Antiviral and antiproliferative activity of human fibroblast interferon fractions

The affinity chromatography of Human crude beta-interferon preparations on Blue Dextran Sepharose columns resulted in isolation of several fractions with different ratio of antiviral to antiproliferative activities. The results of investigation of two of these fractions are described in this report. The first of them was eluted by 1N NaCl in 0.01 M tris buffer at pH 7.8, the second was eluted by 1 M NaCl, 50% methylethylenglycol in 0.01 M tris-HCl buffer at pH 7.8. The first of the fractions possessed presumably antiproliferative and the second presumably antiviral activity. Both fractions induced the increase of 2'5'-oligoadenylatesynthetase activity in cells although the inducing activity of the first fraction was about 6-fold higher than that of the second one as compared with their antiviral activities. The obtained results indicate that purification of interferon preparation for interferons main antiviral activity may lead to the loss of the great part of antiproliferative material.     

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.     

Apparent dispensability of the carbohydrate moiety of human interferon for antiviral activity.

Human leukocyte and tritium-labeled fibroblast interferons, prepared by induction with Sendai virus and with double-stranded polyinosinic acid.polycytidylic acid respectively, have been studied in relation to the carbohydrate moieties attached to them. These interferons were partially purified by immunoabsorbance and by gel filtration. On treatment with glycosidases, about 80% of the 3H-labeled sugar moieties in this glycoprotein-containing fraction was removed without detectable alteration of the antiviral activity or antibody-binding properties characteristic of interferon. The molecular weight of leukocyte interferon was reduced by about 4000. As others have reported, the heterogeneous character of interferon revealed by isoelectric focusing was greatly reduced by the enzyme treatment.     

Effect of interferon on the cAMP system in cells

The increase in cAMP concentration in CaOv cells affected by alpha-interferon has been found to have a two wave character with the maximums at 4 and 24 h after the effect. The waves are due to the increase in adenylate cyclase activity and to the decrease in the activity of cAMP phosphodiesterase. The described changes were characteristic of the native and partially purified interferon and depended on the concentration of interferon used (optimal effect at 1200 IU/ml-1). It suffices to notice that the described effects were more largely expressed when the preparations of the native alpha-interferon were used. The correlation was noticed between the increase in adenylate cyclase activity, the decrease in cAMP phosphodiesterase and the concentration of the cyclic nucleotide as well as the expression of antiproliferative effect. The correlation was less significant for antiviral effect.     

The dynamics of 2',5'-oligoadenylate synthetase activity in the nuclear and cytoplasmic fractions of human fibroblasts treated by double-stranded RNAs, by their complexes with DEAE-dextran and by type-I recombinant interferons. The ratio of double-stranded RNA-activated and -nonactivated froms of the enzyme

Novel original preparations of double-stranded RNAs (dsRNAs), i.e. larifan, ridostin and rifastin, and recombinant alpha 2- and beta-interferons promising for the clinical use were studied. The size and morphology of the dsRNAs in the preparation composition, the dynamics of their induction of interferon and the antiviral state in human fibroblasts and the effect of the DEAE dextran polycation on the activity of the dsRNAs were specified. For the first time the dynamics of 2',5'-oligoadenylate synthetase activity in the nuclei and cytoplasm of the human fibroblasts treated with the dsRNAs of different origin and their complexes with DEAE dextran was defined. To elucidate the specific features of the mechanism of antiviral action of dsRNAs and interferon, the relation of the 2',5'-oligoadenylate synthetase activity to dsRNAs was investigated. In the cells treated with dsRNAs and DEAE dextran there were an early activation of the enzyme and predominance of the enzyme activated forms requiring no addition of poly I.poly C to the reaction mixture. The results were indicative of possible intracellular activation of its isoforms, similar to that in the cells treated with interferon and contaminated with viruses. All the tested preparations of dsRNAs and interferons induced an increase in the activity of 2',5'-oligoadenylate synthetase both in the cytoplasm and the nuclei of human fibroblasts. The same ability was observed in DEAE dextran which is likely to be one of the causes of the increase in dsRNAs antiviral activity under its effect.     

Production of alpha-, beta-, and lambda-interferons by epithelial and mononuclear cells during acute respiratory viral infection

Role of several types of cells (human broncho-epithelial cells, BEAS-2B cell line, and mononuclear cells as model of macrophages) in production of alpha-, beta- and lambda-interferons during acute respiratory viral infection was studied. Kits for detection of these interferons by quantitative PCR assay has been developed. In human broncho-epithelial cells respiratory viruses induced statistically significant expression of alpha-interferon mRNA at 8 hours after infection, beta-interferon mRNA--at 24 hours after infection, IL-29 mRNA (lambda-interferon) - at 24 hours after infection, IL-28 mRNA (lambda-interferon) - at 8 and 24 hours after infection. In BEAS-2B cell line induction of alpha-interferon mRNA expression was observed at 8 hours after infection, beta-interferon mRNA expression - at 24 hours after infection, IL-29 mRNA (lambda-interferon) expression - at 8 and 24 hours after viral challenge. Production of beta- and lambda-interferons by ELISA at 24 hours after infection has been detected. When polymorphonuclear cells were challenged, induction of alpha-, beta-, and lambda-interferons expression was observed at 8 hours after infection. Production of alpha-, beta- and lambda-interferons has been detected by ELISA at 24 hours after infection by rhinovirus 16.     

Human leukocyte interferon has no structural or biological relationship to corticotropin

In view of recent reports that certain preparations of human leukocyte interferons are structurally and biologically related to the pituitary hormones corticotropin (ACTH) and β-endorphin, we have investigated the properties of two human leukocyte interferons (IFN-α) prepared by recombinant DNA technology. The antiviral activities of purified IFN-αA and IFN-αD were not affected by a large molar excess of ACTH antiserum nor did ACTH interfere in interferon immunoassays. Neither IFN-αA, IFN-αD nor pepsin digests of these proteins were able to stimulate steroidogenesis in adrenocortical cells. There was no cross reaction between ACTH antiserum and the two leukocyte interferons or the pepsin digests of the interferons. These results cast doubt on recent proposals that some of interferon's biological effects are mediated by ACTH or β-endorphin-related fragments of the interferon molecule.     

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.     

Dissociation of protein kinase activity and the induction of the antiviral state in a cell line responsive to the antiviral effects of interferon

Interferons or oxidized glutathione were found to induce double-stranded RNA-dependent protein kinase activity in mouse L cells that phosphorylates the α subunit of eukaryotic peptide initiation factor 2. A mixture of leukocyte/fibroblast interferons as well as immune interferon induced the protein kinase and also suppressed virus replication in the L cells. Oxidized glutathione was equally effective in inducing protein kinase activity, but it did not induce an antiviral state in these cells. The data suggest that a simple cause and effect relationship does not exist between protein kinase induction and the establishment of the antiviral state in a cell that is responsive to the antiviral effects of interferon.     

Biological activity of human alpha-interferons studied using specific antisera

Preparation of highly active rabbit antisera (AS) to human recombinant alpha 2-interferon and their use for studying biological properties of natural and plasmid alpha-interferons are described. By exhaustion of AS by alpha 3-interferon there were prepared practically monospecific AS not reacting with antigenic determinants of alpha 3-interferon. It was found that alpha 3-interferon represented a significant portion of human lymphoblastoid interferons and was included in PH-labile alpha-interferon from serum of patients with Kaposi carcinoma. AS to alpha 2-interferon completely neutralized antiviral and antiproliferative activity of the homologous subtype alpha-interferon and stimulation of cytotoxicity of human natural killer cells induced by it. It neutralized also the same effects of the heterologous subtypes (alpha 3 and alpha F/D) and leukocytic interferon, but the neutralization level was lower. The results of the study confirmed the polyfunctional nature of the interferon molecule.     

Antiviral and protein-inducing activities of recombinant human leukocyte interferons and their hybrids.

The antiviral activities of recombinant human leukocyte interferons IFN-alpha A and IFN-alpha D as well as five hybrids of these interferons against retroviruses, vesicular stomatitis virus, and encephalomyocarditis virus were studied in feline, human, and murine cells. Although these interferon species had widely different potencies, their activities against these viruses were, in general, proportional. The IFN-alpha A/D (Bgl) hybrid was the most potent species, and the IFN-alpha D/A (Bgl) hybrid was the least potent. However, the latter species did not interfere with the action of the former species. Like natural human leukocyte interferon, each of the seven species of recombinant interferons induced the synthesis of at least five proteins in human fibroblasts, whereas induction of only one such protein was readily detected in a feline fibroblast line in which these interferon species inhibited the replication of all three viruses.     

Purification of mouse cell interferon induced by isotopically labelled double-stranded f2 phage RNA

The dynamics of interferon formation by an established cell line of mouse fibroblast (L cells) and by mouse peritoneal leukocytes induced by double-stranded RNA extracted from E. coli f2 phage is described. The L cells produced interferon at a lower rate, the maximum values were obtained at 12 to 20 hours after induction, and the production was ultimately dependent on the established cell line used and on the presence of DEAE-dextran during induction. The mouse peritoneal leukocytes (MPL), on the other hand, did not require DEAE-dextran and the maximum of interferon production was reached between 6 and 12 hours after induction. Both the L cell- and the MPL-interferons were purified and concentrated so that the final specific biologic activity was 100-to 300-fold higher than that of the initial preparations (1 to 5 X 10(6) interferon units per mg protein). Polyacrylamide gel electrophoresis showed similar migration profiles for the preparations of both interferons. The smaller part of the activity was situated in a broader, slow-moving peak and the greater part formed a sharp, high and fast-moving peak. Using 3H uridine-labelled f2 ds-RNA for induction of interferon it was found that one of the radioactivity zones coincided with the fast-moving activity peak of the purified and concentrated interferon.     

Interferons produced by the cells of newborn mice in the presence of sera from newborn and adult animals

Fibroblasts of newborn mice produced far less amount of interferon in the presence of sera from newborn animals than in the presence of sera from adult animals. The interferons obtained were purified by adsorption chromatography on porous glass and were analyzed by electrophoresis in polyacrylamide gel. It has been shown that antiviral activity of interferon preparations obtained in the presence of sera from newborn mice was associated with the fraction of 45 Kd. Addition into the growth medium of sera from adult animals led to the production by the same cells of interferon activity associated with 41 and 28 Kd fractions. It is assumed that the sera of newborn mice contained the components influencing the molecular content of interferon produced by the cells of newborn animals.     

Synthesis of a human leukocyte interferon with a modified carboxy terminus in Escherichia coli

A recombinant plasmid was constructed that results in deletion of eleven COOH-terminal amino acids of human leukocyte A interferon and their replacement by nine unrelated amino acids encoded by the β-lactamase gene of pBR322. This altered human leukocyte interferon exhibits antiviral activity slightly lower than the natural molecule and appears to be more susceptible to proteolytic degradation as well. These results also confirm the conclusion that the eleven COOH-terminal amino acids are not essential for antiviral or antiproliferative activity.     

Alveolar macrophage lipoxygenase products of arachidonic acid: isolation and recognition as the predominant constituents of the neutrophil chemotactic activity elaborated by alveolar macrophages

Human immune interferon preparations have anticellular activity on human cell lines (WISH and HEp-2). This anticellular activity copurified with the human immune interferon and appears to be a function of the immune interferon molecule. On the basis of a unit of antiviral activity, purified human immune interferon had about 20 and 100 times more anticellular activity than purified fibroblast or leukocyte interferon, respectively. The possible implications of this finding in the treatment of human neoplasia are discussed.     

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.     

Homogeneous interferon from E. coli depresses hepatic cytochrome P-450 and drug biotransformation

A highly purified homogeneous human interferon produced from cloned genes depressed the levels of hepatic cytochrome P-450 and related xenobiotic metabolism. Using another cloned human interferon and several impure preparations of human and mouse interferon, it appears that only interferons with antiviral activity in the mouse depress cytochrome P-450 in that species. This is the first direct evidence that interferon decreases hepatic drug biotransformation and likely explains the depression of drug elimination which occurs during viral infections or following the administration of interferon inducers.     

Proteins induced by various types of double-stranded RNA and interferon type I in human fibroblasts. Correlation with antiviral activity of the substances]

Protein induction by new antiviral preparations of dsRNAs (larifan, ridostin, rifastin and poly(A).poly(U)) and recombinant beta-interferon in human fibroblasts (M19) was studied. The common gene products: 88, 80, 68, 58, 56, 52, 50 and 26 kD were detected in the spectra of the induced cytoplasmic polypeptides. At the same time the sets of the induced proteins had individual distinctions in various preparations. Induction of the 56-kD protein was more essential in the action of dsRNAs than that of interferon. The antiviral activity of dsRNAs and interferon preparations correlated with a relative increase in the synthesis of proteins with molecular weights of 88, 80 and 58 kD. The study results are in agreement with the fact that the dsRNAs have interferon-independent pathways of antiviral action with participation of 56- and 58-kD protein genes.     

Recombinant human leukocyte interferon produced in bacteria has antiproliferative activity

Recombinant human leukocyte interferon synthesized by Escherichia coli possesses antiproliferative activity in addition to antiviral activity. When the ability to inhibit multiplication of lymphoblastoid Daudi cells was examined, the growth-inhibitory capacity of recombinant leukocyte interferon was equivalent to that exhibited by crude human leukocyte interferon or by the homogeneous gamma 2 species of leukocyte interferon synthesized by human cells.     

Differential antiproliferative activities of IFNs alpha, beta and gamma: kinetics of establishment of their antiproliferative effects and the rapid development of resistance to IFNs alpha and beta

Interferons have been recognized to have potent in vitro antiproliferative activities in mouse and human systems. To further investigate the kinetics of development of interferons' antiproliferative activities, mouse B-16 melanoma cells were treated with MuIFN-alpha, MuIFN-beta or MuIFN-gamma for various initial periods of time during an 8 day cloning assay. With MuIFN-alpha and MuIFN-beta treatments, maximal expression of antiproliferative activity was attained with 2 to 4 days of interferon treatment. In contrast, with MuIFN-gamma treatment, expression of antiproliferative activity increased with progressively longer periods of time of MuIFN-gamma treatment. These results suggested that B-16 melanoma cells were initially sensitive to all three of the interferons but rapidly became resistant to MuIFN-alpha and MuIFN-beta after 2 to 4 days of treatment. This suggestion was confirmed by cell growth kinetics experiments. The cells which were resistant to the antiproliferative activity of the MuIFN-alpha remained sensitive to the antiviral activity of MuIFN-alpha, suggesting that MuIFN-alpha and MuIFN-beta regulate their antiviral and antiproliferative responses via different mechanisms. The cells which were resistant to the antiproliferative activities of MuIFN-alpha and MuIFN-beta remained sensitive to MuIFN-gamma, suggesting that they were not generally resistant to antiproliferative effects. The cells which were resistant to the antiproliferative activities of the interferons gradually lost their resistance with a half-life of 11 days when they were cultured in the absence of interferons. The differential antiproliferative actions of alpha, beta and gamma interferons observed with murine B-16 melanoma were confirmed in the human system with G-361 melanoma cells.(ABSTRACT TRUNCATED AT 250 WORDS)