Evidence for simultaneous derepression of messenger RNA and the guanine nucleotide exchange factor in fertilized sea urchin eggs

Translational control was studied in extracts of Lytechinus pictus eggs and zygotes. We showed that neither mRNA nor initiation factors alone limit translation in these lysates; rather they are together rate limiting. Added globin mRNA was translated in egg and zygote lysates but overall protein synthesis did not increase significantly as the added RNA competed with the endogenous message. The lysates mimicked the in vivo response, since microinjection of globin mRNA into L. pictus eggs similarly competed with endogenous mRNAs. A number of translational components were used to determine if they would stimulate protein synthesis in these lysates. The addition of globin polyribosomes increased the level of protein synthesis. The majority of this increase was due to reinitiation of the globin mRNA, and under these conditions the level of endogenous protein synthesis in both egg and zygote extracts did not change. The addition of crude initiation factors alone did not appreciably alter the rate of protein synthesis in the egg lysates. However, in the presence of added mRNA, these initiation factors stimulated translation two- to fourfold. Of all the initiation factors tested, only the guanine nucleotide exchange factor (GEF, eIF-2B, RF) significantly increased protein synthesis when globin mRNA was present. The addition of an unfractionated initiation factor preparation further stimulated protein synthesis in the presence of added GEF and mRNA, suggesting that a component other than mRNA and GEF was also limiting in these egg lysates. Other initiation factors, including eIF-2, eIF-4A, eIF-4B, and eIF-4F, did not substitute for the component in the unfractionated initiation factor preparation. We propose that alkalinization of the cytoplasm and the subsequent activation of initiation factors and mRNAs contribute to the large stimulation of protein synthesis in echinoid eggs after fertilization. Furthermore, we discuss the possibility that the increase in NADPH at the expense of NAD+, which occurs within 3 min after fertilization, may lead to the activation of GEF.     

Synthesis of rabbit globin in a cell-free protein synthesis system utilizing sea urchin egg and zygote ribosomes

Reports of the reduced ability of sea urchin egg ribosomes to participate in synthetic mRNA-directed protein synthesis have fostered the suggestion that the low protein synthesis rate of eggs is due to ribosome-associated inhibitors. To test this hypothesis with a natural message, we have isolated 80S ribosomes and microsomal ribosomes of sea urchin eggs and zygotes and compared their activity at synthesizing protein from rabbit α and β globin mRNA in a Krebs II ascites tumor cell-free system. Both egg and zygote 80S ribosomes responded to added mRNA and were shown to synthesize complete α and β globin chains by CM-cellulose chromatography. In most cases, the activity of the egg ribosomes was in comparable instances higher than the zygote ribosomes. Attempts to determine the cause of this difference indicated that it was not a function of K⁺ or Mg²⁺ concentration, type of tRNA used, or ribosomal wash proteins. From these studies it is apparent that sea urchin egg ribosomes are functional at a level equivalent to or better than zygote ribosomes, and it appears that the lack of protein synthetic activity in unfertilized eggs is not due to the presence of a population of inhibited ribosomes.     

Protein synthesis in oocytes of Xenopus laevis is not regulated by the supply of messenger RNA

The control of protein synthesis in oocytes of Xenopus laevis has been investigated by injecting oocytes with mRNA and polysomes followed by labeling with ¹⁴C-amino acid mixtures. Contrary to previous reports in which injected oocytes were labeled with ³H-histidine, injected globin mRNA is found to decrease amino acid incorporation into endogenous proteins competitively at all concentrations tested. No increase in overall amino acid incorporation is detected when more mRNA is supplied. Similar results are obtained after labeling injected oocytes with leucine, methionine, proline or valine individually. An explanation is presented for the conflicting results obtained when histidine is used as a label.When reticulocyte polysomes are injected, rather than purified globin mRNA, incorporation of amino acids into endogenous proteins remains roughly constant and overall incorporation increases. Similarly, when encephalomyocarditis viral RNA is injected together with either globin mRNA or reticulocyte polysomes, the globin mRNA causes decreased amino acid incorporation into encephalomyocarditis proteins, but the polysomes do not do so. The results demonstrate that different types of mRNA compete for a strictly limited translational capacity which is saturated in the normal oocyte. The limiting component is present in polysomes and is not message-specific. The constraint on protein synthesis in the amphibian oocyte cannot be fully explained by masked mRNA.     

Characterization of a protein synthesis system from rat liver. Translation of endogenous and exogenous messenger RNA

An in vitro system prepared from rat liver postmitochondrial supernatant exhibits a high rate of protein synthesis for an extended period of time. This system initiates translation of either endogenous or exogenous mRNA, incorporates Met at a rate of 13 pmol/mg of postmitochondrial supernatant protein/min, maintains this rate for at least 90 min, and performs several rounds of translation/mRNA molecule. Up to 50% of the activity is due to reinitiation of protein synthesis using endogenous mRNA. In addition, 60-70% of the protein synthesized was released from ribosomes into the medium. Addition of globin mRNA stimulates protein synthesis and results in the synthesis of a protein that comigrates with authentic rabbit globin. Black beetle virus mRNA 2 also stimulates protein synthesis and results in synthesis of a protein with molecular weight corresponding to that of the mature viral protein. With endogenous rat liver mRNA this system synthesizes a large number of proteins.     

Translational activation of maternal mRNA encoding the heat-shock protein hsp90 during sea urchin embryogenesis

Changes in protein synthesis induced by heat shock of Strongylocentrotus purpuratus gastrulae were analyzed bt two-dimensional electrophoresis. Hyperthermia induces the synthesis of polypeptides having molecular masses of 90, 70, 50, 40, and 38 kDa. One of these, hsp90, appears as a pair of polypeptides which comigrates with proteins synthesized at normal temperature in eggs and embryos; these comigrating spots produce indistinguishable patterns upon electrophoretic analysis of partial V8 protease digests, indicating that hsp90 is synthesized throughout embryogenesis. The relative rate of incorporation of methionine into hsp90 is low in eggs and zygotes, but increases abruptly in morulae, constituting a rare and striking change in protein synthesis during early development. Cell-free translation analyses indicate that most of the mRNA encoding hsp90 resides in the pool of free ribonucleoprotein particles in eggs and early embryos, but shifts to polysomes by the 64-cell stage while remaining constant in mass. Thus the increase in synthesis of hsp90 appears to be via the selective activation of translation of a stored maternal mRNA. The shift of hsp90 mRNA to polysomes is accompanied by polyadenylation. Heat shock of eggs or zygotes did not result in translational activation of hsp90 mRNA. The sea urchin hsp90 doublet of spots comigrates with hsp90 induced by heat shock of chicken embryo fibroblasts, a conserved protein abundant in many cells of a variety of species.     

Translation of maternal messenger ribonucleoprotein particles from sea urchin in a cell-free system from unfertilized eggs and product analysis

Maternal mRNP particles were isolated from the postribosomal supernatant fluid of unfertilized sea urchin eggs. They were translated in a cell-free system derived from unfertilized eggs. The translation of these particles required the presence of 12 mM MgCl₂, which is considered very high. The same high Mg²⁺ requirement was observed when mRNP particles were translated in a cell-free system from morula embryos. In contrast, mRNA extracted from mRNP particles is translated at 3 mM MgCl₂. This concentration of Mg²⁺ is known to be optimal for initiation of mRNA translation. Likewise, a rabbit globin mRNA is faithfully translated into α and β globin chains in a cell-free system from eggs at 3, but not at 12, mM MgCl₂. The translational products directed by mRNP or by mRNA derived from mRNP were examined in two gel systems and were found to be very similar. In both cases, histones were identified as part of the translational product. This indicated that the translation of mRNP in high Mg²⁺ is not due to nonspecific binding of these particles to ribosomes. The rates of globin synthesis in a cell-free system derived from eggs is comparable to that of morula ribosomes and to that reported for translation of globin with mouse liver and reticulocyte ribosomes, indicating that unfertilized sea urchin egg ribosomes do not possess a translational inhibitor and that no deficiency in initiation factors for mRNA translation could explain the low rate of protein synthesis in unfertilized sea urchin eggs.     

Inhibitors of cytoplasmic protein synthesis purified from rat liver mitochondria

Summary Purified mitochondria from rat liver were found to contain protein synthesis inhibitors, that could be extracted by disruption of mitochondrial membranes and fractionated by gel filtration into two fractions of low and high molecular weight. Small size inhibitors were also released from the latter peak by high ionic strength followed by gel filtration. Both types of factors inhibit incorporation of radioactive amino acids into protein by liver cytoplasmic polysomes programmed with endogenous mRNA or poly U, and by rabbit reticulocyte lysates programmed with added globin mRNA and by incubations of Walker carcinoma cells. They decrease to the same level the cytoplasmic synthesis of proteins for the mitochondrial and extra-mitochondrial compartments in intact cells, but do not appear to inhibit substantially endogenous mitochondrial protein synthesis. Inhibitors were purified by paper chromatography and reverse phase high performance liquid chromatography into fractions which block with the same kinetics the incorporation of [¹⁴]leucine and [³⁵]methionine into protein in systems able to initiate protein synthesis, such as reticulocyte lysates or intact cells, but differ in this respect in incubations of liver ribosomes where re-binding of mRNA is a limiting step. Some of these factors behave as oligopeptides that are assumed to inhibit in vitro primarily the initiation stage but whose function in vivo is still undetermined.     

Protein synthesis and the cell cycle: centrosome reproduction in sea urchin eggs is not under translational control

The reproduction, or duplication, of the centrosome is an important event in a cell's preparation for mitosis. We sought to determine if centrosome reproduction is regulated by the synthesis and accumulation of cyclin proteins and/or the synthesis of centrosome-specific proteins at each cell cycle. We continuously treat sea urchin eggs, starting before fertilization, with a combination of emetine and anisomycin, drugs that have separate targets in the protein synthetic pathway. These drugs inhibit the postfertilization incorporation of [35S]methionine into precipitable material by 97.3-100%. Autoradiography of SDS-PAGE gels of drug-treated zygotes reveals that [35S]methionine incorporates exclusively into material that does not enter the gel and material that runs at the dye front; no other labeled bands are detected. Fertilization events and syngamy are normal in drug-treated zygotes, but the cell cycle arrests before first mitosis. The sperm aster doubles once in all zygotes to yield two asters. In a variable but significant percentage of zygotes, the asters continue to double. This continued doubling is slower than normal, asynchronous between zygotes, and sometimes asynchronous within individual zygotes. High voltage electron microscopy of serial semithick sections from drug-treated zygotes reveals that 90% of the daughter centrosomes contain two centrioles of normal appearance. From these results, we conclude that centrosome reproduction in sea urchin zygotes is not controlled by the accumulation of cyclin proteins or the synthesis of centrosome-specific proteins at each cell cycle. New centrosomes are assembled from preexisting pools of ready-to-use subunits. Furthermore, our results indicate that centrosomal and nuclear events are regulated by separate pathways.     

Preparation and characterization of cell-free protein synthesis systems from oocytes and eggs of Xenopus laevis

During the maturation of the oocytes of the frog Xenopus laevis, the rate of protein synthesis shows a twofold increase. Studies of the mechanisms involved in this stimulation have been seriously limited by the lack of an active cell-free translation system. We have now prepared such systems from oocytes, progesterone-matured oocytes and eggs of Xenopus laevis by induction of lysis by centrifugation of whole cells. The extracts are highly active in incorporation of labelled amino acids and, in the progesterone-matured and egg extracts, a substantial proportion of this is due to reinitiation on endogenous mRNA, as shown by the use of inhibitors. The increased rate of protein synthesis previously observed in intact oocytes following progesterone-induced maturation is reflected in the relative activities of the extracts. The difference in activity is not due to the presence of a dominant inhibitor of translation in the extracts from unstimulated oocytes. Labelling studies with initiator tRNA ([35S]Met-tRNAf) indicate a higher concentration of 43S preinitiation complexes in the extracts from unstimulated oocytes, suggesting an impairment of initiation of translation at or after the mRNA-binding step. Extracts from both oocytes and progesterone-matured oocytes translated endogenous mRNAs to give products ranging over a wide spectrum of molecular weight. However, significant translation of exogenous (globin) mRNA required the presence of reticulocyte postribosomal supernatant, suggesting that one or more factors required for mRNA recruitment is limiting in these extracts.     

Protein synthesis and morphogenesis are not tightly linked during embryogenesis in Fucus

Fertilized eggs of the brown alga Fucus have long been used as model organisms for investigating the early events in the establishment of polarity and subsequent embryogenesis since large numbers of zygotes can easily be obtained. We have analyzed protein synthesis in eggs and embryos during the first day of development using two-dimensional gels and found that synthesis of 12 of the 60 most prominent proteins changed either qualitatively or quantitatively. Actin and beta-tubulin were identified by immunoblotting; synthesis of these cytoskeletal proteins was initiated at different times during the first 12 hr of development. Unique, reproducible patterns of protein synthesis observed during development in the light permitted accurate staging of developing embryos. Inhibitors such as cytochalasin and sucrose, however, blocked morphogenesis without affecting protein synthesis, and, conversely, growth in the dark delayed protein synthesis but had very little effect on the timing of morphogenesis. The data are consistent with morphogenesis and protein synthesis being relatively independent during early embryogenesis. Actinomycin D added soon after fertilization had no effect on protein synthesis 1 day later, indicating that the proteins analyzed were encoded by maternal mRNA stored in the egg.     

Mechanism of inhibition of hepatic protein synthesis in rats by the carcinogen, methylazoxymethanol acetate.

Treatment of rats with the carcinogen, methylazoxymethanol acetate, results in a rapid, marked inhibition of hepatic protein synthesis and disaggregation of polysomes. Studies were undertaken to learn the mechanism by which this carcinogen induces these effects in rat liver. The data show that the inhibition of endogenous protein synthesis is not due to an effect on the high speed supernatant 'factors' but rather at the level of the polysome, and that both free and membrane-bound polysomes are affected. Poly(U)-directed polyphenylalanine synthesis by native ribosomal subunits is greater in preparations isolated from rats treated with carcinogen than it is in controls. Moreover, the native ribosomal subunit fraction from treated livers in response to added rabbit globin mRNA is able to synthesize a protein similar in molecular weight to globin. These studies show that methylazoxymethanol acetate does not induce significant alterations of ribosomal subunits or of initiation factors and suggest that the inhibition of protein synthesis and disaggregation of polysomes may be the results of an alteration of cytoplasmic mRNA, or its association with ribosomes.     

Differential repression of specific mRNA in erythroblast cytoplasm: a possible role for free mRNP proteins.

Two types of in vivo untranslated 'free' mRNA-protein particles (mRNP) were isolated from duck erythroblast cytoplasm and characterised. Both types, namely the highly purified globin mRNA-specific '20S' mRNP and the '35S' mRNP containing a heterogenous non-globin mRNA population, are not translatable in rabbit reticulocyte lysates, but yield active mRNA upon deproteinisation. In vivo, 90% of globin mRNA is translated, but the majority of mRNA types are found in the inactive mRNP fraction, including fully repressed mRNA species. Searching for the factors controlling differential mRNA repression, we characterised and compared the protein composition of globin and '35S' mRNP using two dimensional gel electrophoresis, in vivo labelling with [35S]methionine and in vivo phosphorylation. The major proteins ubiquitously bound to globin or any other mRNA in the polyribosomes (e.g., the 73 K mol. wt. poly(A) binding protein) were not detected in purified inactive mRNP. In the latter some polypeptides appear to be associated with only one of the two inactive mRNA types while some others are common to both mRNPs. Furthermore, different rates of synthesis and phosphorylation characterize the protein populations of the two types of repressed mRNP. The specificity in composition and metabolism of the populations of polypeptides associated with different subpopulations of inactive cytoplasmic mRNA, as shown here, argues in favour of a role of mRNP proteins in mRNA recognition and selective translational repression, possibly in association with the ScRNA previously found as components of the free mRNP and able to inhibit protein synthesis.     

Concentration-dependent effects of natural polyamines on peptide chain initiation and elongation in a cell-free system of protein synthesis

Spermidine and spermine at submillimolar concentrations stimulate the rate of incorporation of amino acid into protein in a cell-free system, directed either by endogenous or exogenous mRNA (TMV, globin). The stimulatory effects of these polyamines are exerted at both the stages of initiation and elogation and are more pronounced in the case of TMV or globin mRNA, amounting to approximately 2.3-fold stimulation over the polyamine-free system. The number of polysomes and the polysome-associated radioactivity increase approximately 2-fold in the presence of spermine. Synthesis of large polypeptides is a characteristic feature of the stimulatory event. However, elevated concentrations of spermidine and spermine strongly inhibit amino acid incorporation into protein. Inhibition is manifest at the stage of peptide elongation. In the case of endogenous mRNA the addition of an excess of polyamines results in a non uniform inhibition of amino acid incorporation. A most interesting finding is that, with increasing concentrations of polyamines, the intensity of four bands with Mr values of 63000, 44000, 15500 and 12500 respectively, increases or leastwise remains constant while others fade, indicading differential translation of proteins in the presence of polyamines.     

Preparation and characterization of a cell-free system from Chinese hamster ovary cells that translates natural messenger ribonucleic acid and analysis of intermediary reactions

A cell-free system from cultured Chinese hamster ovary cells has been developed, which translates endogenous mRNAs, exogenous natural mRNAs, and synthetic polynucleotide templates. The analysis of most of the reactions involved in initiation, elongation, and termination of protein synthesis can be carried out in this system. The postmitochondrial fraction, containing ribosomal 40 and 60 S subunits, 80 S ribosomes, polysomes, and cytosol proteins, incorporates amino acids into protein. The preparation is capable of recycling endogenous mRNA by initiating protein synthesis on polysomal mRNA, and of initiating protein synthesis on exogenous templates. When endogenous mRNA is degraded with micrococcal nuclease, polysomes are no longer evident and protein synthesis is markedly depended on added mRNA, ATP, GTP, and a nucleoside triphosphate-generating system. Amino acid incorporation is linear for over 2 h, polysomes containing nascent polypeptide chains are reformed and, with time, most of the protein synthesized is released into the media. Gel electrophoretic analysis of the product formed in response to globin mRNA indicates that most of the radioactivity migrates as a single peak, in the region corresponding to globin. Comparison of the electrophoretic pattern obtained from labeled Chinese hamster ovary cells with that from incubations of cell extract and Chinese hamster ovary mRNA indicates that essentially all of the polypeptides formed by the intact cell are synthesized by the cell-free system. Sucrose gradient centrifugation of incubations containing mRNA-depleted extract and [³⁵S]methionine, in the absence of added mRNA, is used to detect initiation intermediates in the formation of the [40 S Met-tRNA_f] complex and, with added natural mRNA plus cycloheximide, to detect intermediates in the formation of the 80 S initiation complex. Chain elongation reactions are measured by the incorporation of [³H]phenylalanine into polyphenylalanine in extracts supplemented with poly(U), or by the formation of nascent polypeptide chains on polysomes with natural mRNA. Chain termination is measured by analyzing the amount of radioactive protein released into the cytosol.     

Deficient heme synthesis as the cause of noninducibility of hemoglobin synthesis in a Friend erythroleukemia cell line.

Friend cells of the line Fw are not induced to accumulate substantial amounts of hemoglobin and to become benzidine-positive when treated with butyric acid or other inducers, except in the presence of exogenous hemin. The cells are shown to have a deficiency in heme synthesis since they require exogenous hemin during the period of maximal hemoglobin synthesis; since endogenous heme synthesis cannot be induced to the level found in normal inducible Friend cells, even after hemoglobin synthesis has been induced by hemin and butyric acid and the hemin has then been withdrawn; since they are not inducible for ferrochelatase (heme synthetase) activity; and since they accumulate free globin chains after stimulation with butyric acid in the absence of hemlin. Comparison of globin synthesis and globin mRNA content of the cells shows that globin synthesis is not controlled by the hemin-controlled repressor of protein synthesis (HCR) nor by any specific translational control of globin synthesis by hemlin.     

Effects of ribosomal wash factors and spermidine on endogenous and exogenous mRNA stimulated protein synthesis in the wheat germ cell-free system.

Differential effects of Mg2+, spermidine, and reticulocyte ribosomal wash factors on the translation of endogenous, myeloma, and globin mRNA's have been observed in studies with the wheat germ cell-free protein synthesizing system. Spermidine stimulated globin mRNA translation but not the translation of endogenous wheat germ messages, and the polyamine actually inhibited the translation of myeloma mRNA. Ribosomal wash factors, on the other hand, stimulated endogenous and myeloma mRNA dependent protein synthesis in an Mg2+-dependent fashion but inhibited globin mRNA translation. The combination of ribosomal wash factors and spermidine was either stimulatory or inhibitory depending on the Mg2+ concentration and the message. It was further observed that translation of exogenous myeloma mRNA proceeded for only 60 min at 25 degrees C under all conditions tested in this study, while translation of endogenous wheat germ messages continued for longer periods of time. No differential effects of spermidine on the synthesis of high molecular weight myeloma proteins were observed.     

Characterization of the protein moiety of messenger ribonucleoprotein complexes from duck reticulocytes by two-dimensional polyacrylamide gel electrophoresis.

The protein moiety of duck globin messenger ribonucleoprotein complexes isolated by oligo(dT)-cellulose chromatography or by sucrose gradient centrifugation was analysed by two-dimensional polyacrylamide gel electrophoresis under conditions where the separation in the first dimension occurs according to charge and in the second according to molecular weight. By comparing the pattern of protein from the mRNA - protein complex with that of ribosomal subunits we found that two acidic proteins with an identical molecular weight of about 49 000 and three basic proteins of about Mr 56 000, 64 000 and 73 000 were associated with the duck globin mRNA but were absent from either puromycin/high-salt-derived or 'run-off' ribosomal subunits. The comparison of the proteins from the complex with mRNA with those found in the 0.5 M KCl wash, commonly used as the source of initiation factors, showed also that only the 49 000-Mr protein from the complex could possibly be present in the 0.5 M KCl wash of polyribosomes; proteins with mobilities similar to the other three proteins complexed with mRNA were not detected in the salt wash of polyribosomes.     

Multiple instability-regulating sites in the 3'' untranslated region of the urokinase-type plasminogen activator mRNA.

In LLC-PK1 cells urokinase-type plasminogen activator (uPA) mRNA has a short half-life. It is stabilized by inhibition of protein synthesis and by downregulation of protein kinase C (PKC). In the present study on uPA mRNA metabolism, we focused our attention on the 3' untranslated region (3'UTR) of the uPA mRNA, as this region is long and highly conserved among several mammalian species, including mice and humans. To investigate the possible role of the 3'UTR of uPA mRNA in mRNA metabolism, we inserted this region into the 3'UTR of the rabbit beta-globin gene that is linked to the cytomegalovirus promoter and stably transfected it into LLC-PK1 cells. While the parental globin mRNA was stable, the chimeric mRNA was degraded as rapidly as endogenous uPA mRNA, suggesting that the 3'UTR of uPA mRNA contains most of the information required for its rapid turnover. Further analysis showed that there are at least three independent determinants of instability in the 3'UTR; one is an AU-rich sequence located immediately 3' of the poly(A) addition signal, and one is a sequence containing a stem structure. One determinant seems to require ongoing RNA synthesis for its activity. All chimeric unstable globin mRNAs became stable in the presence of cycloheximide, a protein synthesis inhibitor, suggesting that the stabilization of mRNA by protein synthesis inhibition is not through a specific sequence in the mRNA. In PKC-downregulated cells, globin mRNAs with the complete 3'UTR or the AU-rich sequence were stabilized, suggesting that PKC downregulation stabilizes uPA mRNA through the AU-rich sequence. Here we discuss the significance of multiple, independently acting instability determinants in the regulation of uPA mRNA metabolism.