Analogue inhibitor of 2-5A action: effect on the interferon-mediated inhibition of encephalomyocarditis virus replication.

Chemically synthesised CH3Sp(A2'p)2A2'pp3'OCH3 has been used to assess the importance of the ppp(A2'p)nA (n greater than or equal to 2: 2-5A) system in the antiviral action of interferon against encephalomyocarditis virus (EMC). It inhibits activation of the 2-5A-dependent RNase by 2-5A in intact mouse L929 cells and cell-free systems. In interferon-treated, EMC-infected L929 cells it inhibits 2-5A-mediated rRNA cleavage and partially restores EMC RNA synthesis and virus yield. Activation of the 2-5A-dependent RNase must, therefore, play some part in interferon action against the growth of EMC virus in such cells.     

Synthesis of (2'-5')oligoadenylate and activation of an endoribonuclease in interferon-treated HeLa cells infected with reovirus.

Treatment with interferon protected HeLa cells from infection with reovirus. This virus apparently activated an antiviral mechanism that was detected by the presence of (2'-5')oligoadenylate [(2'-5')An] in intact cells. The (2'-5')An was previously shown to activate an endoribonuclease, RNase L. We measured (2'-5')An by a sensitive competition-binding assay in cells infected at different multiplicities and for different lengths of time. Nanomolar concentrations of (2'-5')An were detected in cells infected at a multiplicity of greater than 5 after 2 h of infection, the time at which the infecting virions were uncoated. The level of (2'-5')An increased up to 6 h postinfection but declined afterward. To establish whether viral mRNAs were cleaved by RNase L, we analyzed the RNA extracted from infected cells by a highly specific hybridization assay on Northern blots. Full-sized reovirus mRNAs were detected in control infected cells, but not in interferon-treated infected cells, at 6 h postinfection. At this time, a nuclease activity could be detected in these cells by demonstration of cleavage of rRNA, degradation of cellular mRNA, and polysome breakdown in the presence of emetine. Since this inhibitor freezes ribosomes, cleavage of mRNA between ribosomes could only be accounted for by an endonuclease, presumably RNase L.     

Methyl group analysis of virion-associated high-molecular-weight RNA synthesized in vitro by purified vaccinia virus.

The methylation pattern of virion-associated high-molecular-weight RNA synthesized in vitro by purified vaccinia virus has been determined. Analysis of purified high-molecular-weight RNA synthesized with S-[methyl-3H]-adenosylmethionine and alpha[32P]UTP as precursors gave the following results. (i) Eessentially all molecules contained blocked and methylated structures of the type m7G(5')ppp(5')Gm and m7G(5')ppp(5')Am. (ii) There was no detectable methylation at internal sites. (iii) Under several different conditions of synthesis, the ratio of molecules containing m7G(5')ppp(5')Gm to those containing m7G(5')ppp(5')Am was imilar for both the virion-associated high-molecular-weight RNA and the virion-released 8-12S mRNA.     

Novel 2',5'-oligoadenylates synthesized in interferon-treated, vaccinia virus-infected cells.

2-5A[ppp(A2'p)nA] and related materials accumulate to greater than micromolar concentrations in vaccinia virus-infected HeLa cells and in interferon-treated, vaccinia-infected HeLa, CV1, and L929 cells even when virus replication is not inhibited. A variably complex mixture of authentic 2-5A (n = 2 to 4), nonphosphorylated cores [(A2'p)nA; n = 2 to 5], and additional compounds of unknown structure was observed.     

mRNA methylation and protein synthesis in extracts from embryos of brine shrimp, Artemia salina.

Cell-free protein-synthesizing extracts prepared from the brine shrimp, Artemia salina, translate methylated mRNAs. Reovirus unmethylated mRNA is inactive as a template when methylation is prevented by the inhibitor, S-adenosylhomocysteine. A salina mRNAs from both undeveloped and developed embryos contain 5'-terminal 7-methylguanosine in an inverted 5'-5' linkage through three phosphate groups to the rest of the polynucleotide chain. Removal of the 7-methylguanosine by beta elimination converts the mRNA from an active form to one inactive in protein synthesis in extracts of A. salina or wheat germ. Extracts of undeveloped and developed embryos methylate reovirus unmethylated mRNA at the 5' ends to form 5'-terminal structures of the type, m7G(5')ppp(5')G and m7G(5')ppp(5')Gm.     

Maintenance of protein synthesis in spite of mRNA breakdown in interferon-treated HeLa cells infected with reovirus.

Interferon induces the synthesis of an enzyme which synthesizes 2',5'-oligoadenylate [2',5'-oligo(A)] when activated by double-stranded RNA. The 2',5'-oligo(A) in turn activates an endonuclease (RNase L). Concentrations of 2',5'-oligo(A) sufficient to activate RNase L are formed in interferon-treated HeLa cells infected with reovirus, and a large fraction of cellular mRNA is degraded (T. W. Nilsen, P. A. Maroney, and C. Baglioni, J. Virol. 42:1039-1045, 1982). We report here that in spite of this mRNA degradation, protein synthesis was not significantly inhibited in these cells. When mRNA synthesis was inhibited with 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole, protein synthesis was markedly decreased, as shown by reduced incorporation of labeled amino acids and a decrease in polyribosomes. This suggested that the turnover of mRNA could be compensated for by increased production of mRNA. The relative concentration of specific mRNAs was measured with cloned cDNA probes. The amount of these mRNAs present in control cells was comparable to that in interferon-treated cells infected with reovirus, whereas it was decreased in the latter cells treated with 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole.     

Degradation of rRNA in interferon-treated vaccinia virus-infected cells

In interferon-treated mouse L cells, following infection with a DNA-containing virus, vaccinia, synthesis of unique 2'-5'-linked oligonucleotides of the general formula ppp5'A2'(p5'A)n, abbreviated as 2-5A, was detected by competition radiobinding assay. In addition, degradation of rRNA into discrete and characteristic products, similar to those produced by 2-5A-activated endonuclease, was observed. The degradation of rRNA may represent a significant component of antiviral action of interferon in vaccinia virus-infected cells.     

Characterization of 5'-terminal methylation of human alpha- and beta-globin mRNAs

After incubating peripheral blood of various anemic individuals with [methyl-3H]methionine, 5'-terminal cap structures and the sequential methylation of human globin mRNAs were determined. Human alpha- and beta-globin mRNAs have the same methylated nucleotides at their 5' ends as the alpha- and beta-globin mRNAs of mouse and rabbit: m7G(5')ppp(5')[m6Am/Am]pCmp. The order of methyl group addition to human globin mRNA is also similar to that of mouse globin mRNA in that methylation of the 5'-terminal guanosine and the ribose of adenosine occurs earlier than that of the base of adenosine and the ribose of cytidine. Thus, both the cap structures and the order of methylation are conserved in the globin mRNAs of these species, suggesting that variation in the structure of the 5' terminus of globin mRNAs may alter the function of these molecules.     

The ppp(A2'p)nA and protein kinase systems in wild-type and interferon-resistant Daudi cells

Daudi cells, a human lymphoblastoid line, are exceptionally sensitive to the growth inhibitory effects of interferon, 1 unit/ml being sufficient to inhibit cell growth. In addition, interferon treatment of these cells severely inhibits the incorporation of exogenous thymidine into DNA and causes cells to accumulate in the G1(G0) at the expense of the S phase of the cell cycle. The possible involvement of ppp(A2'p)nA(n = 2 to less than or equal to 4) in these effects has been investigated. No (less than 1 nM) ppp(A2'p)nA or (A2'p)nA or alternative products of the ppp(A2'p)nA synthetase [e.g. NAD (2'pA)2] were detected in interferon-treated cells. In addition no evidence was obtained for the occurrence of ppp(A2'p)nA-mediated ribosomal RNA cleavage in these cells even after several days of treatment with relatively high doses of interferon. A line of Daudi cells which is resistant to all three of the above effects of interferon was selected. The wild type and resistant lines were compared with respect to the ppp(A2'p)nA and interferon and double-stranded RNA (dsRNA)-mediated protein kinase systems. The resistant line was not receptor-negative as it responded to interferon by the production of elevated levels of the ppp(A2'p)nA synthetase similar to those observed in extracts from wild-type cells. There was no detectable difference between the lines in the levels of the (2'-5')phosphodiesterase responsible for the degradation of ppp(A2'p)nA. There was, however, about a twofold increase in the ppp(A2'p)nA-dependent endoribonuclease activity in response to interferon with extracts from the wild-type but not the resistant cells. In addition, although the dsRNA-dependent protein kinase activity increased in both types of cell there was a striking reduction in the level of protein phosphorylation in general in response to interferon with material from the wild-type but not the resistant cells.     

Specific protein phosphorylation in interferon-treated uninfected and virus-infected mouse L929 cells: enhancement by double-stranded RNA.

The enhanced phosphorylation of specific protein(s) observed in extracts from interferon-treated cells (in the presence of ATP and double-stranded [ds] RNA) was also seen in intact mouse L929 cells upon treatment with dsRNA, polyriboinosinic.polyribocytidylic acid [poly(rI.rC)] or reovirus dsRNA, using 32Pi as radiolabel. Labeling of a 65,000-dalton protein(s) with 32P was greatly increased in interferon-treated cells in the presence of added dsRNA, suggesting that the expression in vivo of the kinase activity involved is regulated by dsRNA. This was used as a test system to investigate whether the activity of interferon-induced enzyme(s) is stimulated following virus infection, possibly owing to the accumulation of dsRNA. No obvious increase in 32P-labeling of 65,000-dalton protein(s) was observed upon infection of interferon-treated cells with mengovirus or vesicular stomatitis virus. A basal level of 32P-labeling of the 65,000-dalton protein(s) was detected in interferon-treated cells in the absence of added dsRNA, indicating a basal level of expression of the kinase activity involved. The possible implications of these results are discussed.     

Impairment of reovirus mRNA methylation in extracts of interferon-treated Ehrilich ascites tumor cells: further characteristics of the phenomenon.

We reported earlier that the methylation of unmethylated reovirus mRNA (reo mRNAU) by the cellular methylating enzymes is impaired in extracts of uninfected, interferon-treated Ehrilich ascites tumor cells (S30INT). We find now that after the methylation of reo mRNAU has stopped in S30INT, the RNA can be reisolated and further methylated in an extract of control cells (S30C). Thus the impairment of methylation in S30INT cannot be due to cleavage or irreversible inactivation of reo mRNAU. Freshly added reo mRNAU can be methylated in S30INT in which the methylation of previously added reo mRNAU has stopped. This indicates that the impairment is due to the depletion of S-adenosylme thionine (the methyl donor), the accumulation of S-adenosylhomocysteine (an inhibitor of methylation), or the irreversible inactivation of reo mRNAU. Freshly added reo mRNAU can be methylated in S30INT in which the methylation of previously added reo mRNAU has stopped. This indicates that the impairment is not due to the depletion of S-adenosylmethionine (the methyl donor), the accumulation of S-adenoxylhomocysteine (an inhibitor of methylation), or the irreversible inactivation of the methylating enzymes. It may be due, however, to the unavailability of reo mRNAU for methylation. The extent of the impairment of reo mRNAU methylation in S30INT decreases with an increasing concentration of reo mRNAU but is not affected by added poly (U), ribosomal RNA, or encephalomyocarditis virus RNA (an mRNA that is probably not capped or methylated at its 5' end). The methylation of reo mRNAU is also impaired in an extract from cells that have not been treated with interferon but with the interferon inducer poly(I) - poly(C). The inhibitor is apparently a macromolecule that is inactivated during incubation. It decreases the methylation at the 7 position of the 5' terminal guanylate residue. In vitro, the rate of reo mRNA synthesis by reovirus cores in the presence of S30INT is the same as in the presence of S30C. However, the methylation of the de novo synthesized reo mRNA by the core-associated methylating enzyme(s) in vitro is inhibited by S30INT but not by S30C. The relevance of these phenomena to the inhibition of reovirus replication in interferon-treated cells remains to be established.     

Two methyltransferase activities in the purified virions of vesicular stomatitis virus.

In addition to an RNA-dependent RNA polymerase, purified vesicular stomatitis virus contains a methyltransferase activity which transfers the methyl group from the methyl donor, S-adenosyl-L-methionine, to two positions in the 5'-terminal capped structure of the nascent mRNA's synthesized in vitro as 7mG-(5)'ppp(5')Apm... In the present study it is shown that two distinct methyltransferase activities are discernible in the purified virus. The in vitro concentrations of the methyl donor specify the number and location of the methyl groups transferred to the capped 5'-termini of VSV mRNA's. Limited concentrations of the methyl donor result in a single methylation of the penultimate base in the 2'-hydroxyl position, that is, G(5')ppp(5')Apm..., whereas saturating concentrations of the methyl donor methylate the blocking guanosine residue at the 7-position, resulting in the dimethylated cap, 7mG(5')ppp(5')Apm... Pulse-chase experiments demonstrate that the monomethylated cap structure is the precursor substrate for the dimethylated cap. In this respect, vesicular stomatitis virus system is quite distinct from the vaccinia and reovirus systems. Virus purified from different host cells including hamster, mouse, and human contain both methyltransferase activities. The mRNA's containing monomethylated capped structures are poor templates for protein synthesis in vitro.     

"Cap" sequences in poly(A)-rich RNA from dry wheat embryos

Although template-active RNA in dry seeds and embryos has attracted widespread interest, there have been no published reports about 5'-terminal "capping" sequences in such RNA. Boro[3H]hydride labeling of periodate-oxidized termini and high performance liquid chromatography of cap oligonucleotides have been used to compare terminal sequences in poly(A)-rich RNA from dry and germinating embryos. As is the case in germinating embryos, poly(A)-rich RNA from dry embryos contains only "type 0" cap sequences, i.e., m7G(5')ppp(5')N, in which m7G is the 7-methylguanosine cap and N is any of the classical ribonucleosides: adenosine (A), guanosine (G), cytidine (C),a nd uridine (U). Striking differences between the cell-free translational capacities of bulk messenger RNA (mRNA) populations from dry and germinating embryos are not reflected in signal differences in their proportions of "type 0" cap structures: in general, there is approximately 40% m7G(5')ppp(5')A, with roughly equivalent amounts of m7G(5')ppp(5')G and m7G(5')ppp(5')C accounting for most of the remaining sequences. The findings with mRNA from dry plant embryos serve to emphasize interesting differences between patterns of methylation in the capped and uncapped RNA molecules in higher plants and animals; the differences have not been previously noted in the literature and are the subject of brief comment in this paper.     

Inhibitory effect of methylated derivatives of guanylic acid for protein synthesis with reference to the functional structure of the 5'-'cap' in viral messenger RNA.

Guanylic acid modified variously with methyl groups on base or sugar moieties were synthesized chemically and their inhibitory effects on protein synthesis were tesetd in a wheat germ cell-free system using mRNAs from cytoplasmic polyhedrosis virus and tobacco mosaic virus. The confronting dinucleotide m7G5' pppA that corresponds to the most simple 'cap' structure of an eukaryotic mRNA is a strong inhibitor of protein synthesis, but non-methylated G5' pppA or G5' ppA is not inhibitory. The strong inhibitory effect is observed only by 7-methylguanylic acid (pm7G). Among 11 derivatives of pG, the most effective inhibitors are methylated at the 7-position. Further methylation at the other position sometimes cancels the inhibitory effect. Although pm7G carries a positively charged base, other nucleotides which carry a plus charged base (1-methyladenylic acid and 2-methylthio-7-methylinosinic acid) were not inhibitory. Thus, methylation at the 7-position on guanylic acid is specifically required for the inhibitory effect. Addition of pm7G was inhibitory for the formation of the initiation complex for eukaryotic protein synthesis. These results suggest that the 'cap' component containing 7-methylguanylic acid in viral mRNA participates during protein synthesis, especially in its initial steps. Protein synthesis in a bacterial cell-free system was not inhibited by addition of m7GpppA or pm7G when either TMV RNA or phage MS2 RNA was used as an mRNA.     

Activation of the ppp(A2'p)nA system in interferon-treated, herpes simplex virus-infected cells and evidence for novel inhibitors of the ppp(A2'p)nA-dependent RNase

High doses (100-1000 reference units/ml) of alpha or beta interferons are required to inhibit the growth of herpes simplex virus types I and II (HSV-I and HSV-II) in human Chang cells. In contrast, much lower doses (10-100 reference units/ml) of interferon inhibit replication of encephalomyocarditis virus (EMCV) in these cells. In the HSV-infected cells these high doses did not prevent the virus-induced shut off of host protein synthesis. The interferons were more effective in reducing the virus yield of HSV-I than of HSV-II. At the above concentrations they inhibited HSV-I protein synthesis but had little apparent effect on that of HSV-II. Similar amounts of (2'-5')oligo(adenylate)s were synthesised in response to HSV-I, HSV-II and EMCV infection of Chang cells after treatment with alpha or beta interferons. No (i.e. less than 1 nM) (2'-5')oligo(adenylate)s were found in control cells or on virus infection alone. Only low levels of ppp(A2'p)nA-specific rRNA cleavage were observed in the interferon-treated HSV-infected cells. In contrast, high levels were found in response to EMCV, despite the fact that ppp(A2'p)nA accumulated to similar levels with each of the three viruses in these cells. High-performance liquid chromatographic analysis of material from interferon-treated Chang cells 18 h after infection with HSV-I or HSV-II, combined with radiobinding, radioimmune and rRNA cleavage assays, confirmed the presence of ppp(A2'p)2A and ppp(A2'p)3A at greater than nanomolar concentration. In addition, apparently equivalent amounts of two other putative (2'-5')oligo(adenylate) derivatives which compete in the radiobinding and radioimmune assays, were present. These compounds were only weak activators of the ppp(A2'p)nA-dependent RNase and under appropriate conditions were capable of inhibiting the activation of this RNase by authentic ppp(A2'p)nA. The presence of these potentially inhibitory compounds provides a possible explanation for the relatively low levels of activation of the ppp(A2'p)nA-dependent RNase in interferon-treated, HSV-infected Chang cells.     

Methylated constituents of Aedes albopictus poly (A)-containing messenger RNA.

Poly (A)-containing mRNA prepared from cultured mosquito (Aedes albopictus) cells was found to contain methylated 5'-terminal "caps" as well as internal m6A residues. Both type I [m7G(5')ppp(5')Xmp] and type II [m7G(5')ppp(5')XmpYmp] caps were present, at molar ratio of ca five to one. All four common RNA bases were represented in the second position (Xm) of the caps, adenine being the most abundant and N6-methyladenine being absent. The four bases were also represented in the third position (Ym), but here uracil was the predominant base. There was approximately one internal m6A residue for every three caps. These studies demonstrate that mRNA from an invertebrate source can have a methylation pattern comparable with that of mammalian cells in it complexity.     

Detection in HeLa cell extracts of a 7-methyl guanosine specific enzyme activity that cleaves m7GpppNm.

Extracts prepared from HeLa cells contain an enzymatic activity which cleaves m7G(5')ppp(5')Gm to m7pG and ppGm. The activity exhibits a high degree of substrate specificity and does not cleave G(5')ppp(5')G or the ring opened derivative of m7GpppGm which has lost the positive charge from the N7 position of m7G. m7GpppGm as the 5' terminal structure of intact reovirus mRNA is resistant to attack by the pyrophosphatase activity, but becomes partially sensitive in the 5' terminal fragment consisting of 7-10 nucleotides derived from the same mRNA by T1 RNAase digestion. m7G(5')ppp(5')GmpCp is completely sensitive to cleavage resulting in the release of m7pG without generation of m7GpppGm as an intermediate. These results establish the existence of a 7-methyl guanosine specific pyrophosphatase activity in HeLa cells.     

Inhibition of protein synthesis by the cordycepin analog of (2'-5')ppp(Ap)nA, (2'-5')ppp(3'dAp)n3'dA, in intact mammalian cells

The introduction of the cordycepin analog of (2'-5')An, (2'-5')ppp(3'dAp)n3'dA [referred to as (2'-5')p33'dAn], into mouse L929 cells and cultured human fibroblasts resulted in a dose-dependent inhibition of protein synthesis which was comparable to the inhibition observed by (2'-5')ppp(Ap)nA [referred to as (2'-5')p3An]. The inhibition of protein synthesis by (2'-5')p33'dAn was much more persistent than that of the naturally occurring (2'-5')p3An following prolonged incubation of cells. Furthermore, the (2'-5')p3An was cytotoxic to mammalian cells in culture, whereas the (2'-5')p33'dAn was not.