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.     

Role of serotonin in the regulation of human natural killer cell cytotoxicity

Addition of serotonin to mixtures of target cells and natural killer (NK)-enriched human mononuclear cells (MNC) in a 4-hr 51Cr-release assay strongly augmented NK cell cytotoxicity (NKCC) vs K562, Chang, or Molt-4 target cells. The effect was dose dependent at serotonin concentrations of 10(-4) to 10(-7) M, expressed at several effector to target cell ratios, and required the presence of accessory monocytes. A 5-HT1-specific receptor agonist, 8-OH-DPAT, mimicked the enhancing properties of serotonin with similar potency. Equimolar concentrations of the mixed 5-HT1/5-HT2 receptor antagonist cyproheptadine, but not the 5-HT2-specific antagonist ketanserin, completely blocked the serotonin-induced NKCC enhancement. Monocyte/NK cell mixtures incubated with serotonin for 1 hr produced a soluble factor that could enhance the cytotoxicity of autologous, NK-enriched cells depleted of monocytes, which did not respond to serotonin alone. The factor displayed no IFN or IL 2 activity as judged by the lack of antiviral activity and inability to support the growth of an IL 2-dependent cell line. In the presence of monocytes, serotonin (10(-5) M) was considerably more effective than human IFN-alpha or IFN-gamma at optimal concentrations and was about equally effective as IL 2 at a final concentration of 50 U/ml in a short-term NK assay. The potency and efficacy for serotonin were similar to that earlier reported for histamine in monocyte-containing effector cells. The NKCC-enhancing effect of serotonin was additive to that induced by IFN-alpha, IFN-gamma, or IL 2, but not to histamine. The presented data suggest an earlier unrecognized, serotonin receptor-mediated regulation of human NK cells.     

The quantitation of human growth hormone by a radioreceptor assay using an established human cell line

Membrane receptors on cultured human lymphocytes (IM-9) have been shown to bind human growth hormone (hGH) in a specific manner. The aim of the present study was to develop an in vitro assay of hGH based on this binding. The assay should fulfil established pharmacopoeial requirements for quantitation of hormones. The binding of [125I]hGH was studied as a function of time, temperature, cell density, tracer concentration and the concentration of unlabelled hGH and other related hormones. Also, the dissociation of bound hGH and the chemical stability of hGH in the incubation medium were studied. From these studies, the conditions for an appropriate radioreceptor assay were determined. Briefly, 1.5-3.0 X 10(7) cells ml-1 were incubated with 5-20 X 10(-12) M [125I]hGH and three different concentrations of unlabelled hGH chosen from the linear part of the [125I]hGH displacement curve. The results were analyzed according to general pharmacopoeial principles. The mean values for growth hormone activity tested by radioreceptor assay were within the fiducial limits (P = 0.05) of the corresponding activity determined by the hypophysectomized rat body-weight gain assay. The in vitro assay was found to be more precise and less resource demanding than the in vivo bioassay of hGH. It is concluded that the in vitro bioassay described here is well suited as a screening method for potency determination of hGH preparations.     

Correlation between the anti-virus-induced cytopathic effect activity of interferon-alpha subtypes and induction of MxA protein in vitro

There are several interferon-alpha (IFN-alpha) subtypes. Mechanism of disparity in biological effects among members of IFN-alpha subtypes remains unexplained. Biological activity of IFN-alpha is mediated in part by induction of intracellular antiviral proteins. We studied whether differences in biologic effects of IFN-alpha subtypes may rely on their antiviral protein inducing effect. Intracellular induction of MxA protein and anti-virus-induced cytopathic effect (CPE) activity of 11 IFN-alpha subtypes in human amnion WISH cells have been studied. MxA protein quantitation in cell lysates was performed by immunochemiluminescence assay and anti-virus-induced CPE activity was assessed by protection against vesicular stomatitis virus (VSV)-induced CPE. Range of MxA values was high when cells were treated with 10 and 100 IU/ml of each IFN-alpha subtype. Levels of MxA correlated with anti-VSV-induced CPE obtained with 10 IU/ml IFN-alpha subtype. Together our data show a disparity in MxA-inducing activity of IFN-alpha subtypes and suggest that differences in anti-VSV-induced CPE of IFN-alpha subtypes in WISH cells can be related to their different ability to induce MxA.     

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.     

Effect of double-stranded RNA and interferon type I on reproduction of cytomegalovirus in human fibroblasts]

Double-stranded RNAs (dsRNA) - larifan and ridostin, and recombinant interferons-alpha-2 and beta-1, manufactured in the USSR, inhibited the reproduction of CMV in cell culture. Antiviral effect depended on concentration of preparations, time of administration and m. o. i. DEAE-dextran enhances antiviral effect dsRNA. DsRNA and interferons added to cells infected with CMV at high m. o. i. enhance the viral reproduction. Among studied preparations highest antiviral effect was shown by natural leucocyte interferon (Egis). It was 10 times more active, than recombinant IFNs and in concentration of 1000 U/ml was comparable to activity of larifan (200 mg/ml).     

Single amino acid substitutions at conserved residues of human interferon-alpha can effect antiviral specific activity

Site-specific in vitro mutagenesis was used to direct various amino acid substitutions at conserved positions within the sequence of human interferon-alpha 1 (IFN-alpha 1). The antiviral specific activity of IFN-alpha 1, expressed in M13 as a fusion protein [IFN-alpha 1 (phi WT)], could be altered by single amino acid substitutions. The substitution of glycine for tyrosine at position 123 results in a loss of more than 99% of the antiviral specific activity on human cells, but causes no significant change in the antiviral specific activity on primary bovine cells. The tyrosine at position 123 is thus implicated in determining human cell specificity. Based on analysis of IFN-alpha 2, IFN-alpha 1 contains two dulsulphide bridges between cysteine residues 29 and 139 and cysteine residues 1 and 99. IFN-alpha 1 also contains a fifth cysteine residue at position 86. IFN-alpha 1 (phi WT) carrying three serine for cysteine substitutions at positions 1, 86 and 99 retains 23% of the antiviral specific activity of IFN-alpha 1 (phi WT) on human cells. However, the antiviral activity on bovine cells is not significantly affected by this modification. The presence of the disulphide bridge between residues 1 and 99 thus appears to be required for full antiviral activity on human but not bovine cells. A single serine for cysteine substitution at position 29 reduces the antiviral specific activity on both human and bovine cells by some 95%. This data shows that the disulphide bridge between residues 29 and 139 is critical for the antiviral activity of IFN-alpha's.     

Effect of interferon-alpha on immunoglobulin synthesis by human B cells

We have investigated the effect of human recombinant interferon-alpha (IFN-alpha) on mitogen-induced immunoglobulin (Ig) production by peripheral blood mononuclear cells from normal individuals. Low concentrations (1 to 100 IU/ml) of IFN-alpha enhanced pokeweed mitogen-stimulated Ig production. In contrast, high concentrations of IFN-alpha (10(5) IU/ml) suppressed pokeweed mitogen-induced Ig production. Irradiation of T cells did not ablate the high dose suppression, indicating that suppression was not due to a radiation-sensitive T cell. Kinetic experiments revealed that IFN-alpha needed to be added to 10 day cultures within the first 72 hr for either enhancement or suppression to be noted. Preincubation of purified B cells with IFN-alpha suppressed Ig production as completely as when unfractionated mononuclear cells were incubated with IFN-alpha. On the other hand, preincubation of T cells or monocytes with IFN-alpha had no effect on subsequent Ig production in reconstituted mononuclear cell cultures. Mitogen-induced proliferation of purified B cells was not affected by IFN-alpha at any concentration, but Ig production by purified B cells stimulated with Staphylococcus aureus Cowan I or anti-mu and B cell differentiation factors responded to IFN-alpha with low concentration enhancement and high concentration suppression. Studies of Ebstein-Barr virus-transformed B cell lines showed that IFN-alpha caused a similar effect on the CESS line as on peripheral blood B cells, with low dose enhancement and high dose suppression of Ig production. Thus one IFN-alpha effect is to modulate Ig production, and this appears to be a direct effect on B cells. Combined with the data in the accompanying paper, the effects of IFN-alpha on B cell function are similar in vivo and in vitro.     

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.     

Comparison of augmentation of human natural killer cell cytotoxicity by interferon-alpha subtypes

The capacity of 3 interferon-alpha (IFN-alpha) subtypes, alpha 1, alpha 2 and alpha 4, to augment human natural killer cytotoxicity after exposure in vitro was shown to be dose-dependent and to differ according to subtype. With 10(2) IU/ml, the lowest IFN concentration used, stimulation of NK activity by IFN-alpha 2 was consistently and significantly greater than by IFN-alpha 4 or IFN-alpha 1. An IFN-alpha analogue in which arginine and lysine residues 121 and 122 were replaced by 2 leucines was generated by site-directed in vitro mutagenesis of the IFN-alpha 4 gene; at equivalent concentrations of antiviral activity, this analogue was 10-fold less effective in NK stimulation. There was a lack of correlation between NK-stimulatory and other activities of the IFN-alpha subtypes and the mutant, suggesting that different biological activities may be mediated by different regions of the IFN-alpha molecule.     

Stimulation of in vitro immunoglobulin production by interferon-alpha

The effect of various natural and recombinant DNA-derived human interferon-alpha (IFN-alpha) on immunoglobulin (Ig) production by human B cells was investigated. The cell populations examined included peripheral blood mononuclear cells (PBMC) and highly purified B cell and helper T cell populations obtained by negative selection by using monoclonal antibodies and a fluorescence-activated cell sorter. In the presence of all forms of IFN-alpha tested, IgG and IgM production by PBMC increased twofold to fourfold. This increase was noted in the absence of pokeweed mitogen (PWM), was not affected by depletion of monocytes, required that IFN-alpha was present early in the culture period, and reached maximal levels around 500 U/ml IFN-alpha. Both IgG and IgM production were affected, but the magnitude of the IgM response was greater. The augmentation of Ig production was noted with the recombinant DNA-derived subtype, IFN-alpha F, two analogs, IFN-alpha Con1 and IFN-alpha Con2, as well as with buffy-coat-derived (leukocyte) IFN-alpha. The recombinant DNA-derived forms of IFN-alpha appeared to differ in their ability to augment Ig production. In the presence of PWM, IFN-alpha Con1 failed to increase Ig production by PBMC. In contrast to these results with PBMC, IFN-alpha Con1 increased the Ig production of purified B cells 10- to 20-fold in the presence of PWM. This increase reached maximal levels around 500 U/ml IFN-alpha Con1. Although purified B cells responded to IFN-alpha and PWM, maximal responses occurred in the presence of low numbers of helper T cells. Cell dilution experiments suggested that the effect observed with purified B cells was the result of the interaction of B cells with residual cells, e.g., helper T cells, remaining in the preparations.     

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.     

In vivo and in vitro induction of (2'-5') oligoadenylate synthetase by human interferons in leukocytes from healthy donors and patients with renal cancer and hairy cell leukemia

The effect of in vivo administered interferon-alpha (IFN-alpha) on 2-5-oligoadenylate (A) synthetase activity of peripheral blood mononuclear cells (PBMC) was compared in patients with hairy cell leukemia and renal cell cancer. Basic levels of this enzyme varied from donor to donor, but mean levels were not significantly different in patients with renal cell cancer or hairy cell leukemia compared to healthy donors. After a single injection of 3 x 10(6) IU IFN, these basic levels rose 2- to 8-fold within 12-24 h post-injection and reverted to pretreatment levels after 48 h. The extent of this in vivo stimulation by IFN-alpha was similar in patients with hairy cell leukemia and renal cell carcinoma, and was correlated with down-regulation of IFN-alpha receptors. The in vitro effects of IFN-alpha, -beta and -gamma were compared after 18 h treatment with 10, 10(2) and 10(3) IU/ml of each IFN. Unlike IFN-alpha and -beta, IFN-gamma did not induce 2-5 A synthetase activity in either normal PBMC or hairy cells; these results were related to the effects of the three IFN on proliferative response of normal PBMC to phytohemagglutinin. Our data support the idea that 2-5 A synthetase activity is a marker of biological response to interferon treatment in human cancers.     

Different induction patterns of mRNA for IFN-alpha and -beta in human mononuclear leukocytes after in vitro stimulation with herpes simplex virus-infected fibroblasts and Sendai virus

Human peripheral blood mononuclear leukocytes (PBL) were stimulated in vitro by HSV type 1-infected glutaraldehyde-fixed fibroblasts, or Sendai virus (SV). The PBL containing mRNA for IFN-alpha 2 or -beta 1 were clearly identified by RNA-RNA in situ hybridization by using 35S-labeled alpha 2- and beta 1-probes. Although the two inducers gave similar levels of IFN in the culture medium (about 20 U/10(4) PBL), the patterns of expression of mRNA at the cellular level differed. The HSV induced only IFN-alpha mRNA in the PBL, with a lag of 1 to 2 h, and with a peak frequency of about 10 labeled cells/10(4) PBL at 6 h. Grain counts were high, the majority of cells having more than 50 grains. They were morphologically medium to large lymphocytes. The HSV-infected glutaraldehyde-fixed fibroblasts therefore induce IFN-alpha 2 mRNA in infrequent but highly efficient PBL, each cell capable of producing as much as 2 antiviral units of IFN-alpha. In contrast, SV induced both IFN-alpha 2 and -beta 1 mRNA in PBL, and without clear lags. IFN-beta 1 mRNA-positive PBL peaked somewhat earlier (4 h) than cells containing IFN-alpha 2 mRNA (6 h), and their mean frequencies were approximately 80 and 60/10(4) PBL, respectively, in a panel of PBL from six blood donors. Grain counts were lower than with the HSV inducer, the majority of cells having less than 50 grains, and most labeled cells were morphologically monocytes. The frequency of labeled PBL rapidly decreased with increasing culture time with both the SV and HSV inducers, was low at 12 h and almost absent at 24 h.     

Natural alpha interferon-producing cells respond to human immunodeficiency virus type 1 with alpha interferon production and maturation into dendritic cells

Natural alpha interferon (IFN-alpha)-producing cells (IPCs) are now recognized as identical to plasmacytoid dendritic cell (DC) precursors in human blood and are thought to play an important role in antiviral immunity. In the present study, we examined the susceptibility as well as the cellular responses of IPCs to human immunodeficiency virus type 1 (HIV-1) infection. HLA-DR(+) CD11c(-) lineage-negative cells (IPCs) were purified from peripheral blood mononuclear cells by magnetic-bead separation and cell sorting. We substantiated that IPCs expressing the major HIV-1 coreceptors, CXCR4 and CCR5, are susceptible to infection of both T-cell-line-tropic NL4-3 and macrophage-tropic JR-CSF HIV-1 by quantification of HIV-1 p24 in the culture supernatants and by provirus integration assay using human conserved Alu-HIV-1 long terminal repeat PCR. To evaluate the cellular response of IPCs to HIV-1, we examined IFN-alpha production and their differentiation into DCs. After incubation with either NL4-3 or JR-CSF, IPCs produced a large amount of IFN-alpha and at the same time underwent morphological differentiation into DCs with upregulation of CD80 and CD86. Heat inactivation of the supernatants containing HIV-1 did not affect the IFN-alpha production and maturation, whereas removal of virions by ultracentrifugation completely nullified both biological effects, indicating that these cellular responses do not require actual HIV-1 infection but are elicited by interaction with HIV-1 virions or certain viral components. In conclusion, these data strongly suggest that IPC can directly recognize and respond to HIV-1 with IFN-alpha production, which is crucial for preventing progress of HIV-1 infection and occurrence of opportunistic infection.