Binding of human recombinant 125I-interferon gamma to receptors on human cells

Recombinant human interferon gamma (rIFN-gamma) produced in Escherichia coli was labeled with 125I to study its binding to receptors of HeLa and lymphoblastoid cells. All the cell lines examined had receptors for rIFN-gamma, although the binding varied considerably among different cell lines. The binding of 125I-rIFN-gamma was competed up to 90% by the addition of unlabeled rIFN-gamma, although not by the addition of IFN-alpha or -beta. By adding increasing concentrations of unlabeled rIFN-gamma to binding assays containing a constant amount of 125I-rIFN-gamma, we determined a KD of 3.7 and 6.3 X 10(-10) M for its binding to Daudi and HeLa cells, respectively. About 13,000 receptors per cell were present in Daudi and 5,000 in HeLa cells. The Mr of the IFN-gamma/receptor complex was determined by cross-linking experiments to be about 125,000. This complex is smaller than the IFN-alpha/receptor complex that has a Mr of about 140,000. The rIFN-gamma receptor was down-regulated when HeLa cells were treated with this interferon, but not when these cells were treated with IFN-beta. These findings suggest that the receptors for IFN-alpha and -gamma differ in several characteristics. The turnover of the rIFN-gamma receptor was measured by inhibiting protein synthesis with cycloheximide and the half-life of this receptor was found to be 2 h. The unglycosylated rIFN-gamma was bound to cellular receptors with an affinity similar to that previously reported for natural IFN-gamma. The lymphoblastoid cell lines examined had high affinity receptors for rIFN-gamma, but did not respond to treatment with this IFN with an induction of the synthesis of the enzyme (2'-5')oligo(A) synthetase, whereas HeLa cells responded to rIFN-gamma. The reason for the lack of response of lymphoblastoid cells is presently unknown.     

Production of polyclonal antibodies against the 40 kDa form of human 2'-5' oligoadenylate synthetase

A 17-aminoacid peptide corresponding to the C terminal of the smaller form of human 2'-5' oligoadenylate synthetase was coupled to keyole lymphet haemocyanin (KLH) and used as immunogen in rabbits. After a cycle of four immunizations two animals produced immunoglobulins able to recognize the 17-aminoacid peptide as evaluated in ELISA assays. The specific Ig were purified by an immunoadsorbent with the peptide immobilized on Sepharose CL-4B and used in Western blot employing either protein A iodinated or conjugated with peroxidase as indicator system. The results obtained using extracts from HeLa or WISH cells treated for 15 hr with HuIFN-alfa as antigen demonstrate that the anti-peptide antibodies recognize the 40 kDa form of the 2'-5' oligoadenylate synthetase enzyme complex. These antibodies therefore represent a useful tool for monitoring the induction of the above enzyme.     

Interferon action: binding of viral RNA to the 40-kilodalton 2''-5''-oligoadenylate synthetase in interferon-treated HeLa cells infected with encephalomyocarditis virus.

The 40-kDa 2'-5'-oligoadenylate [(2'-5') (A)n] synthetase isoenzyme was proven to be a mediator of the inhibition of encephalomyocarditis virus (EMCV) replication by interferon (IFN). When activated by double-stranded RNA, this enzyme converts ATP into 2'-5'-oligoadenylate [(2'-5') (A)n], and (2'-5') (A)n was found to accumulate in IFN-treated, EMCV-infected cells. The only known function of (2'-5') (A)n is the activation of RNase L, a latent RNase, and this was also implicated in the inhibition of EMCV replication. Intermediates or side products in EMCV RNA replication, presumed to be partially double stranded, were shown to activate (2'-5') (A)n synthetase in vitro. These findings served as the basis of the long-standing hypothesis that the activator of (2'-5') (A)n synthetase in IFN-treated, EMCV-infected cells is the viral RNA. To test this hypothesis, we have generated a polyclonal rabbit antiserum to the human 40-kDa (2'-5') (A)n synthetase. The antiserum immunoprecipitated, from IFN-treated HeLa cells that had been infected with EMCV, the 40-kDa (2'-5') (A)n synthetase protein in complex with both strands of EMCV RNA. The immunoprecipitate was active in (2'-5') (A)n synthesis even without addition of double-stranded RNA, whereas the immunoprecipitate from IFN-treated, uninfected cells was not. These and other results demonstrate that in IFN-treated, EMCV-infected cells, viral RNA is bound to the (2'-5') (A)n synthetase and suggest that the agent activating the (2'-5') (A)n synthetase is the bound viral RNA.     

Induction of (2'-5')oligoadenylate synthetase in serum-starved HeLa S3 cells by growth factors and its role in growth regulation

When serum-starved HeLa S3 cells were stimulated to proliferate by addition of fetal calf serum (FCS), (2'-5')oligoadenylate synthetase (2-5A synthetase) activity was induced. Although no interferon (IFN) activity was detectable in the HeLa S3 cell-conditioned culture medium after growth stimulation, addition of anti-IFN-beta monoclonal antibody inhibited both the expression of the 2-5A synthetase gene and the production of the enzyme, suggesting that endogenous IFN-beta was involved in 2-5A synthetase induction. Purified preparations of three growth factors, epidermal growth factor, platelet-derived growth factor, and insulin, also induced 2-5A synthetase through IFN-beta. When serum-starved HeLa S3 cells were treated with FCS, DNA synthesis was initiated synchronously, with peaks after 12 and 32 h, although the level of 2-5A synthetase reached a maximum after the first peak of DNA synthesis. Inhibition of 2-5A synthetase induction by anti-IFN-beta antibody enhanced the second, but not the first cycle of DNA synthesis. These results suggested that in HeLa S3 cells, after stimulation with growth factors the IFN/2-5A synthetase system played a role in cell growth negative regulatory mechanisms.     

Expression of interferon-inducible genes in RD-114 cells.

RD-114 is a cell line which is partially responsive to interferon (IFN). Although both IFN-alpha and IFN gamma inhibit production of the resident retrovirus, they do not inhibit replication of other viruses, such as vesicular stomatitis virus and encephalomyocarditis virus, in these cells. In the studies reported here, we studied the characteristics of induction of seven IFN-inducible mRNAs in RD-114 cells. We observed that mRNAs 561, 6-16, 1-8, 2A, and 6-26 have similar induction characteristics in RD-114 cells and in HeLa cells, a fully responsive line. mRNA 2'-5'-oligo-adenylate synthetase (2-5(A) synthetase), however, was induced more efficiently by IFN-alpha in HeLa cells than in RD-114 cells. The same was true for the induction of metallothionein II mRNA by IFN-gamma. However, the latter mRNA was induced equally strongly in both lines when ZnCl2 was used as the inducer, suggesting that the gene is not defective in RD-114 cells. Although IFN-alpha induced 2-5(A) synthetase mRNA poorly and IFN-gamma did not induce it at all in these cells, a mixture of IFN-alpha and IFN-gamma induced this mRNA quite effectively, to a level of induction comparable to that in HeLa cells. Only 1 U of IFN-gamma per ml was sufficient to elicit this synergism, and the data suggested that an IFN-gamma-inducible protein was needed for this process. Induction of mRNA 561 by IFN-alpha in RD-114 cells, unlike that in HeLa cells, did not need ongoing protein synthesis. Once induced, this mRNA turned over rapidly in both cell lines, and this turnover could be slowed down by inhibiting protein synthesis in either cell line. IFN-induced mRNAs, such as 561 and 1-8, were polysome associated in IFN-treated RD-114 cells, suggesting that they were actively translated. Therefore, it is unlikely that the products of these IFN-inducible genes, by themselves, mediate the inhibition of replication of those viruses which are insensitive to IFN action in RD-114 cells.     

Immunological cross-reactivity between large and small (2'-5')oligoadenylate synthetases from pig cells

Using glycerol gradient centrifugation, the molecular sizes of porcine (2'-5')oligoadenylate synthetases (2-5A synthetases) were estimated. The 2-5A synthetase purified from pig spleen was about 150 kDa, while the enzyme extracted from nuclei of Newcastle disease virus-infected pig epithelial cells (SK-h) was about 20-40 kDa. The nuclear 2-5A synthetase was selectively adsorbed to Protein A-Sepharose beads conjugated with anti-spleen 2-5A synthetase antibody. Thus, the smaller 2-5A synthetase in nuclei of pig cells shares a protein structure with the larger enzyme from pig spleen.     

Autogenous production of interferon-beta switches on HLA genes during differentiation of histiocytic lymphoma U937 cells

The expression of class I HLA genes was measured during the in vitro differentiation of human U937 lymphoma cells towards macrophages. Following the onset of differentiation by phorbol myristate acetate the levels of cytoplasmic mRNA that hybridized with a [32P]HLA-B cDNA probe increased by a factor of nine. Elevation in HLA mRNA accumulation was followed by an increase in the rate of synthesis of HLA proteins and also by a dramatic increase in class I HLA cell surface antigen expression, as shown by cytofluorimetric analysis. The elevation in HLA mRNA and surface antigens could be prevented by adding antibodies against human interferon-beta (IFN-beta) to the culture medium at the onset of differentiation. Interferon antiviral activity was detected in the medium of differentiated U937 cells. The same anti-IFN-beta antibodies prevented the increase in (2'-5')oligo(A) synthetase activity which also takes place in differentiating U937 cells. Accumulation of the IFN-induced (2'-5')oligo(A) synthetase in U937 cells is preceded by an increase in its specific 1.6-kb mRNA as shown by hybridization to cloned (2'-5')-oligo(A) synthetase cDNA. The enzyme was preferentially found in the nuclear fraction of differentiating U937 cells. We suggest that an autogenous production of interferon-beta by the differentiating cells, switches on expression of the class I HLA genes as well as that of the (2'-5')oligo(A) synthetase.     

Differentiation of a human monocyte-like cell line by (2′–5′) oligoisoadenylate

Treatment of a human monocyte-like cell line (U-937) by (2'-5')ApApA, the 5' dephosphorylated product of (2'-5')oligo-isoadenylate [oligo(A)] synthetase, an interferon-induced enzyme, was able to induce differentiation, mimicking the effect of interferon treatment. Treatment of U-937 cells with (2'-5')ApApA resulted in morphologic changes, new (monocyte-associated) membrane antigen expression, and acquisition of the capacity to mediate antibody-dependent cellular cytotoxicity (ADCC). (2'-5')ApA and (3'-5')ApApA were without effect. A myeloid cell line (HL-60) which differentiates in response to other agents, but not to alpha-interferon, was not able to differentiate in response to (2'-5')ApApA, despite the ability of interferon to induce (2'-5')oligo (A) synthetase.     

5'-modified agonist and antagonist (2'-5')(A)n analogues: synthesis and biological activity

Two 5'-modified (2'-5')(A)4 oligomers with an increased resistance to phosphatase degradation were synthesized and evaluated for their ability to develop an antiviral response when introduced into intact cells by microinjection or by chemical conjugation to poly(L-lysine). The enzymatic synthesis of 5'-gamma-phosphorothioate and beta,gamma-difluoromethylene (2'-5')(A)4 from adenosine 5'-O-(3-thiotriphosphate) and adenosine beta,gamma-difluoromethylenetriphosphate by (2'-5')-oligoadenylate synthetase is described. The isolation and characterization of these (2'-5')(A)4 analogues were achieved by high-performance liquid chromatography. The structures of 5'-modified tetramers were corroborated by enzyme digestion. These two 5'-modified tetramers compete as efficiently as natural (2'-5')(A)4 for the binding of a radiolabeled (2'-5')(A)4 probe to ribonuclease (RNase) L. Nevertheless, at the opposite to 5'-gamma-phosphorothioate (2'-5')(A)4, beta,gamma-difluoromethylene (2'-5')(A)4 failed to induce an antiviral response after microinjection in HeLa cells. In addition, it behaves as an antagonist of RNase L as demonstrated by its ability to inhibit the antiviral properties of 5'-gamma-phosphorothioate (2'-5')(A)4 when both are microinjected in HeLa cells. The increased metabolic stability of 5'-gamma-phosphorothioate (2'-5')(A)4 as compared to that of (2'-5')(A)4 was first demonstrated in cell-free extracts and then confirmed in intact cells after introduction in the form of a conjugate to poly(L-lysine). Indeed, 5'-gamma-phosphorothioate (2'-5')(A)4-poly(L-lysine) conjugate induces protein synthesis inhibition and characteristic ribosomal RNA cleavages for longer times than unmodified (2'-5')(A)4-poly(L-lysine) in the same cell system.(ABSTRACT TRUNCATED AT 250 WORDS)     

Protein synthesis-dependent and -independent induction of p69 2'-5'-oligoadenylate synthetase by interferon-alpha.

The 2'-5'-oligoadenylate (2-5A) synthetases are a family of interferon-alpha (IFN-alpha) inducible enzymes that block viral replication by activating a latent endonuclease during viral infections. In Ramos cells, induction of mRNAs for the intermediate isoform of 2-5A synthetase (p69) requires five-fold higher IFN-alpha than is required for induction of the small isoform (p40). The p40 and p69 isoforms are similarly induced between 1 and 24 h with maximal induction at 8 h. At 48 h, however, p69 is more strongly induced than p40. Induction of p69 and p40 between 1 and 24 h is protein synthesis independent whereas at 48 h, p69 induction becomes dependent on protein synthesis. Initial induction of both isoforms requires tyrosine kinase activation and is enhanced by activation of a separate signalling pathway by the tumour promoter, 12-0-tetradecanoyl phorbol-13-acetate (TPA). These data suggest that induction of the p40 is predominantly protein synthesis independent, whereas p69 induction occurs in two phases, an initial protein synthesis independent phase and a delayed protein synthesis dependent phase.     

Nerve growth factor induces changes in (2'-5')oligo(A) synthetase and 2'-phosphodiesterase activities during differentiation of PC12 pheochromocytoma cells

Treatment of rat pheochromocytoma cell line PC12 with Vipera lebetina (snake) nerve growth factor (NGF) induces a rapid increase (from 5 to 25-fold) in the level of (2'-5')oligo(A) synthetase activity and a simultaneous decrease (from 2 to 5-fold) in the activity of 2'-5' A degrading enzymes--2'-phosphodiesterases (2'-PDE). These changes in the enzyme activities led to the significant increase in the intracellular concentration of 2'-5' A. We have found that the serum starvation of PC12 cells causes a 1.5 to 2.0-fold increase in the level of 2'-5' A-synthetase activity, but the activities of 2'-PDE and the intracellular concentration of 2'-5' A remain unaltered. These results show that NGF modulates the activity of (2'-5')oligo(A) enzymes and intracellular concentration of 2'-5' A during the neural differentiation of PC12 cells.     

2'-Phosphodiesterase activity in human cell lines treated or untreated with human interferon

2'-Phosphodiesterase activity was investigated, by measuring either the disappearance of (2',5')oligo(adenylate) or the release of 5'AMP, in several human cell lines (RSa, IFr, HEC-1, WGAr and HeLa) possessing different sensitivities to interferon, and treated or untreated with human interferon. In various cell lines whose (2'-5')oligo(adenylate) synthetase was normally induced by interferon treatment, both kinetic studies and measurements at different enzyme concentrations indicated that 2'-phosphodiesterase activity remained unchanged after interferon treatment. This observation was confirmed over a broad range of substrate concentrations (1-25000 nM). The activity of 2'-phosphodiesterase was dependent on Mg(OAc)2. Our results indicate that in various human cell lines the modulation of (2'-5')oligo(adenylate) metabolism by interferon does not involve an increase of 2'-phosphodiesterase activity.     

Anti-mitogenic function of interferon-induced (2'-5')oligo(adenylate) and growth-related variations in enzymes that synthesize and degrade this oligonucleotide

Addition of (2'5')ApApA to concanavalin-A-stimulated mouse spleen lymphocytes strongly inhibits the large increase in RNA and protein synthesis which takes place 24-48 h after stimulation. The inhibitory effect on protein synthesis precedes the effect on RNA synthesis and takes at least 6 h to be detected. Histone synthesis is preferentially inhibited at 48 h. No effect on protein synthesis was detected in unstimulated resting lymphocytes, or in stimulated lymphocytes during the first 24 h after concanavalin A treatment. The anti-mitogenic effect of the (2'-5')oligo(adenylate) seems to result, therefore, from inhibition of protein synthesis taking place before initiation of DNA replication. The mitogenic stimulus produced by the lectin enhances, in lymphocytes, the level of the 2'-phosphodiesterase which degrades (2'-5')oligo(adenylate). Enhancement of the 2'-phosphodiesterase was also observed after serum stimulation of confluent monkey kidney cells. Furthermore, the ratio of (2'-5')oligo(adenylate) synthetase to 2'-phosphodiesterase is ten-times lower in fast-growing kidney cells than in quiescent serum-starved cells. A model for the role of (2'-5')oligo(adenylate) synthesis and degradation in the regulation of cell proliferation by interferon and by mitogens is presented.     

Induction of poly(I):poly(C)-binding 50 K protein and 2',5'-oligoadenylate synthetase in interferon-treated mouse L929 cells

A new protein retained by poly(I):poly(C)-Sepharose was induced together with dsRNA-dependent enzymatic activities, a protein kinase and 2',5'-oligoadenylate synthetase (2,5A synthetase), in interferon-treated mouse L929 cells; it had an apparent molecular weight of 50,000 (50 K) and was not phosphorylated by the protein kinase. The kinetics of the induction of the poly(I):poly(C)-binding 50 K protein were similar to those of dsRNA-dependent protein kinase and 2',5'-oligoadenylate synthetase, and their inductions were all dependent on the interferon dose added, though a relatively higher dose was required for the 50 K protein. When the interferon preparation was heated to 100 degrees C in the presence of sodium dodecyl sulfate, its effect on cells of inducing the activity of 2',5'-oligoadenylate synthetase was preserved completely, indicating that the interferon molecule itself is responsible for the induction of the synthetase. Since the induction of the enzymatic activity was inhibited by addition of either actinomycin D or cycloheximide, it may not be an activation of a latent enzyme but a de novo synthesis of the enzyme.     

Activation of 2'',5''-oligoadenylate synthetase activity on induction of HL-60 leukemia cell differentiation.

A 27-fold increase in 2',5'-oligoadenylate synthetase activity, an enzyme associated with the antiproliferative actions of interferon (IFN), was observed after treatment of HL-60 human leukemia cells with dimethyl sulfoxide (DMSO), an inducer of granulocytic differentiation of the cells. Enzyme activity was elevated after 24 h of exposure to DMSO, was maximal at 48 hours, and declined thereafter. A comparable increase was observed after treatment with 1 U of alpha interferon (IFN-alpha) per ml or 8 U of beta interferon (IFN-beta) per ml. Elevated levels of expression of other IFN-inducible genes, including type I histocompatibility antigen (HLA-B) mRNA and 2',5'-oligoadenylate phosphodiesterase activity, were also observed with DMSO treatment. DMSO-treated HL-60 cells had an increased amount of a 1.8-kilobase mRNA for oligoadenylate [oligo(A)] synthetase when compared with that of control cells; both DMSO- and IFN-treated HL-60 cells also expressed 1.6-, 3.4-, and 4.3-kilobase mRNA. The increase in both oligo(A) synthetase activity and mRNA levels was inhibited by polyclonal antiserum to human IFN-alpha; however, no IFN-alpha mRNA could be detected in the cells. Antiserum to IFN-beta or gamma interferon (IFN-gamma) had no effect on oligo(A) synthetase expression or activity nor was there any detectable IFN-beta 1 or IFN-beta 2 mRNA in the cells. The anti-IFN-alpha serum did not block the elevation of HLA-B mRNA in DMSO-treated cells. These observations suggest that the increased expression of oligo(A) synthetase in DMSO-treated cells may be mediated by the release of an IFN-alpha-like factor; however, the levels of any IFN-alpha mRNA produced in the cells were extremely low.     

Interleukin-6 induces the (2'-5') oligoadenylate synthetase gene in M1 cells through an effect on the interferon-responsive enhancer

Interleukin-6 (IL-6) activates (2'-5') A synthetase (2'-5' AS) gene expression in differentiating myeloleukemic M1 cells. Antibodies to type I interferon (IFN) inhibit 2'-5' AS induction but not differentiation. Analysis of the mechanism of 2'-5' AS induction shows that it does not result from increased IFN formation, but from a synergism between IL-6 and endogenously secreted IFN. IL-6 can activate expression of a CAT construct fused to the interferon response sequence (IRS) of the 2'-5' AS gene. In extracts of IL-6-treated M1 cells, changes in protein binding to IRS DNA can be demonstrated. One of the effects of IL-6 on M1 cells is, therefore, to induce DNA binding factors, some of which act on the same enhancer sequence as IFNs, resulting in a synergistic gene activation. M1 variants resistant to differentiation by IL-6 have lost the ability to induce the 2'-5' AS gene.     

Interferon induction of (2′–5′) oligoisoadenylate synthetase in diploid and trisomy 21 human fibroblasts: Relation to dosage of the interferon receptor gene (IRFC)

Trisomy 21 human fibroblasts are more sensitive to human interferon-alpha (IFN-alpha) than are diploid controls, consistent with the location of the gene (IFRC) which codes for the IFN-alpha receptor on chromosome 21. When compared in the antiviral assay, the difference in sensitivity is five- to tenfold, much greater than the 50% difference in IFRC gene dosage. An understanding of the mechanism by which this amplification of gene dosage occurs is relevant to the specific pathology of Down's syndrome and as a model system for studying the pathogenic effects of chromosomal aneuploidy. The enzyme (2'-5') oligoisoadenylate synthetase (2-5A synthetase), which is believed to be central to the interferon-induced antiviral response, is induced 50% more in trisomy 21 fibroblasts than in diploid controls. Thus the amplification in response occurs subsequent to the binding of IFN-alpha to its receptor and the triggering of the first set of intracellular events, the latter exemplified by the induction of 2-5A synthetase. Similar results were obtained with IFN-gamma, consistent with other evidence which indicates that a gene coding for a separate IFN-gamma receptor is also located on chromosome 21.