Growth regulation of melanoma cells by interferon and (2''-5'')oligoadenylate synthetase.

We report that endogenous, as well as exogenous, interferon (IFN) regulates the growth of human melanoma cells in culture. When antibodies directed against human fibroblast IFN were incorporated into the media of high-density cells stimulated to proliferate with serum, the cells entered the cell cycle earlier than did the controls. In investigating the biochemical basis for this finding, we have found that there is an inverse relationship between the (2'-5')oligoadenylate synthetase levels and the percentage of cells in S in untreated cultures. Upon IFN treatment, the relationship is obliterated and (2'-5')oligoadenylate synthetase levels increase throughout all phases of the cell cycle. This increase in enzyme levels correlates well with the decreased probability of the IFN-treated cells to cycle. These findings suggest a biological role for IFN as a negative growth factor for cells in culture.     

Isolation and characterization of an interferon-resistant cell line deficient in the induction of (2''-5'')oligoadenylate synthetase activity.

To screen for cells with different sensitivities to interferon (IFN), NIH 3T3 mouse fibroblasts were subcloned and examined for their response to IFN treatment. Of 30 clones tested, 2 appeared to be relatively resistant to IFN, since the replication of both vesicular stomatitis virus and mengovirus was not inhibited, even in the presence of 1,000 U of IFN per ml. One resistant (A10) and one sensitive (A5) clone were further analyzed. In both clones, murine leukemia virus replication was equally inhibited by IFN, indicating the presence of functional receptors for IFN in the resistant clone. Using the (2'-5')oligoadenylate (2-5A) radiobinding assay, we could demonstrate that both clones contained the RNase L protein. Furthermore, this enzyme appears to be active, since a similar reduction in the rate of protein synthesis was evident after the introduction of exogenous 2-5A to the cells. We also analyzed the activity of another enzyme in the 2-5A pathway, namely, 2-5A synthetase. In the sensitive cells (A5), the induction of enzyme activity was proportional to the IFN concentration used, reaching a maximum of more than a 10-fold increase over the background of untreated cells. However, little if any induction over the basal activity was observed in the resistant cells (A10) when similar doses of IFN were used. It is thus probable that the lack of induction of 2-5A synthetase activity by IFN in A10 cells is at least partly responsible for their relative resistance to IFN treatment.     

2''5'' oligoadenylate synthetase, an interferon induced enzyme: direct assay methods for the products, 2''5'' oligoadenylates and 2''5'' co-oligonucleotides.

The interferon induced enzyme 2'5' oligoadenylate synthetase produces 2'5' pppA(pA)n the first discovered natural nucleotide with a 2'5' linkage. We describe a direct assay of this enzyme based on separation by thin layer chromatography (TLC) of the substrate ATP and the products 2'5' pppA(pA)n (n larger than or equal to 1). This technique presents obvious advantages compared to the currently used methods. Moreover the enzyme uses other nucleotides as substrates forming co-oligonucleotides 2'5 pppA(pA)n pN (N = U,G,C,dA,dG,dT and dC). Additional procedures are described using different developing solvent systems for the separation of the core-2'5' oligonucleotides (2'5' A(pA)npN) containing AMP-residues entirely and those with another nucleotide at the 2' end.     

Injection of mice with antibody to mouse interferon alpha/beta decreases the level of 2''-5'' oligoadenylate synthetase in peritoneal macrophages.

Injection of conventional or axenic weanling mice with potent sheep or goat antibody to mouse interferon alpha/beta resulted in a decrease in the basal level of 2-5A synthetase in resting peritoneal macrophages and rendered these cells permissive for vesicular stomatitis virus. There was a good inverse correlation between the level of 2-5A synthetase in peritoneal macrophages and the permissivity of these cells for vesicular stomatitis virus. The peritoneal macrophages of 1- and 2-week-old mice had low levels of 2-5A synthetase and were permissive for vesicular stomatitis virus, whereas at 3 weeks (and after) there was a marked increase in the level of 2-5A synthetase in peritoneal macrophages, and these cells were no longer permissive for vesicular stomatitis virus. We suggest that low levels of interferon alpha or beta or both are produced in normal mice, and that this interferon contributes to host defense by inducing and maintaining an antiviral state in some cells.     

Preparation of the individual diastereomers of adenylyl-(2''-5'')-P-thioadenylyl-(2''-5'')-adenosine and their 5''-phosphorylated derivatives.

The individual diastereomers of trimer A2'p5'A2'p(s)5'A, containing one phosphorothioate linkage, were prepared via a modified hydroxybenzotriazole phosphotriester approach. The 5'-phosphorylated derivatives of the latter compounds were obtained after phosphorylation with a 6-trifluoromethyl-1-benzotriazolyl activated phosphoromorpholidate.     

Variation of (2''-5'')oligo(adenylate) synthetase activity during rat-liver regeneration

The inhibitory effect of fructose 2,6-biphosphate on fructose 1,6-bisphosphatase was reinvestigated in order to solve the apparent contradiction between competition with the substrate and the synergism with AMP, a strictly noncompetitive inhibitor. The effect of fructose 2,6-bisphosphate was compared to that of other ligands of the enzyme, which, like the substrate and methyl (alpha + beta)fructofuranoside 1,6-bisphosphate bind to the active site or which, like AMP, bind to an allosteric site. An increase in temperature or pH, or the presence of sulfosalicylate, lithium or higher concentrations of magnesium as well as partial proteolysis by subtilisin increased [I]0.5 for fructose 2,6-bisphosphate and AMP without affecting Km. With the exception of the pH change, all these conditions were also without effect on the affinity of the enzyme for the competitive inhibitor, methyl (alpha + beta)fructofuranoside 1,6-bisphosphate. These observations can be explained by assuming that fructose 2,6-bisphosphate has no affinity for the active site of fructose 1,6-bisphosphatase but binds to an allosteric site which is different from the AMP site. Fructose 2,6-bisphosphate is therefore classified as an allosteric competitive inhibitor and a model is proposed which explains its synergism with AMP as well as the various cooperative effects.     

Inhibition of pancreatic ribonuclease by 2''-5'' and 3''-5'' oligonucleotides.

Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2'-5' mono- phosphates were: G2'-5'G, C2'-5'G and U2'-5'G, and among the diribonucleoside 3'-5' monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one. The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3' phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.     

Heterogeneous nuclear RNA promotes synthesis of (2'',5'')oligoadenylate and is cleaved by the (2'',5'')oligoadenylate-activated endoribonuclease.

Heterogeneous nuclear RNA contains double-stranded regions that are not found in mRNA and that may serve as recognition elements for processing enzymes. The double-stranded regions of heterogeneous nuclear RNA prepared from HeLa cells promoted the synthesis of (2',5')oligoadenylate [(2',5')oligo(A) or (2'5')An] when incubated with (2',5')An polymerase. This enzyme is present in elevated levels in interferon-treated cells, and labeled heterogeneous nuclear RNA incubated with extracts of these cells is preferentially cleaved, since mRNA included in the same incubations is not appreciably degraded. The cleavage of heterogenous nuclear RNA is caused by the synthesis of (2'5')An and by a "localized" activation of the (2',5')An-dependent endonuclease, since it was enhanced by ATP, the substrate of the (2',5')An polymerase, and inhibited by 2'-dATP and ethidium bromide. Both of these compounds suppress the synthesis of (2',5')An, the first by competitive inhibition and the latter by intercalating into double-stranded RNA. The possible role of double-stranded regions and of the (2',5')An polymerase-endonuclease system in the processing of heterogeneous nuclear RNA is discussed.     

Association of 2''-5'' oligoribonucleotides.

Oligoribonucleotides with 2'-5' linkages have been synthesized on solid support. UV melting and CD experiments indicate complementary strands associate to give complexes with melting temperatures 30 to 40 degrees C lower than for duplexes formed by 3'-5' oligoribonucleotides with the same sequence. UV melting and imino proton NMR spectra and NOEs for (2'-5') CGGCGCCG are consistent with formation of an antiparallel duplex. The results suggest greater duplex stability was one factor favoring 3'-5' over 2'-5' linkages in evolution.     

The effect of (2''-5'') and (3''-5'') phosphodiester linkages on conformational and stacking properties of cytidylyl-cytidine in aqueous solution.

Conformational properties of (2'-5') and (3'-5') CpC have been determined by proton magnetic resonance spectroscopy at 220 MHz. The ribose ring structures are predominantly 3E with the exception of the ring from the 2'-phosphate fragment of C(2'-5')pC which exhibits an 2E pucker. Bases are oriented anti with respect to the ribose and the conformations about C4'-C5', C5'-O5', C3'-O3' (C2'-O2') are gg, g'g', and g+ in equilibrium g-, respectively. The dimers exist as mixtures of stacked (g+g+ and g-g- about the P-O(C) bonds) and unstacked species at 20 degrees C. Stacking is estimated to be 35% in both dimers.     

The preparation and properties of 4-thiouridine containing 2''-5'' and 3''-5'' dinucleoside monophosphates.

2'-5' and 3'-5' dinucleoside monophosphates containing 4-thiouridine were prepared by the thiolation of the cytosine containing compounds and purified by chromatography on a DEAE-Sephadex column. The chromatographic and optical properties of the isomers are compared.     

Interferon-responsive regulatory elements in the promoter of the human 2'',5''-oligo(A) synthetase gene.

The interferon (IFN)-activated human 2',5'-oligo(A) synthetase E gene contains 11 RNA starts and lacks TATA and CAAT signals. DNA sequences around the promoter make the expression of the chloramphenicol acetyltransferase gene (CAT) inducible over 20-fold by IFN. A 72-base-pair segment (E-IRS) immediately upstream of the RNA starts was defined as being required for IFN-activated expression of the E-gene promoter-CAT constructs and acts in a position-independent manner. It also confers IFN-activated enhancement to the herpes simplex virus thymidine kinase promoter. On this promoter, the 5' part of the E-IRS functions as a constitutive enhancer, while the last 16 base pairs of the E-IRS is sufficient to give IFN-induced expression. On the E-gene promoter, the constitutive enhancer and the IFN-activated sequence are both needed but can be separated. In addition, promoter competition experiments indicate a third regulatory region which helps to repress expression of the E gene in uninduced cells.     

Pharmacokinetic study of a human recombinant interferon (Re-IFN-alpha A) in cynomolgus monkeys by 2'-5' oligoadenylate synthetase assay

We evaluated 2'-5'Oligoadenylate (2-5 A) synthetase assay for pharmacokinetic study of human interferon (IFN) in cynomolgus monkeys. The enzyme was induced in primary cultures of cynomolgus monkey kidney (PMK) cells as well as in FL cells in response to human recombinant IFN-alpha A treatment. The enzyme activity increased with IFN dose and, in parallel with the enzyme elevation, developed the antiviral state of the cells. The enzyme activity induced in the peripheral blood lymphocytes peaked at 6 to 12 hr after iv or im administration. The peak level of the enzyme activity depended on the IFN concentration of the blood and the activity rapidly decreased as serum IFN was cleared from the blood. These results indicate that human recombinant IFN-alpha A induces 2-5 A synthetase in monkey cells both in vitro and in vivo, and that the enzyme assay can be used to quantitatively monitor the host response after IFN administration.     

Presence of (2'-5')oligoadenylate synthetase in avian erythrocytes

(2'-5')Oligoadenylate synthetase (2-5A synthetase) was found in avian erythrocyte lysates from chicken, goose, and pigeon, with high levels being observed in chicken erythrocytes. No activities, however, were detected in erythrocytes from human, sheep, mouse, turtle, frog, trout, or lamprey. In chicken erythrocyte lysate, about 70% of ATP was converted to 2-5A molecules during a 20-h incubation, in which the tri- and tetra-adenylate were the major products. The tri-, tetra-, penta-, and hepta-adenylate were synthesized sequentially, but the levels of the di-adenylate were low throughout the reaction. 2-5A synthetase was also seen in erythrocytes from specific pathogen-free chickens, suggesting that the enzyme was not produced as a result of microbial infections. 2-5A synthetases from avian erythrocytes of chicken and pigeon were found not only in cytoplasms, but also in nuclei. No enzyme activity, however, was detected in the nuclear fraction of goose erythrocytes. The molecular size of 2-5A synthetase in nuclei from chicken erythrocytes was 45,000-60,000 daltons, while cytoplasms contained an 85,000- to 120,000-dalton enzyme. In addition, the synthetase was present in several types of chicken tissue including liver, intestine, bone marrow, spleen, bursa, pancreas, and thymus, but not in brain, heart, or stomach.     

Characterization of the gene encoding the 100-kDa form of human 2',5' oligoadenylate synthetase

The 2'-5' oligoadenylate synthetases (OAS) represent a family of interferon (IFN)-induced proteins implicated in the antiviral action of IFN. When activated by double-stranded (ds) RNA, these proteins polymerize ATP into 2'-5' linked oligomers with the general formula pppA(2'p5'A)n, n greater than or = 1. Three forms of human OAS have been described corresponding to proteins of 40/46, 69/71, and 100 kDa. These isoforms are encoded by three distinct genes clustered on chromosome 12 and exhibit differential constitutive and IFN-inducible expression. Here we describe the structural and functional analysis of the gene encoding the large form of human OAS. This gene has 16 exons with exon/intron boundaries that are conserved among the different isoforms of the human OAS family, reflecting the evolutionary link among them. The promoter region of the p100 gene is composed of multiple features conferring direct inducibility not only by IFNs but also by TNF and all-trans retinoic acid. In contrast, the induction of the p100 promoter by dsRNA is indirect and requires IFN type I production.     

Elevated levels of (2''-5'')oligoadenylic acid polymerase activity in growth-arrested human lymphoblastoid Namalva cells.

(2'-5')Oligoadenylic acid [(2'-5')An] polymerase activity was measured in extracts of human lymphoblastoid cells of the Namalva line cultured under different conditions. Exponentially growing cells had a relatively low polymerase activity level, whereas cells grown to limit density showed elevated levels. When fresh medium was added to growth-arrested cells, (2'-5')An polymerase activity decreased concomitantly with the initiation of active deoxyribonucleic acid synthesis. An increase in polymerase activity level was also observed after exponentially growing cells were transferred from medium containing 20% serum to fresh medium containing 0.2% serum. These cells diminished deoxyribonucleic acid synthesis and remained quiescent until 20% serum was again added. Polymerase activity level decreased as the cells entered into S phase. The addition of the inhibitor of deoxyribonucleic acid synthesis, hydroxyurea, to exponentially growing cells did not increase polymerase level, indicating that cells blocked in S phase and at the G1-S boundary maintained the basal level of this enzyme. Degradation of labeled (2'-5')An was measured in extracts of Namalva cells cultured under different conditions, but no significant differences among degradative activities were observed. Since (2'-5')An polymerase activity is one of the enzymatic activities induced by interferon, we measured interferon titers in Namalva cell medium. Less than 1 reference unit per ml was detected in cells grown under different conditions. Moreover, the increase in (2'-5')An polymerase activity level in cells transferred from 20 to 0.2% serum was not prevented by including anti-lymphoblastoid interferon antibody in the medium. These results suggest that the activity level of (2'-5')An polymerase is regulated in Namalva cells on the basis of the growth status of the cells and that this regulatory mechanism is apparently not activated by interferon.