Hydrolysis of some mRNA 5'-cap analogs catalyzed by the human Fhit protein--and lupin ApppA hydrolases.

Hydrolysis of the following four cap analogs: m7G(5')ppp(5')A, m7G(5')ppp(5')m6A, m7G(5')ppp(5')m2'OG and m7G(5')ppp(5')2'dG catalyzed by homogeneous human Fhit protein and yellow lupin Ap3A hydrolase has been investigated. The hydrolysis products were identified by HPLC analysis and the K(m) and Vmax values calculated based on the data obtained by the fluorimetric method.     

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.     

Detection of human autoantibodies specific for 5'-m7GMP and m7G(5')ppp(5')N

An enzyme-linked immunosorbent assay was utilized for the detection of spontaneously occurring antibodies with apparent specificities for m7G, 5'-m7GMP, and m7G(5')ppp(5')C. From the sera of 50 patients containing anti-nuclear antibodies, 48 (96%) possessed antibodies which bound to one or more immobilized nucleoside-BSA antigens (A-, G-, C-, U-, and T-BSA). Additionally, 8 (16%) of these sera contained immunoglobulins that reacted with m7G-BSA antigen. In these latter sera, soluble competitors such as m7G, 5'm7GMP, and m7G(5')ppp(5')C (but not 5'-AMP, -GMP, -CMP, -UMP, and -TMP or m1G and m22G) effectively inhibited antibody-binding to immobilized m7G-BSA. These results indicate the existence of spontaneously occurring anti-m7G antibodies in autoimmune diseases which are distinct from anti-G antibody populations.     

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.     

Influence of 5'-terminal cap structure on the initiation of translation of vaccinia virus mRNA

The ability of methylated vaccinia virus mRNA to bind to ribosomes derived from wheat germ of rabbit reticulocyte lysates has been studied after beta elimination, to remove the 5'-terminal m7G, and after "recapping" of beta-eliminated mRNA molecules using guanylyltransferase.guanine-7-methyltransferase complex from vaccinia virions. Removal of m7G from the mRNA results in significant loss of ability to bind to ribosomes and to simulate protein synthesis in vitro. Readdition of m7G, but not of unmethylated guanosine to the 5' end results in recovery of both of these functions. To evaluate the role of 2'-O-methylation of the penultimate ribonucleoside, mRNAs containing m7G-(5')pppA- and m7G(5')pppG- as well as m7G(5')pppAm- and m7G(5')pppGm- ends were synthesized in vitro at limiting S-adenosylmethionine concentrations by vaccinia virus cores. By comparing the cap sequences of ribosome-bound and unbound mRNAs, we concluded that 2'-O-methylation has at most a minor effect compared to that of m7G upon ribosome binding under in vitro conditions. Only at high input mRNA concentrations, at which competition might occur, was there some ribodomal enrichment of mRNAs containing a specific terminal structure, namely m7G(5')pppAm-.     

Antigody-nucleic acid complexes. Inhibition of translation of silkmoth chorion messenger ribonucleic acid with antibodies specific for 7-methylguanosine.

Antibodies specific for 7-methylguanosine (m7G) were evaluated for their ability to inhibit the translation of chorion mRNA in a wheat germ, cell-free amino acid incorporating system. Results obtained with antibody concentrations of 0.5--1.5 microM revealed dose-dependent inhibition of [3H]-labeled amino acid incorporation into acid-insoluble radioactivity. Inhibition of translation was attributed to the interaction of anti-m7G antibodies with the 5' termini of chorion mRNAs on the basis that (a) anti-m7G antibodies coupled to Sepharose (anti-m7G-Sepharose) immunospecifically retained 5'-terminal cap structures of chorion mRNAs, i.e., m7G (5')ppp(5')Nm, (b) significant inhibition of translation required a 2-h preincubation of anti-m7G antibodies with mRNA, and (c) similar preincubation periods with anti-m7G antibodies in the presence of the competing nucleoside hapten (m7G) obviated the inhibitory effect of the antibody. The nature of the anti-m7G antibody-mRNA complex was examined by digesting chorion mRNA with nuclease P1 before (predigested) and after (postdigested) immunospecific adsorption to anti-m7G-Sepharose adsorbent. Whereas predigested preparations yielded a single cap structure of the type m7G(5')ppp(5')N, the predominating cap in the postdigested sample was m7G(5')ppp(5')NpNpN. These latter data revealed that the nucleotide sequence adjacent to the cap was not significantly masked by the antibody and suggest the utility of anti-m7G antibody as a site-specific probe.     

Characterization of the m7G(5')pppN-pyrophosphatase activity from HeLa cells.

The m7(G(5')pppN-pyrophosphatase activity previously detected in HeLa cells has been further characterized. Results from DEAE-cellulose column chromatography and polyacrylamide gel electrophoresis under nondenaturing conditions revealed only one enzyme activity in HeLa cell extracts which was capable of selectively hydrolyzing m7G(5')pppN to yield m7pG + ppN (where N = 2'-O-methylated or unmethylated ribonucleosides or oligonucleotides of up to 8 to 10 nucleosides in length). The majority (approximately 95%) of this activity was found in the cytoplasmic extract but appeared not to be associated with the lysosomal fraction. m7G(5')pppG was hydrolyzed by the partially purified enzyme in the absence of divalent cations at a pH optimum of 7.5 and a temperature optimum of 45 degrees, with a Michaelis constant (Km) of 1.7 micronM. Sedimentation analysis and gel filtration showed the molecular weight of the enzyme as approximately 81,000. Inhibition studies testing the effect of a number of prospective substrates on the rate of m7G(5')pppG hydrolysis have confirmed the importance of the methyl moiety at the N7 position of guanosine for enzyme-substrate interaction. Furthermore, the trimethylated guanosine-containing 5'-terminal structure derived from U-2 RNA was found not to serve as substrate, and 7-methylinosine, unlike 7-methylguanosine, was not an effective inhibitor of m7G(5')pppG hydrolysis. Thus, the 2-amino group of the 7-methylguanosine portion of m7G(5')pppN is also important for substrate interaction with this specific pyrophosphatase.     

"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.     

5'-Terminal and internal methylated nucleotide sequences in HeLa cell mRNA.

The 5'-terminal oligonucleotides m7G(5')ppp(5')NmpNp and m7G(5')ppp(5')NmpNmpNp were isolated by DEAE-cellulose column chromatography after enzymatic digestion of 32P- or methyl-3H-labeled poly(A)" HeLa cell mRNA. The recovery of such oligonucleotides indicated that a high percentage of mRNA has blocked termini. The dimethylated nucleoside, N6, O2'-dimethyladenosine (m6Am), as well as the four common 2'-O-methylribonucleosides (Gm, Am, Um, Cm) were present in the second position linked through the triphosphate bridge to 7-methylguanosine (m7G) whereas little m6Am was in the third position. The only internal methylated nucleoside, N6-methyladenosine (m6A), was found exclusively as m6ApC and Apm6ApC after digestion with RNase A, T1, and alkaline phosphatase. Digestion with RNase A and alkaline phat pyrimidines are present in much smaller amounts or absent from this position. These results imply a considerable sequence specificity since there are thousands of different mRNA species in HeLa cells. Our studies are consistent with the following model of HeLa cell mRNA in which Nm may be m6Am, Gm, Cm, Um, or Am and one or more m6A residues are present at an unspecified internal location: m7G(5')ppp(5')Nm-(Nm)---(G or A)-m6A-C---(A)100-200A.     

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.     

5' nucleotide sequence of sindbis viral RNA.

The 5' sequence of Sindbis viral RNA is m (7)G(5') pppApUpGp...     

mRNA guanylyltransferase and mRNA (guanine-7-)-methyltransferase from vaccinia virions. Donor and acceptor substrate specificites.

Characterization of the donor and acceptor specificities of mRNA guanylyltransferase and mRNA (guanine-7-)-methyltransferase isolated from vaccinia virus cores has enabled us to discriminate between alternative reaction sequences leading to the formation of the 5'-terminal m7G(5')pppN-structure. The mRNA guanylyltransferase catalyzes the transfer of a residue of GMP from GTP to acceptors which possess a 5'-terminal diphosphate. A diphosphate-terminated polyribonucleotide is preferred to a mononucleoside diphosphate as an acceptor suggesting that the guanylyltransferase reaction occurs after initiation of RNA synthesis. Although all of the homopolyribonucleotides tested (pp(A)n, pp(G)n, pp(I)n, pp(U)n, and pp(C)n) are acceptors for the mRNA guanylyltransferase indicating lack of strict sequence specificity, those containing purines are preferred. Only GTP and dGTP are donors in the reaction; 7-methylguanosine (m7G) triphosphate specifically is not a donor indicating that guanylylation must precede guanine-7-methylation. The preferred acceptor of the mRNA (guanine-7-)-methyltransferase is the product of the guanylyltransferase reaction, a polyribonucleotide with the 5'-terminal sequence G(5')pppN-. The enzyme can also catalyze, but less efficiently methylation of the following: dinucleoside triphosphates with the structure G(5')pppN, GTP, dGTP, ITP, GDP, GMP, and guanosine. The enzyme will not catalyze the transfer of methyl groups to ATP, XTP, CTP, UTP, or to guanosine-containing compounds with phosphate groups in either positions 2' or 3' or in 3'-5' phosphodiester linkages. The latter specificity provides an explanation for the absence of internal 7-methylguanosine in mRNA. In the presence of PPi, the mRNA guanylyltransferase catalyzes the pyrophosphorolysis of the dinucleoside triphosphate G(5')pppA, but not of m7G(5')pppA. Since PPi is generated in the process of RNA chain elongation, stabilization of the 5'-terminal sequences of mRNA is afforded by guanine-7-methylation.     

Chemical synthesis of the 5'-terminal part bearing cap structure of messenger RNA of cytoplasmic polyhedrosis virus (CPV): m7G5'pppAmpG and m7G5'pppAmpGpU.

The 5'-terminal structures of mRNA bearing the so-called 'cap' from cytoplasmic polyhedrosis virus (CPV), m7G5' pppAmpG and m7G5' pppAmpGpU, were first chemically synthesized. S,S-Di(4-methoxyphenyl) N6-benzoyl-2'-O-methyladenosine 5'-phosphorodithioate ((ArS) 2pAbmz) was prepared by phosphorylation of the 5'-hydroxyl group of N6-benzoyl-2'-O-methyladenosine with S,S-di(4-methoxyphenyl) phosphorodithioate by TPS. By the triester approach using (ArS) 2pAbmz as starting material, the protected dinucleotide and trinucleotide bearing 5'-phosphate group were synthesized. The protective groups of the dinucleotide and trinucleotide were removed to obtain pAmpG and pAmpGpU, respectively. By the reaction of a capping agent ((PhS) ppm7G) with pAmpG and pAmpGpU in the presence of silver nitrate or iodine. The 5'-terminal structure of the messenger RNA strand of CPV which was labelled isotopically, was confirmed completely as m7G5' pppAmGpU by cochromatography with the materials chemically synthesized here.     

Modification of RNA by mRNA guanylyltransferase and mRNA (guanine-7-)methyltransferase from vaccinia virions.

A purified enzyme system isolated from vaccinia virus cores has been shown to modify the 5' termini of viral mRNA and synthetic poly(A) and poly(G) to form the structures m7G(5')pppA- and m7G(5')pppG-. The enzyme system has both guanylyltransferase and methyltransferase activities. The GTP:mRNA guanylyltransferase activity incorporates GMP into the 5' terminus via a 5'-5' triphosphate bond. The properties of this reaction are: (a) of the four nucleoside triphosphates only GTP is a donor, (b) mRNA with two phosphates at the 5' terminus is an acceptor while RNA with a single 5'-terminal phosphate is not, (c) Mg2+ is required, (d) the pH optimum is 7.8, (e) PP1 is a strong inhibitor, and (f) the reverse reaction, namely the formation of GTP from PP1 and RNA containing the 5'-terminal structure G(5')pppN-, readily occurs. The S-adenosylmethionine:mRNA(guanine-7-)methyltransferase activity catalyzes the methylation of the 5'-terminal guanosine. This reaction exhibits the following characteristics: (a) mRNA with the 5'-terminal sequences G(5')pppA- and G(5')pppG- are acceptors, (b) only position 7 of the terminal guanosine is methylated; internal or conventional 5'-terminal guanosine residues are not methylated, (c) the reaction is not dependent upon GTP or divalent cations, (d) optimal activity is observed in a broad pH range around neutrality, (e) the reaction is inhibited by S-adenosylhomocysteine. Both the guanylyltransferase and methyltransferase reactions exhibit bisubstrate kinetics and proceed via a sequential mechanism. The reactions may be summarized: (see article).     

Antibodies distinguishing between intact and alkali-hydrolyzed 7-methylguanosine

Antibodies specific for intact 7-methylguanosine (m7G) were induced in rabbits and mice by immunization with nucleoside-BSA or nucleoside-hemocyanin conjugates. Since m7G undergoes alkali-catalyzed hydrolytic fission of the purine ring, modifications were made in the procedure for conjugation of m7G to proteins. After periodate oxidation, m7G was incubated with protein at pH 9.1 at 4 degrees C for one hour during which the nucleoside was found to be stable. Reduction of the Schiff base was done with t-butylamine borane for 30 minutes, and the conjugated protein was isolated quickly by gel filtration at pH 7.2. Both rabbits and mice produced antibodies that readily distinguished between the intact and hydrolyzed m7G. Antibody specificity depended largely on the presence of an intact 7-substituted imidazole ring and some cross-reaction occurred with 7-methylinosine. A weaker reaction occurred with ribothymidine and thymidine. Mouse antibodies induced by m7G-hemocyanin showed the highest specificity. They also recognized m7G in the isolated mRNA cap structure m7G(5')ppp(5')A.