Translation of capped and uncapped vesicular stomatitis virus and reovirus mRNA'S. Sensitivity to m7GpppAm and ionic conditions.

In an attempt to elucidate the role of the 5'-terminal 7-methylguanosine residue in translation of mammalian mRNAs, vesicular stomatitis virus (VS virus), and reovirus mRNAs containing and lacking this residue, and also Qbeta RNA, were translated in cell-free extracts from reticulocytes and wheat germ under a variety of ionic conditions. Optimal translation of mRNAs lacking a 5' m7G occurred at concentrations of KOAc or KCl which were lower than those optimal for normal "capped" mRNAs. However, this salt dependence was much less marked in the mammalian reticulocyte extract and, at salt concentrations optimal for translation of normal capped mRNAs, reticulocyte lysates translated uncapped with mRNAs at 30 to 60% the normal efficiency. At low K+ concentrations, wheat germ ribosomes bound and translated appreciable amounts of uncapped VS virus mRNA; controls showed that no m7G residue is added to the 5' end of the bound RNA. Analogues of the 5' end, such as m7GpppAm, inhibited translation of both normal and uncapped VS virus RNAs in wheat germ extracts to about the same extent, but the efficiency of its action was reduced at low K+ concentrations. We conclude that there is a reduced importance of the 5' m7G residue in ribosome-mRNA recognition at low K+ concentrations, and that translation of mRNAs in reticulocyte extract is, under any reaction conditions, less dependent on the presence of a 5' "cap" than in wheat germ extracts.     

Comparative study of ceruloplasmin biosynthesis in various cell-free systems

Some peculiarities of mRNA translation of ceruloplasmin (CP) from rat liver were investigated, using three cell-free protein biosynthesis systems (wheat embryo extracts, rabbit reticulocyte lysates and Zajdela ascite hepatoma extracts). It was shown that reticulocyte lysates and tumour cell extracts synthesize full-size CP mRNA translation products, whose molecular mass is close to that of mature CP molecules, i. e., 122-132 kD. Wheat embryo extracts synthesize the NH2-terminal fragment of the CP molecule (Mr = 84 kD). Addition of liver membrane fractions to wheat embryo extracts translating CP mRNA results in the reconstitution of proteolytic steps of CP maturation.     

Isolation of rat liver albumin messenger RNA.

Rat liver albumin messenger RNA has been purified to apparent homogeneity by means of polysome immunoprecipitation and poly(U)-Sepharose affinity chromatography. Specific polysomes synthesizing albumin were separated from total liver polysomes through a double antibody technique which allowed isolation of a specific immunoprecipitate. The albumin-polysome immunoprecipitate was dissolved in detergent and the polysomal RNA was separated from protein by sucrose gradient centrifugation. Albumin mRNA was then separated from ribosomal RNA by affinity chromatography through the binding of poly(U)-Sepharose to the polyadenylate 3' terminus of the mRNA. Pure albumin mRNA migrated as an 18 S peak on 85% formamide-containing linear sucrose gradients and as a 22 S peak on 2.5% polyacrylamide gels in sodium dodecyl sulfate. It coded for the translation of authentic liver albumin when added to a heterologous protein-synthesizing cell-free system derived from either rabbit reticulocyte lysates or wheat germ extracts. Translation analysis in reticulocyte lysates indicated that albumin polysomes were purified approximately 9-fold from total liver polysomes, and that albumin mRNA was purified approximately 74-fold from albumin polysomal RNA. The total translation product in the mRNA-dependent wheat germ system, upon addition of the pure mRNA, was identified as authentic albumin by means of gel electrophoresis and tryptic peptide chromatography.     

Relative importance of 7-methylguanosine in ribosome binding and translation of vesicular stomatitis virus mRNA in wheat germ and reticulocyte cell-free systems.

Vesicular stomatitis virus mRNAs with these four types of 5'-termini, (a) m7G5'ppp5'(m)Am, (b) ppp5'(m)Am, (c) m7G5'-ppp5' Am, and (d) G5'ppp5'A, were prepared and their translation and ribosome binding analyzed in wheat germ and reticulocyte cell-free protein synthesis systems. The relative efficiencies of translation of individual vesicular stomatitis virus (VSV) mRNAs having type 2 termini ranged from 23 to 29% of the control (type 1) RNA in the reticulocyte system and 6 to 7% of control RNA in the wheat germ system. A similar difference between the two systems was seen in ribosome-binding experiments in which type 2 RNA formed an 80 S initiation complex with high efficiency (70% of control type 1 RNA) in the reticulocyte system, but with low efficiency (17% of control RNA) in the wheat germ system. Similar differences in the importance of m7G in translation in the two systems were seen when VSV mRNAs synthesized in vitro with type 3 and type 4 termini were analyzed. However, the analysis of type 4 RNA (which was synthesized in vitro in the presence of S-adenosylhomocysteine) was complicated by the presence of abnormally large poly(A) at its 3'-end. Another series of experiments showed that compounds such as 5'pm7G and m7G5'ppp5'Np are potent and specific inhibitors of translation of all types of VSV mRNAs in the wheat germ system (greater than 98% inhibition) but cause less than 20% inhibition of translation in the reticulocyte system. Taken together, all of the results indicate that a 5'-terminal m7G is far more important in translation of VSV mRNAs in the heterologous plant cell-free system than in the reticulocyte lysate system.     

Studies on rat liver catalase. X. Effect of hemin and an inhibitor on the translation of catalase messenger RNA1.

Rat liver catalase mRNA was translated in a rabbit reticulocyte lysates and wheat germ cell-free system in the presence or absence of hemin and/or a translational inhibitor prepared from reticulocytes, liver cells, and wheat germs. Failure to add hemin to the lysates, or the addition of a hemin-regulated translational inhibitor (HRI) to the hemin-supplemented lysates caused a repressed translation. A preparation of inhibitor from rat liver showed activity similar to that of HRI for this translating system. The translation repression by rat liver inhibitor was reversed by eIF-2 (initiation factor) or GTP, but ATP enhanced the repression. The translation of catalase mRNA in the wheat germ system was not affected by the addition of hemin. An inhibitor prepared from wheat germ extracts, as well as the rat liver inhibitor, markedly decreased the rate of translation. eIF-2, GTP, and ATP behaved in the manner described above. Catalase synthesis in a cell-free system derived from rat liver (using endogenous mRNA) was not influenced by either hemin or the inhibitor. The possibilities are discussed that the synthesis of catalase in liver cells is controlled by a translational inhibitor at the level of chain initiation, and that the formation of the inhibitor from its inactive proinhibitor is regulated by the amount of heme.     

Cell-free protein synthesis in lysates of Drosophila melanogaster cells.

A procedure is described for preparing cell-free protein synthesizing lysates from Drosophila melanogaster tissue culture cells and embryos. Preparation of translationally active lysates from tissue culture cells is dependent on the presence of rat liver supernatant during cell lysis to inhibit ribonuclease activity. After micrococcal nuclease treatment of the lysate, protein synthesis is dependent on the addition of exogenous messenger RNA. The fidelity of translation is very high. The conditions for optimal translation have been determined. In addition, the effects on translation of a variety of supplements, including rat liver supernatant, have been analyzed. The products of translation by the Drosophila lysate have been compared with those of wheat germ extracts and of micrococcal nuclease treated rabbit reticulocyte lysates. Translation in vitro of bovine parathyroid hormone messenger RNA yielded two products tentatively identified as preproparathyroid hormone and proparathyroid hormone, as well as an unidentified third product. This result suggests that insect enzymes can accurately process mammalian precursor proteins.     

Differential inhibition of protein synthesis in reticulocyte lysates and wheat germ extracts by a protein isolated from wheat germ extracts.

A protein with a molecular mass of 35-37 kDa has been isolated and partially purified from the postribosomal supernatant of wheat germ by ammonium sulfate precipitation (60-90%), Sephadex G-75, and DEAE-cellulose chromatography. It inhibited endogenous protein synthesis in rabbit reticulocyte lysates but had no effect on translation in wheat germ extracts. At low concentrations (0.34-1.36 ng/15 microliter assay), inhibition was limited to initiation of peptide synthesis. At higher concentrations (13.6 ng/15 microliter assay), elongation was also suppressed.     

Synthesis of nascent prothrombin and albumin in a heterologous system using rat liver messenger RNA purified in oligo (dT)-cellulose.

Highly active m-RNA was prepared by phenol extraction of rat liver polysomes followed by oligo (dT)-cellulose chromatography. This m-RNA preparation stimulated total protein synthesis in rabbit reticulocyte lysates and in wheat germ extracts. Nascent prothrombin and albumin synthesized in the reticulocyte system programmed with this m-RNA were precipitated with specific antibodies and identified by their electrophoretic mobilities on SDS-acrylamide gels.     

Development of a tRNA-dependent in vitro translation system

A method is described for depleting rabbit reticulocyte lysates and wheat germ extracts of endogenous tRNAs by affinity chromatography using a matrix generated by coupling ethanolamine to epoxy-activated Sepharose 6B. Greater than 90% depletion of tRNA is achieved with the result that translation becomes in effect absolutely dependent on added tRNA. This depletion procedure should prove very useful for studying the influence of tRNA concentration, and the spectrum of the tRNA population, on recoding events such as programmed frameshifting and readthrough of termination codons.     

Characterization of the size and 5' cap of messenger RNA encoding neurophysin precursors

The coding activity of bovine hypothalamic poly A+ mRNA for neurophysin I and II immunoreactive proteins was characterized with respect to size and 5' cap. The mRNA was fractionated by methylmercuric hydroxide agarose gel electrophoresis and subsequently translated in vitro in rabbit reticulocyte lysates. Alternatively, mRNA was fractionated by gel exclusion HPLC and translated in wheat germ extracts. Immunoprecipitated translation products were analyzed by gel exclusion HPLC. Neurophysin-immunospecific protein of approximately 17,000 daltons, the size expected for the neuropeptide hormone-neurophysin precursors, was encoded by mRNA species of two size classes. The smaller class of mRNA's was of the size expected from the size of the precursor proteins. The larger class was 5-10 times larger. The low K+ concentration optimum for translation of unfractionated mRNA encoding neurophysin I immunoreactive proteins and the inability of a cap analogue to inhibit this translation suggest that mRNA species encoding neurophysin I-immunoreactive translation products are incompletely capped. By contrast, the mRNA encoding neurophysin II-immunoreactive products appear to contain a normal cap structure.     

Signal recognition particle mediates a transient elongation arrest of preprolactin in reticulocyte lysate

Signal recognition particle (SRP) is a ribonucleoprotein that functions in the targeting of ribosomes synthesizing presecretory proteins to the ER. SRP binds to the signal sequence as it emerges from the ribosome, and in wheat germ extracts, arrests further elongation. The translation arrest is released when SRP interacts with its receptor on the ER membrane. We show that the delay of elongation mediated by SRP is not unique to wheat germ translation extracts. Addition of mammalian SRP to reticulocyte lysates resulted in a delay of preprolactin synthesis due to increased ribosome pausing at specific sites on preprolactin mRNA. Addition of canine pancreatic microsomal membranes to reticulocyte lysates resulted in an acceleration of preprolactin synthesis, suggesting that the endogenous SRP present in the reticulocyte lysate also delays synthesis of secretory proteins.     

Signal recognition particle (SRP) does not mediate a translational arrest of nascent secretory proteins in mammalian cell-free systems.

The ability of the signal recognition particle (SRP) to induce translational arrests in wheat germ, reticulocyte and HeLa cell-free translation systems was examined. In accordance with published data, SRP caused a complete arrest of secretory protein (IgG light chain) translation in wheat germ. In contrast, SRP had no effect on translation in either reticulocyte or HeLa cell lysates, even at 5-fold higher SRP levels than needed for complete arrest in wheat germ. The existence of a "docking-protein-like" releasing activity was ruled out, in the case of reticulocyte lysate, by experiments in which reticulocyte subfractions were added to blocked translations in wheat germ. In the absence of additional evidence to the contrary, it seems as if the translational arrest is peculiar to the wheat germ cell-free system.     

Dianthin 30 and 32 from Dianthus caryophyllus: Two inhibitors of plant protein synthesis and their tissue distribution

The ability of dianthin 30 and 32 to inhibit translation in reticulocyte lysates and wheat germ extracts has been studied. The dianthins, like the A chains of the toxins abrin and ricin, inhibited protein synthesis in reticulocyte lysates by inactivating the 60S ribosomal subunit. They also inhibited, at concentrations of 10 ng/ml, a protein-synthesizing system from wheat germ and inactivated isolated wheat germ ribosomes. The concentration of the dianthins in different tissues of the plant was determined by rocket immunoelectrophoresis and by the dianthin's ability to inhibit protein synthesis. Dianthin 32 was found only in the leaves and in growing shoots, while dianthin 30 was present throughout the plant. In the older parts of the plant, the dianthins constituted between 1 and 3% of the total extractable protein whereas much less was found in the younger parts.     

Translation of partially purified poly(A)+ protamine messenger RNA components in wheat germ and rabbit reticulocyte cell-free systems. Evidence for translational control mechanisms.

The coding properties of individual poly(A)+ protamine mRNA subcomponents have been explored by analysis of their translation products in two different cell-free protein synthesis systems, the rabbit reticulocyte lysate and the wheat germ S-30, both of which can translate total protamine mRNA. The products synthesized in the reticulocyte lysate in the presence of total poly(A)+ PmRNA consisted mainly of protamine components CII and CIII with component CI only a minor product. However, in the wheat germ S-30, the same mRNA preparation supported the synthesis of all three protamine components, in approximately equal amounts. In addition a new polypeptide, a putative fourth protamine component, labelled CO, was also synthesized. The translation products of subcomponents of poly(A)+ PmRNA separated as individual bands on polyacrylamide gels were similarly analyzed and it was shown that each of the isolated poly(A)+ PmRNA species could stimulate the incorporation of [3H]arginine into protamines in both translational systems. Although each mRNA band stimulated the synthesis of one particular protamine polypeptide predominantly in a given cell-free system, the same RNA preparation was found to direct preferentially the synthesis of a different protamine component in the second cell-free system. The products synthesized in the rabbit reticulocyte lysate in the presence of the individual mRNA species still showed component CI present as a minor product.     

Role of cytoplasmic mRNP proteins in translation.

Polyribosomal and free mRNPs from rabbit reticulocytes were isolated and characterized. Translation of mRNPs was studied in the rabbit reticulocyte and wheat germ cell-free systems. Both classes of mRNPs were active in rabbit reticulocyte lysates. However, considerable differences between mRNPs and mRNA have been revealed. High concentrations of mRNA in the form of mRNP did not inhibit protein biosynthesis, whereas the same amounts of deproteinized mRNA caused inhibition of this process. Polyribosomal mRNPs and deproteinized mRNA, but not free mRNPs, are active in the wheat germ cell-free translation system. Translation of free mRNPs in this system can be restored by addition of 0.5 M KCl-wash of rabbit reticulocyte ribosomes. These results suggest the existence of a special repressor/activator regulatory system which controls mRNA distribution between free mRNPs and polyribosomes in rabbit reticulocytes. This regulatory system should include: i) a translation repressor associated with mRNA within free mRNPs, preventing its translation; and ii) a translation activator associated with ribosomes, overcoming the effect of the repressor. Both classes of cytoplasmic mRNPs contain a major 50 kDa protein (p50). The content of this protein per mol of mRNA in free mRNPs is twice as much as in polyribosomal ones. The method of p50 isolation has been developed and some properties of this protein were investigated. It has been shown that small amounts of p50 stimulate, whereas high amounts inhibit mRNA translation. We suggest that p50 has a dual role in protein biosynthesis. In polyribosomal mRNPs (p50:mRNA approximately 2:1, mol/mol), this protein promotes the translation process.(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of potassium salt concentration and temperature on inhibition of mRNA translation by 7-methylguanosine5'-monophosphate.

The effect of 7-methylguanosine 5'-monophosphate (pm7G) on mRNA translation was examined in the wheat germ and rabbit reticulocyte cell-free systems. Differences between the two cell extracts with respect to inhibition of translation by pm7G can be attributed to different conditions commonly used for in vitro protein synthesis. Inhibition of globin mRNA translation by pm7G is strongly influenced by the concentration of potassium salt and to a lesser extent by incubation temperature. The effectiveness of the inhibitor increases with potassium salt concentration and diminishes with increasing temperature. Translation is inhibited by pm7G at physiological K+ concentration in both cell-free systems in that only the rate of binding of mRNA to ribosomes is affected by the inhibitor, not the extent of binding. Translation of different capped mRNAs is affected differently by pm7G, but this appears to be property of the mRNA rather than the translation system. These results indicate that while the 5'-terminal cap structure may be more important for translation of some mRNA's than others, this structure functions in translation of capped mRNAs in all types of cells.     

Synthesis and translation of mRNA containing 5'-terminal 7-ethylguanosine cap.

Reovirus mRNA synthesis in vitro by the virion-associated RNA polymerase was only slightly (10 to 15%) diminished in the presence of 2 mM S-adenosylethionine. However, methyl group transfer from S-adenosylmethionine (0.05 mM) to the 5'-terminal cap structure, m7GpppGm in this mRNA was markedly inhibited (80%) under these conditions. Replacement of S-adenosylmethionine by S-adenosylethionine (5 mM) yielded mRNAs containing mainly (70%) 5'-terminal e7GpppGe and e7GpppG, but some of the products were unalkylated (5'-GpppG, ppG). The ethylated mRNAs, but not the unalkylated molecules, bound to wheat germ ribosomes and were translated essentially as well as the corresponding methylated mRNAs in wheat germ extracts and in nuclease-treated rabbit reticulocyte lysates. Protein synthesis directed by ethylated mRNAs in wheat germ extract was 80% decreased by 0.1 mM m7GMP. Under conditions of limited initiation, methylated mRNA bound to wheat germ ribosomes preferentially as compared to ethylated mRNA. The results document for the first time the synthesis of ethylated mRNA and support the hypothesis that N7-alkylation of the 5'-guanosine in caps, rather than methylation itself, is important for the enhancing effect of cap on the initiation of eukaryotic protein synthesis.     

Translational activity of mouse protamine 1 messenger ribonucleoprotein particles in the reticulocyte and wheat germ cell-free translation systems

Protamine 1 mRNAs are inactivated by a block to the initiation of translation in early spermatids and are translationally active in late spermatids in mice. To determine whether translation of protamine 1 mRNAs is inhibited by a protein repressor, the translational activity of ribonucleoprotein particles and deproteinized RNAs were compared in the reticulocyte and wheat germ cell-free translation lysates. To isolate RNPs, cytoplasmic extracts of total testes were fractionated by large-pore gel filtration chromatography. Ribonucleoprotein particles in the excluded fractions stimulated synthesis of radiolabeled translation products for protamine 1 about twofold less effectively than deproteinized RNAs in the reticulocyte lysate, but were inactive in the wheat germ lysate. The ability of translationally repressed protamine 1 ribonucleoprotein particles to form initiation complexes with 80S ribosomes in the reticulocyte lysate was also measured. Protamine 1 ribonucleoprotein particles isolated by gel filtration and in unfractionated cytoplasmic extracts of early spermatids were nearly as active in forming initiation complexes as deproteinized mRNAs. The isolation of ribonucleoprotein particles in buffers of varying ionic strength, protease inhibitors, and several other variables had no major effect on the ability of protamine 1 ribonucleoprotein particles to form initiation complexes in the reticulocyte lysate. These results can be explained by artifacts in the isolation or assay of ribonucleoprotein particles or by postulating that protamine 1 mRNAs are inactivated by a mechanism that does not involve protein repressors, such as sequestration. © 1994 Wiley-Liss, Inc.     

Synthesis of an oligonucleotide inhibitor of protein synthesis in rabbit reticulocyte lysates analogous to that formed in extracts from interferon-treated cells.

A heat-stable, low-molecular-weight inhibitor of protein synthesis is formed on incubation of haemin-supplemented rabbit reticulocyte lysates with ATP and double-stranded RNA (dsRNA). It inhibits the translation of both added encephalomyocarditis virus RNA (EMC RNA) and endogeneous messenger RNA in reticulocyte lysates and mouse L-cell extracts. The enzyme responsible for the synthesis of the inhibitor binds to dsRNA and can be purified on a column of poly(I).poly (C) bound to an inert support. The highly purified enzyme in its stable column-bound state can be conveniently employed to synthesise the inhibitor and to label it with [3H]ATP, or [alpha-32P]ATP or [gamma-32P]ATP as substrate. The radioactive inhibitor synthesised in this way with material from rabbit reticulocyte lysates shows the same spectrum of resistance and sensitivity to alkali and a variety of enzymes as corresponding material similarly synthesised with extracts from interferon-treated mouse L-cells. The inhibitors from the two systems have comparable absorbance spectra, are chromatographically and electrophoretically indistinguishable and are apparently identical in specific activity in the inhibition of protein synthesis in the cell-free system. The inhibitor is also formed on inhibition of protein synthesis by dsRNA in reticulocyte lysates. On comparison of the spectrum of polypeptide products synthesised in response to EMC RNA in the reticulocyte lysate, the effects of the inhibitor or dsRNA were similar: a distinctly different effect was obtained with the haemin-controlled repressor, a known inhibitor of initiation. The significance of these results with respect to the mechanism of action of the inhibitor and its role in the inhibition observed in response to dsRNA is discussed.