Antiviral and anticellular effects of interferon on the mouse embryonic cells transformed by viruses and/or chemical carcinogen.

The antiviral and anticellular activity of partially purified mouse interferon has been tested in cell lines transformed with Simian Virus 40 (MEB-SV 40), mouse sarcoma virus (Harvey strain) (MEB-MSV), and 20-methylcholanthrene (MEB-MCH), respectively. The transformed lines were derived from C3H mouse embryonic primary cells. It has been shown that the MEB-MSV cells were 10 to 50 times less sensitive to the antiviral effect of interferon than the MEB-SV 40 or MEB-MCH cells. A 30% reduction of the number of treated cells as compared with untreated control cells was taken as basis for comparison of anticellular activity of interferon in transformed lines. While the MEB-MCH cells required 1000 units of interferon for a 30% growth inhibition, about 3000 units were necessary for a comparable suppression of MEB-SV 40 cells and/or MEB-MSV cells.     

Some biological properties of the human amniotic membrane interferon.

Human amniotic interferon was investigated to define the species specificity of its antiviral action and to compare its anti-cellular and NK cell stimulating activities with those of other human interferons. The antiviral effect was titrated in bovine (RV-IAL) and monkey (VERO) cells. Amniotic interferon exhibited, in bovine cells, 5% of the activity seen in monkey cells, while alpha interferon displayed 200%. No effect was detected with either beta or gamma interferon in bovine cells. Daudi cells were exposed to different concentrations of various interferons and the cell numbers were determined. The anticellular effect of the amniotic interferon reached its peak on the third day of incubation. Results suggested a higher activity for alpha and gamma interferons and a lower activity for beta when compared to amniotic interferon. Using total mononuclear cells as effector cells and K 562 as target cells in a 51Cr release assay, it was demonstrated that low concentrations of amniotic interferon consistently stimulated NK cell activity in cells derived from several donors, the results indicating a higher level of activity with this interferon than with alpha and beta interferons.     

Role of the carboxy-terminal sequence on the biological activity of human immune interferon (IFN-γ)

The biological activity of human immune interferon depends on its carboxy-terminal structure. New genes coding for mature immune interferon molecules lacking 4, 5, 6, 8, 9, 10 and 11 amino acid residues were constructed, expressed in Escherichia coli and purified to homogeneity. Deletions with 14 and 18 carboxy-terminal amino acids were obtained by limited proteolysis of full-length immune interferon with mouse submaxillary gland ‘Arg-C’ protease and human plasmin, respectively. If a limited number of carboxy-terminal residues are removed, the antiviral and antiproliferative activities and the potential to activate macrophages is drastically enhanced. Maximal enhancement is found with the deletion of 9 or 10 residues. However, removal of 14 or more carboxy-terminal residues results in a sharp decrease of activity. We suggest that human immune interferon is synthesized as a preprotein and that its activity is modulated by proteolytic digestion.     

Antibody to staphylococcal enterotoxin A-induced human immune interferon (IFN gamma)

Antiserum to human gamma interferon (IFN gamma) was produced in rabbits immunized with partially purified (10(4.8) to 10(6.2) antiviral U/mg protein) staphylococcal enterotoxin A-induced IFN gamma. Staphylococcal enterotoxins, phytohemagglutinin M, concanavalin A, and pokeweed mitogen-induced antiviral activity in human leukocyte cultures was neutralized to undetectable levels by the antiserum. However, human leukocyte interferon (IFN alpha), human fibroblast interferon (IFN beta), and mouse interferons were not neutralized by the antiserum. After determining the antiserum was specific for IFN gamma and did not neutralize other known types of interferon, it was used with antibody to human IFN alpha to demonstrate the type(s) of interferon stimulated by some new inducers and antigens. Galactose oxidase- and calcium ionophore-induced interferons were neutralized to undetectable levels by the antiserum to IFN gamma. Interferon produced in leukocyte cultures from tuberculin-negative individuals stimulated with tuberculin-purified protein derivative or old tuberculin was IFN alpha, whereas interferon from tuberculin-positive individuals was a combination of alpha and gamma IFN. In addition, the antiserum neutralized the anticellular and natural killer cell enhancement activities of IFN gamma preparations. The specificity of this antiserum for IFN gamma indicates that it is an additional, powerful tool for identifying and classifying known and new interferons produced in vitro or in vivo and for investigating the role(s) of IFN gamma during the course of infectious, neoplastic, and autoimmune diseases.     

Radioactive human lymphoblastoid interferon. One-step purification, regulation of heterogeneous species production and its use for radioimmunoassay

Human lymphoblastoid interferon (alpha type), labeled with [3H]leucine added to virus-induced Namalwa cells, was purified quantitatively and in one step from the culture fluid by immune precipitation. The material showed, upon polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, only four radioactive bands with molecular weights ranging from 17000 to 21000, which coincided well with interferon activity. They coincided also with the four interferon protein bands in the electropherogram of unlabeled interferon purified by a different method. The purity of the labeled interferon was ascertained also by polyacrylamide gel electrophoresis in the absence of dodecyl sulfate. Pulse-labeling of interferon with [3H]leucine for 1 h at various times after induction indicated that the cells always synthesized and secreted the four interferon species in parallel during the interferon production period. Competitive radioimmunoassay for human interferon alpha was achieved by the use of purified radioactive interferon, anti-(interferon alpha) serum, and bacterial adsorbent. The immune precipitation of the labeled interferon was inhibited by unlabeled interferon alpha, and 100 international reference units of interferon alpha could be measured in this way.     

Human interferon enhances gunaylate cyclase activity

Partially purified human leukocyte interferons, partially purified human lymphoblastoid interferon, and human fibroblast interferon enhanced rat liver, kidney, and splenic guanylate cyclase {E.C.4.6.1.2.} activity 2–4 fold at 5 μIU concentration. Dose-response relationships revealed that the human leukocyte interferons enhanced splenic guanylate cyclase activity at concentrations as low as 0.01 μIU while a concentration of 1 μIU for partially purified human lymphoblastoid interferon and 10 μIU concentration for human fibroblast interferon were necessary to see any effect on guanylate cyclase activity.     

Chemical modifications of tyrosyl residue(s) and action of human-fibroblast interferon

Partially purified and purified human fibroblastoid interferon were iodinated and nitrated under experimental conditions in which the most likely amino acyl residue modified was tyrosine(s). The modification resulted in a loss of human interferon activity suggesting that tyrosyl residue(s) is associated with the antiviral action of human interferon.     

Interferon alpha/beta selectively antagonises down-regulation of mannosyl-fucosyl receptors on activated macrophages by interferon gamma

Previous reports have described synergism of various interferon preparations in anticellular and antiviral activity. We report that recombinant interferon (rIFN gamma) and IFN alpha/beta mediate distinct, antagonistic effects on expression of a lectin-like receptor for mannose and fucose (MFR) on mouse peritoneal macrophages (M phi). IFN gamma down-regulates MFR activity, a highly reproducible change in mouse M phi activated to secrete enhanced levels of o-2/H2o2. IFN alpha/beta enhances MFR activity and prevents the action of IFN gamma when added in combination. Antagonism is selective for this M phi activation marker and requires a minimum 4 h exposure period to rIFN gamma, during which IFN alpha/beta can prevent its action.     

Bacteria-derived human leukocyte interferons alter in vitro humoral and cellular immune responses

Cultures of gradient-purified human peripheral blood mononuclear cells (PBMC) have been employed to examine the effects of three bacteria-derived human leukocyte interferon subtypes on certain aspects of in vitro immune responses. The addition of highly purified IFN-alpha 1, -alpha 2, -alpha 2/alpha 1 to PMBC cultures stimulated with phytohemagglutinin (PHA) or pokeweed mitogen resulted in a significant suppression of the mitogenic response. This suppression required the presence of interferon in the cultures because pretreatment of cells and removal of interferon had no effect on their response to PHA. The presence of these interferons at 200 U/ml also caused a substantial reduction of human mixed-lymphocyte reactions (MLR) as measured by [3H]thymidine incorporation by responder cells. Interestingly, pretreatment of stimulator cells was sufficient for this reduction to occur whereas pretreatment of responder cells had no effect on their ability to respond to allogenic stimulation. In contrast to these suppressive effects, the three interferons enhanced human in vitro primary immune response to sheep red blood cells (SRBC). These data demonstrate that both purified interferon subtypes and genetic hybrids of human interferons produced by recombinant DNA technology have effects on in vitro immune responses.     

Monitoring biodistribution of glycoproteins with modified sugar chains

Natural human interferon (hIFN)-gamma has mainly biantennary complex-type sugar chains. Previously, we successfully remodeled its sugar chain structure into: (a) highly branched types; or (b) highly sialylated types, by overexpression of: (a) N-acetylglucosaminyltransferase (GnT)-IV and/or GnT-V; or (b) sialyltransferases, in Chinese hamster ovary (CHO) cells. In addition, we prepared asialo hIFN-gammas by treatment with sialidase in vitro. In the present study, we assessed the bioactivity of remodeled hIFN-gamma in terms of antiviral activity, anticellular activity, and biodistribution. Structural changes to the sugar chains did not have a significant influence on the antiviral and anticellular activities of hIFN-gamma, although the attachment of the sugar chain itself affected both activities. However, the biodistribution differed significantly; the number of exposed galactose residues was the major determinant of the specific distribution to the liver and blood clearance rate of hIFN-gamma. This phenomenon was considered to be mediated by the hepatic asialoglycoprotein receptor (ASGP-R), and we showed a linear, not exponential, enhancement of the distribution to the liver with an increase in the number of exposed galactose residues. We also confirmed this tendency using fibroblast growth factor (FGF). Our observation is not the same as the "glycoside cluster effect." We thus provide important information on the character of modified recombinant glycoproteins.     

Induction of human HL-60 leukemic cell differentiation by immune interferon is accompanied by an increase in NADase activity and by a decrease in DNA-binding proteins

The effects of highly purified human immune interferon (IFN-gamma) on the differentiation of human promyelocytic HL-60 leukemic cells have been studied. The addition of 100 units/ml interferon to HL-60 cells for 5 days results in morphological changes characteristic of macrophages. At the biochemical level, there is a 3-fold increase in the specific activity of the enzyme NADase. Kinetic analysis shows that IFN-gamma causes an increase in the Vmax of NADase without affecting the apparent Km. Pulse labeling experiments with [35S] methionine show a marked change in the de novo synthesis of several proteins in the course of interferon treatment. Chromatography on DNA-agarose show that after treatment with interferon for 24 or 48 h, there is a 60-70% decrease in newly synthesized proteins which bind DNA-agarose and can be subsequently displaced from the column with 2% SDS containing buffer (from 7.7-8.7% bound in control cell extracts to 2.6-3.1% bound in interferon treated cell extract).     

Complexation study and anticellular activity enhancement by doxorubicin-cyclodextrin complexes on a multidrug-resistant adenocarcinoma cell line.

Ability of molecular complexes of [Doxorubicin (DX)-cyclodextrin (Cd)] to enhance the anticellular activity of antineoplastic drug Doxorubicin and to reverse its multidrug resistance has been investigated. A spectroscopic study of the alpha, beta, and gamma-[DX-Cds] complexes has been investigated in relation to their biological effects on a multidrug resistant (MDR) human rectal adenocarcinoma cell line (HRT-18). A ten fold enhancement of DX anticellular activity in presence of beta-cyclodextrin alone was detected.     

Ratio of the antiproliferative action of interferon to the degree of purity of the preparation

The antiproliferative (AP) action of human leukocytic interferon (HLI) of varying degrees of purification was studied and compared in cultures of human cells differing in interferon sensitivity. The concentrated and purified preparations of HLI suppressed the incorporation of 3H-thymidine and mitotic activities of the cultures sensitive to HLI of the cells, affecting, but insignificantly, the proliferation of the resistant cell culture. Poorly purified HLI suppressed the proliferation of both cell types. This indicates that native HLI contains impurities that have an AP action and exerts no antiviral activity.     

Enzymatic modifications of human fibroblast and leukocyte interferons

The sensitivity of highly purified human fibroblast interferon and partially purified human leukocyte interferon to several proteolytic and glycolytic enzymes was determined with respect to antiviral activity, isoelectric point, molecular weight, and thermal stability. Leucine aminopeptidase altered the distribution of isoelectric points for both interferons but produced little change in molecular weights; this enzyme somewhat reduced the activity of only leukocyte interferon. Treatment of fibroblast interferon with carboxypeptidases A and B did not greatly decrease antiviral activity, but it did slightly reduce the molecular weight of the interferon and substantially altered the distribution of isoelectric point values; similar treatment of leukocyte interferon caused some loss in activity, especially of the 17,000-molecular-weight species. Both interferons were inactivated rapidly by treatment with the endoproteases trypsin, pepsin, bromelain, and subtilisin. Chymotrypsin shifted the isoelectric points of both interferons, but only leukocyte interferon was significantly inactivated. Treatment with neuraminidase and beta-galactosidase changed the isoelectric point distribution but did not affect the activity or thermal stability of either interferon; such a treatment reduced the molecular weight of fibroblast interferon and the size heterogeneity of leukocyte interferon. Treatment with neuraminidase and then leucine aminopeptidase greatly reduced the activity of both interferons, especially leukocyte interferon. The data indicate that biologically active forms of fibroblast and leukocyte interferons can be distinguished by their relative sensitivity to certain proteases.     

Activation of human monocyte cytotoxicity by natural and recombinant immune interferon

Human T cell hybridomas were established by fusion of SH9 cells, the 6-thioguanine-resistant mutant line of human T lymphoma Hut 102-B2, with concanavalin A-stimulated human peripheral blood lymphocytes. Hybridoma line L38 produced a macrophage activating factor (MAF) with the ability to activate human peripheral blood monocytes to show enhanced cytotoxicity against human colon adenocarcinoma HT-29 cells in a 72-hr 125iododeoxyuridine-release assay. The L38 line was then cloned by the limiting dilution technique and two sublines, L38B and L38D, were found to produce high levels of MAF constitutively. Interferon activity was also detected in L38B and L38D supernatants. When interferon activity was neutralized with specific antiserum to purified human immune interferon (IFN-gamma), MAF activity was abrogated. To confirm that the MAF activity is indeed due to IFN-gamma, IFN-gamma was purified from the culture supernatant of another human T cell hybridoma, L265K2, a cell line known to produce high levels of IFN-gamma. Two highly purified IFN-gamma fractions with m.w. of 20,000 and 25,000, respectively, were obtained by NaDodSO4/polyacrylamide gel electrophoresis (SDS-PAGE). Similar fractions were obtained from IFN-gamma derived from human peripheral blood lymphocyte (PBL) cultures induced with 12-0-tetradecanoylphorbol-13-acetate (TPA) and phytohemagglutinin (PHA). In comparison, Escherichia coli-derived recombinant human IFN-gamma separated by SDS-PAGE yielded two major active fractions with m.w. of 17,000 and 34,000. With all three types of preparations, a close correlation was found between the presence of IFN-gamma activity demonstrable in an antiviral assay and MAF activity in individual fractions. Substantial quantitative differences were observed in the ability of various human IFN to activate monocytes. Although no MAF activity was detected with IFN-alpha and IFN-beta at concentrations up to 200 U/ml, both natural and recombinant IFN-gamma showed marked MAF activity at concentrations as low as 0.3 to 1 U/ml.     

Classification of interferons with antibody to immune interferon

Mouse immune Interferon, induced by the T-cell mitogen staphylococcal enterotoxin A (SEA), was partially purified and used to immunize rabbits. The resulting antiserum neutralized all immune interferon preparations tested, including interferon induced in vitro by SEA, concanavalin A, phytohemagglutinin P, and pokeweed mitogen, and in mixed lymphocyte cultures. Interferon produced in vivo with specific antigen was also neutralized. The antiserum was equally potent against all these interferon preparations. The serum did not neutralize any virus-type interferon preparation tested, but immune interferon induced by SEA in athymic nude mouse spleen cells was neutralized. The neutralizing activity was precipitable by 33% ammonium sulfate, and was not removed by absorption of the serum with mouse cells. The data suggest that immune interferons produced under diverse conditions are antigenically the same or closely related.     

Molecularly imprinted cryogels for human interferon‐alpha purification from human gingival fibroblast culture

Interferons are important proteins for the immune system because of their antiviral, anti‐proliferating and immunomodulatory activities. Therapeutic value of these proteins against certain types of tumors caused interest and investigations aimed to obtain highly purified interferons. Molecular imprinting is an efficient method for purification with high selectivity, specificity and good reproducibility. In this study, we utilized advantages of molecular imprinting technique for the purification of interferon from human gingival fibroblast culture. For this purpose, interferon α‐2b imprinted poly(hydroxyethyl methacrylate) cryogel (hIFN‐α‐MIP) was prepared. Optimum adsorption conditions were determined, and maximum adsorption capacity of hIFN‐α‐MIP cryogel was found as 254.8 × 10⁴ IU/g from aqueous solution. All interferon measurements are expressed as International Unit (IU), which is a unit measurement used to quantify biologically active substances like interferon based on their biological activity or effect. Selectivity experiments were performed using competitive proteins and repeated adsorption–desorption studies showed that the adsorption capacity maintained almost at a constant value after ten cycles. For the purification of interferon from human gingival fibroblast culture, fast protein liquid chromatography was used and the specific activity of the purified interferon α‐2b on HeLa cell line was found between the values 3.45 × 10⁸ IU/mg and 3.75 × 10⁸ IU/mg. The results are promising, and the molecular imprinting technique is effective for the purification of interferon α‐2b. Copyright © 2013 John Wiley & Sons, Ltd.     

Identification and initial characterization of concanavalin A- and interferon-induced human suppressor factors: evidence for a human equivalent of murine soluble immune response suppressor (SIRS)

Human suppressor T cells activated by leukocyte interferon have properties similar to murine suppressor cells activated by interferon or by concanavalin A. Murine suppressor cells release a soluble mediator, soluble immune response suppressor (SIRS), which accounts, at least in part, for suppressive activity in murine systems. To compare and contrast murine and human suppressor pathways, we evaluated the suppression of human polyclonal plaque-forming cell responses by concanavalin A, by leukocyte interferon, and by immune interferon, or by suppressor cells activated by these agents. In each instance, suppressive activity was prevented by levamisole, ascorbic acid, catalase, or 2-mercaptoethanol, agents known to interfere with murine SIRS activity. Furthermore, concanavalin A, immune interferon, and leukocyte interferon induced T lymphocytes to release 110,000 to 150,000 m.w. proteins which suppressed responses only when added early in the culture period. As with murine SIRS, suppression by each of these human factors was inhibited by 2-mercaptoethanol, ascorbic acid, catalase, or levamisole. The reaction of human suppressor factors with H2O2 (10(-6) M) activated suppressor factors so that they suppress responses when added late in the culture period. Human suppressor factors were protease- and acid (pH 2)-sensitive. The similarities between these human suppressor factors and murine SIRS show the existence of a human SIRS pathway.     

Human interferon and cell growth inhibition. V. Effect of ouabain on interferon activities

The effect of ouabain on the antiviral and anticellular activities of interferon and its components was tested in RSb cells. These cells were found to be inhibited in growth by both components. Ouabain, known to block the antiviral effect of interferon without affecting the growth inhibitory effect, depressed both effects of the antiviral component. The effect of the growth inhibitory component was unaltered by the drug. The results support earlier suggestions that two different mechanisms may be involved in the growth regulation by interferon.     

A monoclonal antibody with broad reactivity to human interferon-alpha subtypes useful for purification of leukocyte-derived interferon

A monoclonal antibody to human interferon-alpha, termed HT-1 antibody, with a broad reactivity to various subtypes of interferon-alpha was prepared. It bound and neutralized all of the four subtypes of E. coli-derived human recombinant interferon-alpha (alpha 1, alpha 2, alpha 4, and alpha 6) tested; it also neutralized human natural leukocyte interferon but only partially. Human interferon-beta and -gamma were not bound. The antibody conjugated to Sepharose beads retained over 90% of human leukocyte interferon induced by Sendai virus. The bound interferon was recovered by acid elution in good yields and in almost pure form (specific activity was about 2 X 10(8) international units/mg protein). The purified interferon showed, in SDS-polyacrylamide gel electrophoresis, an activity profile with major peaks in a mol. wt. range of 17,000-22,000, which completely agreed with the profile shown by polyclonal antibody-purified interferon. Such purified leukocyte interferon-alpha preparations containing most of the naturally occurring subtypes can be useful for clinical and other purposes.