonstrable, when polyU was used to direct protein synthesis. Further, food restriction had no effect on the protein synthetic activity of free hepatic ribosomes, and this was true when protein synthesis was directed by either endogenous or artificial messenger. It is concluded that hypophysectomy reduces the protein synthetic ability of both bound and free hepatic ribosomes, and this change of ribosomal function of Hx rats cannot be attributed to their decreased food intake.     

Protein metabolism. 3. Relationship between albumin metabolism and elevated liver protein synthesis in the guinea pig infected with Trichostrongylus colubriformis

Studies of the incorporation of ¹⁴C-l-leucine into polypeptides by isolated liver ribosomes from guinea pigs confirmed previous in vivo studies that showed that Trichostrongylus colubriformis infection results in an elevated hepatic protein synthesis.The increased rate of protein synthesis was associated with the membrane-bound ribosomes that synthesize the circulating plasma proteins. Inappetance of infected animals was not resposible for the increased rate of synthesis by the membrane-bound ribosomes, but it was found that undernourishment may stimulate synthesis by free ribosomes.Plasma albumin turnover rate and loss into the intestine were both significantly increased in infected guinea pigs. It was concluded that these changes stimulated protein synthesis by membrane-bound ribosomes.The importance of elevated liver protein synthesis and loss of plasma protein in gastrointestinal nematode infections is discussed.     

Membrane-bound ribosomes in kidney: methods of estimation and effect of compensatory renal growth

Membrane-bound ribosomes are thought to secrete protein for export and free ribosomes to secrete protein for intracellular use. The proportion of the total ribosomes that is bound to membranes in normal mouse kidneys has been estimated by three different methods, and the results have been compared with those obtained by a fourth method used by us previously. The most valid estimates appear to be those obtained (a) by comparison of radioactivity in peaks representing free and membrane-bound ribosomes on linear sucrose gradients after labeling for 24 hr with ¹⁴C-orotic acid, and (b) by measurements of optical density in free and bound ribosomes that had been separated by centrifugation on discontinuous gradients of 0.5 M/2.0 M sucrose. Analyses by these methods show that about 20–25% of the ribosomes in a postnuclear supernatant prepared from mouse kidneys, but only 10–15% of the ribosomes in a post-mitochondrial supernatant, are membrane-bound. About 75% of the bound ribosomes sediment as polysomes of many different sizes. The proportion of membrane-bound ribosomes and their aggregation into polysomes were unchanged in kidneys undergoing compensatory hypertrophy after removal of the opposite kidney. These experiments show that, unlike liver, kidney has a predominance of free ribosomes compared to bound ribosomes; those ribosomes that are membrane-bound do not become free during compensatory renal growth.     

Free and membrane bound ribosomes of the cotyledons of Vicia faba (L.)

Summary Changes in the quantities of free and membrane-bound ribosomes were followed in the cotyledons of developing seeds. During the phase of storage protein synthesis, free and membrane bound ribosomes do not interchange, and as both classes synthesise protein in vivo, it is possible that they may synthesise different groups of proteins. This suggestion is discussed in relationship to the developing cotyledon.