Synergistic antiviral and antiproliferative activities of Escherichia coli-derived human alpha, beta, and gamma interferons

The antiviral and antiproliferative effects of highly purified Escherichia coli-derived human interferons (IFNs) were examined in human melanoma cells (Hs294T). Antiproliferative activity was monitored by measuring inhibition of cell multiplication, and antiviral activity was determined by inhibition of herpes simplex virus type 1 replication. Treatment of cells with IFN-gamma in combination with IFN-alpha A or IFN-beta 1 resulted in potentiation of both antiproliferative and antiviral activities. In contrast, combination treatments composed of IFN-alpha A and IFN beta 1 yielded inconsistent results. Some combinations reflected additive responses, whereas others were antagonistic. To examine correlations between IFN-induced biological activities and interactions of the different IFNs with cell surface receptors, in vivo [35S]methionine-labeled IFN-alpha A was prepared. Binding studies indicated the presence of 2,980 +/- 170 receptors per cell, each with an apparent Kd of (8.4 +/- 1.3) X 10(-11) M. Results from competitive binding studies suggested that Hs294T cells possess at least two types of IFN receptors: one which binds IFN-alpha A and IFN-beta 1 and another to which IFN-gamma binds.     

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.     

Enhancement of interferon-induced 2–5 oligoadenylate synthetase activity by retinoic acid in human histiocytic lymphoma U937 cells and WISH cells

The effect of retinoic acid (RA) on the level of interferon (IFN)-induced 2-5 oligoadenylate (2-5A) synthetase activity was examined in human histiocytic lymphoma U937 cells and WISH cells** in order to ascertain the role of this polymerase in interaction between IFNs and RA. Cultures containing both IFNs (1-100 U/ml) and RA (0.1-10 microM) consistently had higher levels of enzyme activity than corresponding cells treated with IFN alone and this was true for all three types of IFNs in both cell lines. The potentiating effect of RA was dose- and time-dependent and under optimal conditions, the induction of the synthetase was synergistic between IFN-beta (10-100 U/ml) and RA (0.1-10 microM). Furthermore, pretreatment (but not posttreatment) with RA followed by subsequent treatment with IFNs preferentially induced higher levels of enzyme activity in U937 cells but not in WISH cells. In addition, our results indicated that the modulating effect of RA on IFNs did not involve interaction at the receptor level and the level of enhancement of 2-5A synthetase activity was not in parallel with either cell-growth arrest or promotion of differentiation. Lastly, the present study raises the possibility that interactions between IFNs and RA, in either a synergistic or antagonistic manner, may be mediated through amplification of the 2-5A system.     

Isolation, purification and biochemical characterization of human placental interferons by tandem high-performance affinity chromatography.

Human placental trophoblasts, fibroblasts and the trophoblast-derived malignant cell JAR are potent producers of interferons (IFNs) when stimulated with Sendai virus. The three cell lines produced different levels and compositions of IFN-alpha subtypes and IFN-beta. Anti-IFN globulins, Cibacron Blue F3GA and Concanavalin A were covalently immobilized on pressure-stable, macroporous polymeric matrices derivatized with vinyl sulphone (HEMA-BIO 1000 VS and HEMA 1000 VS). These supports were packed in biocompatible PEEK columns and were coupled with switching valves, to develop a tandem high-performance affinity chromatographic (HPAC) method for the isolation, purification and biochemical characterization of the IFNs produced in Sendai virus-stimulated human placental trophoblasts, fibroblasts and trophoblast-derived malignant cell, JAR, cultures. Silver-stained SDS-PAGE and gel densitometric analysis revealed the purity of the purified proteins to be between 94 and 98%. Specific activities of the purified IFNs ranged between 0.37-2.76 x 10(8) IU/mg of protein with cumulative recoveries between 90 and 92.2%. The purified IFN components exhibited quantitatively different antiviral activities in human and bovine cell lines. The utility of the tandem method for the purification and characterization of human type 1 IFNs produced from other cell lines are also discussed.     

A CpG oligodeoxynucleotide inducing anti-coxsackie B3 virus activity in human peripheral blood mononuclear cells

Coxsackie B3 virus (CVB3) is the most significant pathogen causing myocarditis in humans, and antiviral therapy would be most effective in the early stages of the disease. Here we provide evidence that BW001, a C-type CpG oligodeoxynucleotide, induces anti-CVB3 activity in human peripheral blood mononuclear cells (PBMCs). In parallel, we have demonstrated that BW001 induces human PBMCs to express mRNAs of multiple types of interferon (IFN), including IFN-alpha, IFN-beta, IFN-omega and IFN-gamma, and to express mRNAs of at least 11 subtypes of IFN-alpha. The induced IFNs may contribute to the anti-CVB3 activity. The results suggest that BW001 could be developed into a medication with the potential to treat CVB3 infectious diseases by inducing natural mixed IFNs.     

A comparison of the antitumor effects of interferon-alpha and beta on human hepatocellular carcinoma cell lines

The antiviral, antiproliferative and immunomodulatory effects of type I interferons (IFNs) are well documented, however, few studies have been published concerning differences in the antitumor effects of IFN-alpha and beta. In the present study, differences in antitumor effect, including the antiproliferative effect, cell cycle change, apoptosis, and the IFN-stimulated gene (ISG) were examined by flow cytometry between IFN-alpha and beta on three human hepatocellular carcinoma (HCC) cell lines (HepG2, Huh7 and JHH4). The antiproliferative effect of both IFNs on the HCC cell lines was time- and dose-dependent, and IFN-beta was significantly stronger than IFN-alpha. The cell cycle effect by both IFNs was an S-phase accumulation, with IFN-beta having a tendency to increase the S-phase ratio more strongly than IFN-alpha, especially in Huh7. Apoptosis marker expression, Fas antigen and intracellular active caspase-3, was increased after the addition of IFNs, especially of IFN-beta. The expression of human leukocyte antigen-class I molecules, ISG-encoded protein, was increased after the addition of IFNs, especially of IFN-beta. These data suggest that IFN-beta has a greater antitumor effect than IFN-alpha on HCC of a very early stage in patients with chronic hepatitis C.     

Effect of interferon on the production of HBsAg and induction of an antiviral state in human hepatoma cell line PLC/PRF/5

The effects of human alpha and beta interferons (IFN) on the production of HBsAG by PLC/PRF/5 cells, an HBsAg-producing human hepatoma cell line, were studied in the exponential and stationary phases of cell growth. When exponential phase cells were treated with 100 or 1,000 U of IFN per ml for 48 hr. the amount of HBsAg in the culture medium decreased. The number of cells and the synthesis of DNA and proteins were also reduced by the IFN treatment. These results suggested that IFN did not affect the production of HBsAg specifically in exponential phase cells. When cells in the stationary phase were similarly treated with IFN, HbsAg production was not inhibited nor did the number of cells decrease. To examine the antiviral state induced by IFN in PLC/PRF/5, induction of 2'5'-oligo (A) synthetase and susceptibility to two kinds of viruses were examined. The 2'5'-oligo (A) synthetase activity was increased in an IFN-dose dependent manner. Susceptibility to vesicular stomatitis virus (VSV) and encephalomyocarditis virus (EMCV) was decreased by treatment with 10 and 100 U of IFN per ml for 20 hr. It was concluded that IFN-alpha and IFN-beta induce 2'5'-oligo (A) synthetase and the antiviral state, but do not inhibit HBsAg production by PLC/PRF/5 cells.     

Differential effects of type I IFN and IFN-gamma on the binding of tumor necrosis factor to receptors in two human cell lines

The effect of IFN-alpha and IFN-beta on the expression of cell surface receptors for tumor necrosis factor (TNF) was examined in two human cell lines. In HeLa cells, IFN-alpha and IFN-beta increased 125I-TNF binding, whereas in HT-29 cells these two IFN either slightly decreased or had no effect on 125I-TNF binding. In contrast, IFN-gamma increased 125I-TNF binding in both cell lines. Both IFN-alpha and IFN-beta exerted an antagonistic effect on IFN-gamma-induced stimulation of TNF receptor expression in HT-29 cells, but did not inhibit TNF receptor induction by IFN-gamma in HeLa cells. IFN-gamma and, to a lesser extent, IFN-beta were synergistic with TNF in producing cytotoxic/cytostatic activity in HT-29 cells. Despite the inhibitory effect of IFN-beta on the IFN-gamma-induced stimulation of TNF receptor expression, IFN-beta did not inhibit the synergistic enhancement of TNF cytotoxicity by IFN-gamma in HT-29 cells. The dissociation between the effects of IFN-beta on TNF receptor expression and on the cytotoxic activity of TNF in HT-29 cells suggests that TNF receptor modulation is not a major mechanism of synergism between IFN and TNF.     

Biological characteristics of interferon-r-induced resistant histiocytic lymphoma cell line U937

A brief exposure (for 6 h) of U937 cells to interferon (IFN)-gamma (500 U/ml) followed by a long term incubation of cells in normal medium for 8 or more weeks resulted in the induction of cells that were refractory to the anticellular and differentiating effects of not only IFN-gamma but also IFN-alpha and IFN-beta at concentrations up to 10(4) U/ml. In addition, the cells became insensitive to the potent differentiating effect of the phorbol ester--tumor promoting agent (TPA). However, the resistant cells retained their sensitivity to the antiviral effect of different IFNs and were fullu responsive to the induction of endonuclease 2',5'-oligoadenylate (2-5A) synthetase by IFN. Furthermore, the resistant cell population appeared to be homogeneous because clones derived from single cells from this population all exhibited the same resistant phenotype to IFN and TPA. These results suggest that induction of resistant U937 cells may involve a dedifferentiation process which results in the formation of an immature cell population that do not respond to the differentiating and/or anticellular effects of various types of IFNs.     

Interferon-beta from melanoma cells suppresses the proliferations of melanoma cells in an autocrine manner

Interferon (IFN)-alpha and IFN-beta have been utilized in the treatment of melanoma as a form of cytokine therapy. While previous studies have demonstrated that melanocytes and melanoma cells produce a number of cytokines, it remains unclear whether or not melanocytes and melanoma cells per se produce IFN-alpha or IFN-beta. In the present study, we investigated the expression of IFN-alpha or IFN-beta in human melanocytes and five melanoma cell lines: G-361, C32TG, MMAc, MEWO and VMRC-MELG at both mRNA and protein levels. Both IFN-alpha and IFN-beta mRNA were detected in normal human melanocytes. Likewise, IFN-alpha mRNA was detected in all five melanoma cell lines. However, IFN-beta mRNA was only detected in one melanoma cell line, VMRC-MELG. When melanocytes and melanoma cells were treated with a potent IFN inducer, polyinosinic:polycytidylic acid (poly I:C), the mRNA expression of both IFN-alpha and IFN-beta was significantly upregulated. Poly I:C was not able to induce melanocytes or melanoma cells to produce detectable amounts of IFN-alpha protein, but able to induce a significant amount of IFN-beta in melanocytes and two of the melanoma cell lines: MMAc and VMRC-MELG. Moreover, similar to exogenous IFN-alpha and IFN-beta, poly I:C significantly inhibited the proliferation of all five melanoma cell lines. This suppressive effect was partially blocked by anti-IFN-beta antibody treatment in the IFN-beta-producing melanoma cell lines: MMAc and VMRC-MELG, but not in the non-IFN-beta-producing cell lines: G-361, C32TG and MEWO. Collectively, these studies have demonstrated for the first time that human melanocytes and melanoma cells produce IFN-beta. Furthermore, melanoma cells are capable of suppressing their own proliferation via secretion of endogenous IFN-beta. This finding may have important implications for melanoma therapy.     

Enhanced inhibition of hepatitis B virus production by asialoglycoprotein receptor-directed interferon

Most chronic carriers of hepatitis B virus (HBV) do not respond to interferon (IFN) treatment. This limitation of IFN therapy may be due in part to scant expression of IFN receptor in the liver. Because the asialoglycoprotein (ASGP) receptor is specifically expressed in the liver at high density, the ASGP receptor-binding domain was generated within an N-glycosylated human IFN-beta molecule by the removal of sialic acid to direct this cytokine to the liver. This modified IFN (asialo-IFN-beta) demonstrated greater inhibition of HBV production in ASGP receptor-positive human liver cells transfected with a replication-competent HBV construct than did conventional IFN-alpha or IFN-beta. Furthermore, the enhanced antiviral effect of asialo-IFN-beta was supported by induction of the 2'-5' oligoadenylate synthetase, an indicator of IFN activity, at a level significantly higher than that produced by conventional IFN-beta. Moreover, mouse asialo-IFN-beta profoundly reduced viremia in vivo in HBV-transfected athymic nude mice, in contrast to conventional IFN-beta, which had no substantial effect. These experiments demonstrate that directing IFN to ASGP receptor facilitates its signaling in the liver and augments its antiviral effect, and is therefore useful in overcoming the limited antiviral effect of conventional IFNs.     

Priming affects the activity of a specific region of the promoter of the human beta interferon gene.

Treatment of Daudi or HeLa cells with human interferon (IFN) alpha 8 before induction with either poly(I)-poly(C) or Sendai virus resulted in an 8- to 100-fold increase in IFN production. The extent of priming in Daudi cells paralleled the increase in the intracellular content of IFN-beta mRNA. IFN-alpha mRNA remained undetectable in poly(I)-poly(C)-treated Daudi cells either before or after priming. An IFN-resistant clone of Daudi cells was found to produce 4- to 20-fold more IFN after priming, indicating that priming was unrelated to the phenotype of IFN sensitivity. IFN treatment of either Daudi or HeLa cells transfected with the human IFN-beta promoter (-282 to -37) linked to the chloramphenicol acetyltransferase (CAT) gene resulted in an increase in CAT activity after induction with poly(I)-poly(C) or Sendai virus. A synthetic double-stranded oligonucleotide corresponding to an authentic 30-base-pair (bp) region of the human IFN-beta promoter between positions -91 and -62 was found to confer virus inducibility upon the reporter CAT gene in HeLa cells. IFN treatment of HeLa cells transfected with this 30-bp region of the IFN-beta promoter in either the correct or reversed orientation also increased CAT activity upon subsequent induction. IFN treatment alone had no detectable effect on the activity of either the 30-bp region or the complete human IFN promoter.     

Degradation of STAT1 and STAT2 by the V proteins of simian virus 5 and human parainfluenza virus type 2, respectively: consequences for virus replication in the presence of alpha/beta and gamma interferons

Human cell lines were isolated that express the V protein of either simian virus 5 (SV5) or human parainfluenza virus type 2 (hPIV2); the cell lines were termed 2f/SV5-V and 2f/PIV2-V, respectively. STAT1 was not detectable in 2f/SV5-V cells, and the cells failed to signal in response to either alpha/beta interferons (IFN-alpha and IFN-beta, or IFN-alpha/beta) or gamma interferon (IFN-gamma). In contrast, STAT2 was absent from 2f/PIV2-V cells, and IFN-alpha/beta but not IFN-gamma signaling was blocked in these cells. Treatment of both 2f/SV5-V and 2f/PIV2-V cells with a proteasome inhibitor allowed the respective STAT levels to accumulate at rates similar to those seen in 2fTGH cells, indicating that the V proteins target the STATs for proteasomal degradation. Infection with SV5 can lead to a complete loss of both phosphorylated and nonphosphorylated forms of STAT1 by 6 h postinfection. Since the turnover of STAT1 in uninfected cells is longer than 24 h, we conclude that degradation of STAT1 is the main mechanism by which SV5 blocks interferon (IFN) signaling. Pretreatment of 2fTGH cells with IFN-alpha severely inhibited both SV5 and hPIV2 protein synthesis. However, and in marked contrast, pretreatment of 2fTGH cells with IFN-gamma had little obvious effect on SV5 protein synthesis but did significantly reduce the replication of hPIV2. Pretreament with IFN-alpha or IFN-gamma did not induce an antiviral state in 2f/SV5-V cells, indicating either that the induction of an antiviral state is completely dependent on STAT signaling or that the V protein interferes with other, STAT-independent cell signaling pathways that may be induced by IFNs. Even though SV5 blocked IFN signaling, the addition of exogenous IFN-alpha to the culture medium of 2fTGH cells 12 h after a low-multiplicity infection with SV5 significantly reduced the subsequent cell-to-cell spread of virus. The significance of the results in terms of the strategy that these viruses have evolved to circumvent the IFN response is discussed.     

Microinjection of anti-interferon antibodies into cells does not inhibit the induction of an antiviral state by interferon.

Affinity-purified polyclonal antibodies directed against human lymphoblastoid interferon (IFN), Escherichia coli-derived human IFN-alpha 2, or two synthetic fragments of human IFN-alpha 1 all neutralized the antiviral activity of human alpha IFNs when added to the culture medium of MDBK cells together with IFNs. However, when these antibodies were microinjected into the cytoplasm or the nucleus of cells, subsequent treatment of the cells with IFNs induced full protection against vesicular stomatitis virus. This suggests that IFNs themselves need not act in the cytoplasmic compartment or the nucleus to induce an antiviral state.     

Effects of type I interferons on Friend retrovirus infection

The type I interferon (IFN) response plays an important role in the control of many viral infections. However, since there is no rodent animal model for human immunodeficiency virus, the antiviral effect of IFN-alpha and IFN-beta in retroviral infections is not well characterized. In the current study we have used the Friend virus (FV) model to determine the activity of type I interferons against a murine retrovirus. After FV infection of mice, IFN-alpha and IFN-beta could be measured between 12 and 48 h in the serum. The important role of type I IFN in the early immune defense against FV became evident when mice deficient in IFN type I receptor (IFNAR(-/-)) or IFN-beta (IFN-beta(-/-)) were infected. The levels of FV infection in plasma and in spleen were higher in both strains of knockout mice than in C57BL/6 wild-type mice. This difference was induced by an antiviral effect of IFN-alpha and IFN-beta and was most likely mediated by antiviral enzymes as well as by an effect of these IFNs on T-cell responses. Interestingly, the lack of IFNAR and IFN-beta enhanced viral loads during acute and chronic FV infection. Exogenous IFN-alpha could be used therapeutically to reduce FV replication during acute but not chronic infection. These findings indicate that type I IFN plays an important role in the immediate antiviral defense against Friend retrovirus infection.     

Differential induction of 2',5'-oligoadenylate synthetase by IFN-beta ser and IFN-alpha 2 in serum-supplemented and serum-free HL-60 leukemic cell cultures

The influence of cell culture conditions on the induction of 2',5'-oligoadenylate (2-5A) synthetase by recombinant interferons IFN-beta ser and IFN-alpha 2 has been investigated in human HL-60 leukemic cells. Cells maintained either in the fetal bovine serum-supplemented medium (FBS-SM) or in a serum-free, chemically defined Nutridoma-supplemented medium (SFN-SM) are treated with different concentrations of the two types of IFN and the extent of 2-5A synthetase induction compared. While cells in FBS-SM show a substantially greater increase in 2-5A synthetase by IFN-beta ser than cells in SFN-SM, the latter culture condition is significantly more effective in elevating synthetase activity with the addition of IFN-alpha 2. These data suggest that there are growth modulators and other "factors" in the fetal bovine serum which may interact specifically with each type of IFN to coordinate the optimal expression of the 2-5A synthetase protein.