Clonal derivatives of the RD-114 cell line differ in their antiviral and gene-inducing responses to interferons.

The human rhabdomyosarcoma cell line RD-114 is partially responsive to interferons (IFNs). In these cells, alpha interferon (IFN-alpha) or gamma interferon (IFN-gamma) inhibits the replication of some viruses but not of others. Similarly, some of the IFN-inducible mRNAs are induced poorly, whereas others are induced well. Here we report the isolation of clonal derivatives of this line which display different spectra of responses to IFNs. Among the eight extensively characterized clonal lines, one, C10, did not respond to IFN-alpha or IFN-gamma at all. Retrovirus production by each of the seven other lines was inhibited by both IFN-alpha and IFN-gamma. Replication of vesicular stomatitis virus was inhibited strongly by IFN-alpha in clone B1 but not in others, whereas it was not appreciably affected by IFN-gamma in any clone. Replication of encephalomyocarditis virus was inhibited strongly by IFN-gamma in clones A1, A2, A3, B3, and B8 and by IFN-alpha in clone A2. Neither IFN inhibited the multiplication of these clones greatly, although their doubling times were slightly increased. Five mRNAs were induced by IFNs to varying degrees in the seven clones. mRNA 2A was most strongly induced by IFN-gamma in clone A3. mRNA 1-8 was strongly induced by IFN-alpha in clone A1 and by either IFN in clones A2 and A3. The highest concentrations of 2',5'-oligoadenylate synthetase mRNA, mRNA 561, and mRNA 6-16 were in IFN-alpha-treated clones A1 and A2. These results demonstrated the existence of clonal heterogeneity in IFN responses in a cell line and strengthened the view that IFN treatment of cells generates multiple signals leading to a variety of IFN-induced phenotypes.     

Different binding of human interferon alpha 1 and alpha 2 to common receptors on human and bovine cells. Studies with recombination interferons produced in Escherichia coli

Minicells from Escherichia coli DS410 harboring cDNA for human interferon (IFN) alpha 1 or alpha 2 were metabolically labeled with [3H]leucine and the radioactive IFN was purified to homogeneity by immune precipitation with anti-IFN-alpha serum. These preparations of radioactive IFN-alpha 1 and -alpha 2 were used to study the binding on two human (FL and Daudi) and one bovine (MDBK) cell lines. IFN-alpha 2 specifically bound well to both human and bovine cells, while IFN-alpha 1 bound very poorly to human cells but well to bovine cells. Specific binding of radioactive IFN-alpha 2 to these cell lines was completely inhibited by not only nonradioactive IFN-alpha 2 but also IFN-alpha 1, and binding of IFN-alpha 1 to bovine cell was also competed by IFN-alpha 2 as well as IFN-alpha 1, indicating that the receptors for both IFNs are identical. However, 50-100-fold (on human cells) or 4-fold (on bovine cell) more nonradioactive IFN-alpha 1 than -alpha 2 was required to inhibit the binding of radioactive IFN-alpha 2 to the receptors. Scatchard analysis showed that IFN-alpha 1 and -alpha 2 bind to the receptors on human cells with an apparent Kd of greater than 6 X 10(-10) and 3 X 10(-11) M, respectively, while on bovine cells with a Kd of 4.2 X 10(-11) and 1.6 X 10(-11) M, respectively. These results show that the different target cell specificity of IFN-alpha 1 and -alpha 2 in regard to antiviral activity (Streuli, M., Hall, A., Boll, W., Stewart, W. E., II, Nagata, S., and Weissmann, C. (1981) Proc. Natl. Acad. Sci. U. S. A. 78, 2848-2852) is due to the different binding activity of IFN-alpha molecules to their common receptors.     

Sensitivity of human germ-cell-tumor cell lines to human interferons

We examined the sensitivity of four human germ-cell-tumor cell lines exhibiting different stages of differentiation to human interferons (IFNs) in vitro. The cell lines were derived from two embryonal carcinomas (NEC 8 and NEC 14), a choriocarcinoma (IMa), and a yolk-sac tumor (HUOT). Treatment with poly I:C induced IFN production in IMa and HUOT cells, but not in NEC-8 and NEC-14 cells. In the two embryonal-carcinoma cell lines, the addition of IFN-alpha, IFN-beta, and IFN-gamma did not prevent infection by vesicular stomatitis virus and encephalomyocarditis virus. Also, in these two lines, 2-5A synthetase was not induced by the addition of IFN-alpha. In contrast, both IMa and HUOT showed sensitivity to the antiviral action of IFN-alpha and IFN-beta against the two viruses, and 2-5A synthetase was induced by IFN-alpha. IFNs added at doses of up to 1000 IU/ml had no antiproliferative effect on NEC 8, NEC 14, and HUOT, whereas colony formation by IMa cells was greatly suppressed by all three forms of IFN. These results indicate that the production of and sensitivity to IFN are developmentally regulated and are related to the level of differentiation of human germ-cell stem cells.     

Organization, structure and expression of murine interferon alpha genes.

Using a human interferon-alpha probe we have isolated recombinant phages containing murine interferon-alpha (Mu IFN-alpha) genes from a genomic library. One of these phages contained two complete Mu IFN-alpha genes and part of a third gene. The insert of a second phage held two IFN genes. This indicates that the Mu IFN-alpha genes are clustered in the genome as is the case for the analogous human genes. The nucleotide sequences of these 5 genes were determined. They show that the genes are all different, albeit highly homologous. The deduced amino acid sequences show that four of the five genes contain a putative glycosylation site. Three genes were transiently expressed in COS cells and they gave rise to protein products showing antiviral properties. The expression of the five Mu IFN-alpha genes and the Mu IFN-beta gene was studied in virus-induced mouse L cells. The individual mRNAs were visualized in a nuclease S1 experiment, using a specific probe for each gene. In RNA preparations from induced cells mRNAs for each of the five alpha genes and the beta gene were present. However, substantial differences in the amounts of the individual mRNAs were observed.     

Enhancement of monocyte-mediated tumoricidal activity by multiple interferon-alpha species

Twenty-one interferon (IFN)-alpha species were evaluated for their ability to enhance monocyte-mediated lysis of the human melanoma cell line, A375. A wide variation in the potency of the different species in inducing monocyte tumoricidal action was observed. In addition, many IFN-alpha species were found to induce as much or more tumoricidal activity than recombinant IFN-gamma. The degree of monocyte activation induced by the various species generally correlated with their antiviral activity. Those which were better at inducing monocyte tumoricidal action also gave the highest antiviral specific activities. Studies were conducted to determine if the relative potency of the IFN-alpha species could be changed by altering certain parameters of the cytotoxicity assay. All IFN-alpha species tested required only 30 min in culture with the monocytes to induce activation. There were no changes in the relative potency of the species when cytotoxicity was measured at different times, nor when the effector:target ratio was altered. Competitive binding studies revealed that those IFN-alpha species which induced little activity in the bioassays were also generally poor in their ability to bind the IFN-alpha receptor on human monocytes, while the IFN-alpha species which induced relatively more activity in the bioassays were better able to bind to the IFN-alpha receptor. These data indicate that there are dramatic differences in activities among the IFN-alpha species which may, in part, be explained by different binding affinities. In addition, the differences observed among the IFN-alpha species demonstrate the need for further functional and structural characterization of the individual IFN-alpha species which could lead to a more effective clinical application of IFN-alpha.     

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.     

TLR7 is involved in sequence-specific sensing of single-stranded RNAs in human macrophages

Human TLR7 and 8 (hTLR7/8) have been implicated in the sequence-dependent detection of RNA oligonucleotides in immune cells. Although hTLR7 sequence-specific sensing of short RNAs has been inferred from studies of murine TLR7, this has yet to be established for hTLR7. We found that different short ssRNA sequences selectively induced either TNF-alpha or IFN-alpha in human PBMCs. The sequence-specific TNF-alpha response to ssRNAs observed in PBMCs could be replicated in activated human macrophage-like (THP-1) cells pretreated with IFN-gamma. Surprisingly, suppression of hTLR7 expression by RNA interference in this model reduced sensing of all immunostimulatory ssRNAs tested. Modulation of the relative expression ratio of hTLR7 to hTLR8 in THP-1 cells correlated with differential sensing of immunostimulatory sequences. Furthermore, the sequence-specific IFN-alpha induction profile in human PBMCs was accurately modeled by a sequence-specific activation of murine TLR7 in mouse macrophages. Thus, we demonstrate for the first time that hTLR7 is involved in sequence-specific sensing of ssRNAs. We establish a novel cell model for the prediction of TNF-alpha induction by short RNAs in human macrophages. Our results suggest that differential sequence-specific sensing of RNA oligonucleotides between human and mouse macrophages is due to the modulation of TLR7 sensing by human TLR8.     

Distinction of two subtypes of human leukocyte interferon (IFN-alpha) on B cell activation. B cell proliferation by two subtypes of IFN-alpha

We examined the effect of interferon (IFN), with particular emphasis on the effects of the two subtypes of IFN-alpha (IFN-alpha A and IFN-alpha B) on the B cell proliferation induced by Staphylococcus aureus Cowan I bacterium (SpA Col). An increase of SpA Col-induced proliferation was observed in the presence of 100 to 1000 U/ml of IFN-alpha, but a decrease of SpA Col-induced proliferation was observed in the presence of 1000 to 10,000 U/ml of IFN-beta. The two subtypes of IFN-alpha had different effects on cell proliferation; a significant enhancement was shown in the presence of 1000 to 10,000 U/ml of IFN-alpha A, but inhibition was shown in the presence of 1000 to 10,000 U/ml of IFN-alpha B. In the reconstitution test of the two subtypes of IFN-alpha, the boundary between enhancement and inhibition of SpA Col-induced proliferation was revealed when the proportion of IFN-alpha A and IFN-alpha B (IFN-alpha A:IFN-alpha B) ranged between 8:2 and 9:1. Toward the SpA Col-induced responses, the above IFN were all found to act on B cells directly, independent of the presence of T cells. Proliferative responses by IFN-alpha and IFN-alpha A, however, were shown to be slightly dependent on the presence of monocytes. The lymphocyte proliferation induced by other mitogens (phytohemagglutinin, concanavalin A, pokeweed mitogen, and protein A of S. aureus) were all inhibited by the above IFN.     

Curcumin inhibits interferon-alpha induced NF-kappaB and COX-2 in human A549 non-small cell lung cancer cells

The A549 cells, non-small cell lung cancer cell line from human, were resistant to interferon (IFN)-alpha treatment. The IFN-alpha-treated A549 cells showed increase in protein expression levels of NF-kappaB and COX-2. IFN-alpha induced NF-kappaB binding activity within 30 min and this increased binding activity was markedly suppressed with inclusion of curcumin. Curcumin also inhibited IFN-alpha-induced COX-2 expression in A549 cells. Within 10 min, IFN-alpha rapidly induced the binding activity of a gamma-(32)P-labeled consensus GAS oligonucleotide probe, which was profoundly reversed by curcumin. Taken together, IFN-alpha-induced activations of NF-kappaB and COX-2 were inhibited by the addition of curcumin in A549 cells.     

What is disrupting IFN-alpha's antiviral activity?

Despite advances in treatment strategies for hepatitis C virus (HCV), a significant proportion of patients fail to achieve viral clearance following treatment with pegylated interferon (IFN)-alpha plus ribavirin. Many of these individuals show elevated levels of tumor necrosis factor (TNF)-alpha compared with normal controls, and recent data have implicated this cytokine in the negative regulation of IFN-alpha. Although a therapeutic opportunity for TNF-alpha antagonists might exist for reducing inflammation in chronic HCV disease, further exploration is required to identify the key mediators of responsiveness to IFN-alpha. In particular, the interplay should be clarified between host response factors [e.g. IFN-alpha, IFN-gamma, suppressor of cytokine signaling (SOCS), TNF-alpha and others] and pathogen-associated molecular patterns [PAMPs, e.g. lipopolysaccharide (LPS) and CpG DNA] in HCV disease; this information might guide future therapies aimed at improving IFN-alpha responsiveness.     

Differential effects of interferon-alpha and interferon-gamma on interleukin 1 secretion by monocytes

We examined the effect of interferon (IFN)-alpha and IFN-gamma on the ability of human monocytes to secrete interleukin 1 (IL 1). IFN-alpha directly induced IL 1 secretion by monocytes. IFN-gamma did not induce any IL 1. IFN-gamma-stimulated monocyte supernatants were also negative for pyrogenic activity. However, IFN-gamma greatly enhanced the amount of IL 1 secreted when monocytes were stimulated by lipopolysaccharide or Staphylococcus aureus, even at concentrations which by themselves did not induce IL 1. IFN-alpha did not enhance IL 1 secretion induced by other stimuli. IFN-gamma enhanced IL 1 secretion by priming monocytes to be more sensitive to an IL 1-inducing stimulus. However, IFN-gamma does not enhance IL 1 induced by all stimuli, because there was no enhancement of IL 1 induced by PMA. Thus, IFN-alpha and IFN-gamma have very distinct roles in the induction and enhancement of IL 1 by monocytes.     

Priming of leukocytes selectively increases the level of some interferon-alpha subtypes and not others

The effect of pretreatment with interferon (IFN) ('priming') on the production of individual IFN subtypes was studied in subpopulations of human peripheral blood mononuclear cells and in the myeloid cell line KG-1. It was found that priming had a selective enhancing effect on the production of certain IFN-alpha subtypes (IFN-alpha 20K and IFN-alpha 21K) and not on others. KG-1 cells produce both IFN-alpha and -beta; however, only the production of IFN-alpha was enhanced by priming with either IFN-alpha, beta or gamma.     

Epstein-Barr virus RNA confers resistance to interferon-alpha-induced apoptosis in Burkitt's lymphoma

We investigated whether Epstein--Barr virus (EBV) infection could counteract the antitumor effect of interferon (IFN)-alpha. EBV-negative subclones isolated from EBV-positive Burkitt's lymphoma (BL) cell lines Akata, Daudi and Mutu were found to fall into apoptosis after IFN-alpha treatment. On the other hand, EBV-positive counterparts exhibited striking resistance against IFN-alpha-induced apoptosis. Transfection of an individual EBV latent gene into EBV-negative BL cells revealed that EBV-encoded poly(A)(-) RNAs (EBERs) were responsible for IFN resistance. EBERs bound double-stranded (ds) RNA-activated protein kinase (PKR), a key mediator of the antiviral effect of IFN-alpha, and inhibited its phosphorylation. Transfection of dominant-negative PKR, which was catalytically inactive and could block phosphorylation of endogenous PKR, made EBV-negative BL cells resistant to IFN-alpha-induced apoptosis. Furthermore, EBERs did not bind mutant PKR, which was catalytically active but lacked dsRNA-binding activity, nor did they inhibit its phosphorylation. These results indicate that EBERs confer resistance to IFN-alpha-induced apoptosis via binding to PKR and inhibition of its phosphorylation. This is the first report that the virus counteracts IFN-induced apoptosis in virus-associated tumors.     

The cysteines in position 1 and 86 of rat interferon-alpha 1 are indispensable for antiviral activity

The human, bovine, murine and rat interferon (IFN)-alpha families contain 4 conserved cysteines located at positions 1, 29, 99 and 139 that are involved in disulfide bridges. Rat and murine IFN-alpha subspecies carry a fifth Cys (Cys-86) which is not conserved in bovine and human IFN-alpha subspecies except for human IFN-alpha 1. Changing Cys-86 in rat IFN-alpha 1 into Ser or Tyr virtually abolished antiviral activity. As shown by others, the substitution of Cys-86 to Ser in human IFN-alpha 1 had no pronounced effect on activity. This suggests that in contrast to human and bovine IFN-alpha, Cys-86 in rodent IFN-alpha plays a crucial role in receptor binding. Changing Cys-1 to Gly in rat IFN-alpha 1 also destroyed activity, in agreement with results obtained in the human IFN-alpha 1 system.     

Differences among the polyadenylated RNA sequences of human leucocyte populations: an approach to the objective classification of human leukaemias

We have constructed a complementary DNA (cDNA) library representing expressed sequences of the white blood cells from a patient with chronic granulocytic leukaemia. The library was screened by colony hybridization of 32P-labelled cDNAs synthesized from the polyadenylated RNAs of the white blood cells from patients with chronic granulocytic or chronic lymphocytic leukaemia. The autoradiographic patterns were compared and 70 recombinants were selected to comprise a panel which distinguished between these two types of leukaemia. Hybridization of this panel with complementary DNAs transcribed from the polyadenylated RNAs of a variety of normal and neoplastic leucocyte populations showed that the RNA sequences in high abundance in leucocytes from chronic granulocytic leukaemias differ quite radically from those in other leucocytes. The patterns of hybridization seen when this panel was challenged with cDNAs representing the RNAs of normal and leukaemic leucocyte populations were sufficiently different to distinguish clearly the peripheral blood leucocytes of chronic granulocytic leukaemias from other populations of white blood cells, both normal and leukaemic. We suggest that this approach might provide additional markers useful in the classification of the acute leukaemias, especially the undifferentiated leukaemias whose identification by conventional methods is uncertain.     

Expressed gene clusters associated with cellular sensitivity and resistance towards anti-viral and anti-proliferative actions of interferon

Interferons (IFN) are multi-functional proteins that induce a large number of genes which mediate many biological processes including host defense, cell growth control, signaling, and metabolism. Bioinformatics analysis of the 3'-untranslated regions of IFN-stimulated genes (ISGs) showed that the AU-rich elements (ARE) exist in approximately 10% of the mRNA induced by IFN. The human epithelial cell lines, WISH and 293, and the human B cell lines, Daudi and RPMI 1788, were assessed for their response to type-I IFN. Due to their differential response to the anti-viral and anti-proliferative action of IFN-alpha, they were used as cellular models for genome wide ARE-gene expression. The anti-viral and anti-proliferative actions of IFN-alpha were substantially more potent against WISH and Daudi cells than 293 and RPMI 1788 cells, respectively. These results correlated with the Stat1-driven gene expression as assessed by monitoring the expression of Stat1-mediated IFN-inducible 6-16 mRNA. Interferons were able to induce a significant proportion of common and distinct ARE-genes, but the patterns of expression were different and dependent on the type of the cell, type of IFN, and status of the cellular sensitivity to IFN. Clustering algorithms generated two informative expressed gene clusters that were selectively associated with cellular sensitivity and resistance to the anti-viral and anti-proliferative action of IFN. Use of rationally designed microarray experiments in IFN biology yielded informative clusters that may provide candidate genes for diagnostic or for evaluation of therapeutic possibilities.     

Anti-BDCA-4 (neuropilin-1) antibody can suppress virus-induced IFN-alpha production of plasmacytoid dendritic cells

Plasmacytoid dendritic cells (PDC) in human blood are the main source of virus-induced interferon (IFN)-alpha. They exhibit a lineage-negative phenotype but all express BDCA-4, which is homologous to the neuronal receptor neuropilin-1. Specific staining with anti-BDCA-4 antibody is used for positive isolation of PDC from blood by magnetic cells sorting. Here, it is demonstrated that these positively selected PDC showed reduced or completely abolished IFN-alpha release compared to unstained PDC, which were negatively selected by magnetic depletion of lineage-positive blood mononuclear cells. In addition, treatment of these unstained PDC with anti-BDCA-4 mAb also resulted in at least two-fold lower or reduced virus-induced IFN-alpha production. It is shown that the antibody not only affects cell survival or block virus attachment but also reduces IFN-alpha release induced by non-viral CpG oligodeoxynucleotides. In conclusion, data suggest an immunoregulatory role for BDCA-4 on PDC as demonstrated for IFN-alpha response to virus.