Comparisons of several biological and physicochemical properties of human leukocyte interferons produced my human leukocytes and by E. coli

Human interferon (IFN) prepared from virus-induced human leukocyte suspensions (leukocyte-derived interferon) was compared to the IFN extracted from Escherichia coli harboring a human interferon-alpha cDNA hybrid plasmid (Hif-SN35-AH-L6). E coli-derived IFN was 20 to 50 times more active than leukocyte-derived IFN on heterologous bovine, feline, murine and guinea pig cells, relative to the activity on human cells. After partial purification by affinity chromatography on an anti-human lymphoblastoid IFN antibody column, the IFN was analyzed by SDS-polyacrylamide gel electrophoresis. While leukocyte-derived IFN gave a heterogeneous pattern with major peaks of activity of 24000 and 19000 daltons, E. coli-derived IFN gave a heterogeneous peak of activity at about 17-18000 daltons. The leading edge of leukocyte-derived IFN in SDS-polyacrylamide gels was significantly more active on bovine cells than on human cells and coincided in mobility with E. coli-derived IFN, which was also much more active on bone than on human cells. After reduction with mercaptoethanol in SDS, the E. coli-derived IFN lost no activity, whereas the leukocyte-derived IFN lost about 90% of its activity. After reduction, E. coli-derived IFN migrated in SDS-polyacrylamide gels as a single peak at 24000 daltons, as did the residual activity of reduced leukocyte-derived interferon. Out data suggest that the interferon produced by the E. coli harboring the clone Hif-SN35-AH-L6 is analogous in size and cross-species activity to one of the molecular species of leukocyte-derived interferon.     

Tumor antigens induced by nontransforming mutants of polyoma virus.

We have studied the tumor (T) antigens induced by wild-type polyoma virus and several nontransforming mutants using immunoprecipitation with antisera from animals bearing polyomya-induced tumors followed by sodium dodecylsulfate (SDS)-polyacrylamide gel electrophoresis. In a variety of mouse cells, wild-type virus induces a major T antigen species with apparent molecular weight of 100,000 daltons, and four minor T antigen species with apparent molecular weights of 63,000, 56,000, 36,000 and 22,000 daltons. Hr-t mutants, which have an absolute defect in transformation, induce a normal 100,000 dalton T antigen but are altered in the minor T antigen species. Hr-t deletion mutants induce none of the minor T antigen species seen in wild-type virus. In their place, these mutants induce T antigen species with molecular weights in the range of 6,000--9,000 daltons. The size of the very small T antigen products does not correlate in any simple way with the size or location of the deletions in the viral DNA. Point hr-t mutants induce two of the four minor T antigen species; they make apparently normal amounts of the 56,000 dalton product and reduced amounts of the 22,000 dalton product, but none of the 63,000 or 36,000 dalton species. Ts-a mutants, which have a temperature-sensitive defect in the ability to induce stable transformation, and which complement hr-t mutants, induce T antigens with the same mobility as wild-type; however, the 100,000 dalton T antigen of ts-a mutants is thermolabile compared to wild-type. A double mutant virus carrying both a ts-a mutation and a deletion hr-t mutation induces a thermolabile 100,000 dalton product and none of the minor T antigen species. Cell fractionation studies with productively infected cells have been carried out to localize the T antigen species.     

Translation of mouse interferon mRNA in Xenopus laevis oocytes and in rabbit reticulocyte lysates

Mouse interferon mRNA, extracted from NDV (Newcastle disease virus)-induced L-929 cells has been translated with high efficiency in $\text{Xenopus laevis}$ oocytes and rabbit reticulocyte lysates. The translational efficiency of a crude RNA extract was 10 640 interferon units/mg RNA/hour for the $\text{Xenopus}$ oocytes and 4 012 interferon units/mg RNA/hour for the reticulocyte lysates. The translation product fulfilled the usual criteria for mouse interferon, $\text{viz.}$ species specificity and neutralization by specific anti-mouse interferon antiserum. Upon injection of crude interferon mRNA into $\text{Xenopus}$ oocytes, interferon activity appeared both in the oocyte homogenates and the oocyte incubation medium. When analyzed by velocity sedimentation in formamidesucrose, the mouse interferon mRNA showed a rather sharp peak halfway between the 4 S and 18 S RNA markers, as could be expected from a mRNA which codes for a 20,000 dalton protein.     

Production and purification of human MG63 cell interferon

MG63 cells induced by Sendai virus were a convenient source of human interferon, which was of the beta type in antigenicity. When analyzed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE), the interferon migrated as a single component with a molecular weight of 22,000 daltons. It was purified to apparent homogeneity by chromatography on Blue Sepharose, followed by SDS-PAGE, and estimated to have a specific activity of 4 x 10(8) international units/mg of protein.     

Characterization and purification of membrane-associated phosphatidylinositol-4-phosphate kinase from human red blood cells

The membrane-bound form of phosphatidylinositol-4-phosphate (PtdInsP) kinase was purified 4,300-fold from human red blood cells to a specific activity of 117 nmol min-1 mg-1. Although this enzyme copurified with red blood cell membranes, it was solubilized by high salt extraction in the absence of detergent indicating that it is a peripheral membrane protein. The major protein seen in the most purified preparation migrated at 53,000 daltons on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The major PtdInsP kinase activity in this preparation was also coincident with this 53,000-dalton band upon renaturation of activity from SDS-PAGE. To test further whether the 53,000-dalton protein contained PtdInsP kinase activity, antibodies were prepared against the gel-purified 53,000-dalton protein. This antiserum was able to precipitate both the 53,000-dalton peptide and PtdInsP kinase activity from red blood cell membranes. The apparent size of the native enzyme in the most purified preparation was determined to be 150,000 +/- 25,000 daltons by gel filtration. This PtdInsP kinase activity was at least 100-fold more active in phosphorylating PtdInsP than phosphatidylinositol and was easily separated from the red cell membrane phosphatidylinositol kinase by salt extraction. Analysis of the reaction product, phosphatidylinositol 4,5-bisphosphate, indicates that the enzyme phosphorylates phosphatidylinositol 4-phosphate specifically at the 5'-hydroxyl of the inositol ring. The apparent Km for ATP was 2 microM, and the concentrations of Mg2+ and Mn2+ giving half-maximal activity were 2 and 0.2 mM, respectively. Mg2+ supported 3-fold higher activity than Mn2+ at optimal concentrations. The enzymatic activity was inhibited by its product, phosphatidylinositol 4,5-bisphosphate and enhanced by phosphatidylserine.     

Xenoantisera against a murine T cell tumor product cross-react with immunoglobulin Fab determinants

Some murine monoclonal T lymphoma cells express a surface component that reacts with chicken antisera produced against the Fab fragment of normal mouse IgG. In the present study, we use a solid phase immunoadsorbent consisting of affinity-purified chicken anti-Fab coupled to Sepharose to isolate a product produced by the in vitro T cell line, WEHI-7.1. The affinity-purified T cell surface molecule (IgT) migrated on SDS-PAGE as a single band of approximately 65,000 daltons. The object of these studies was to produce xenoantisera against the purified T cell product cross-reactive with Ig determinants and to characterize the antisera. Rabbits immunized with this purified molecule produced antibodies that reacted with Fab fragments of polyclonal mouse IgG and with the myeloma proteins MOPC-104E and MOPC-41, as detected by enzyme-linked immunosorbent assay (ELISA). This binding was eliminated by adsorption of the antisera with normal polyclonal IgG; however, adsorption with fetuin did not significantly affect the reactivity of the antisera. Radioimmune precipitation assays revealed that the rabbit anti-IgT bound to normal murine spleen and thymus cells; this reactivity was abrogated by adsorption with insolubilized polyclonal IgG. Competition radioimmunoassays demonstrated that detergent extracts of the thymus and the spleen contained material that inhibited the precipitation of MOPC-41; nonlymphoid cells lacked such material. The rabbit anti-IgT serum blocked the binding of antigen by normal T cells; adsorption of the antiserum with polyclonal IgG-Sepharose abrogated this blocking capacity. A solid phase immunoadsorbent prepared from the IgG fraction of the rabbit anti-IgT isolated a single component from formic acid-solubilized mouse thymus. This molecule had an approximate mass of 65,000 to 70,000 daltons. The anti-IgT serum isolated surface IgM and IgD from lactoperoxidase-catalyzed radioiodinated B cells. The anti-IgT serum detected IgM and IgG in mouse serum with the use of immunoelectrophoresis. The anti-IgT immunoadsorbent isolated several components from normal mouse serum, that, when analyzed by SDS-PAGE under reducing conditions, revealed bands corresponding to mu-, gamma-, and light chains as well as components that migrated between mu- and gamma-chains, and another component with an approximate mass of 45,000 daltons. Our results with antibodies to a purified T cell product indicate that a surface component of normal T cells and certain monoclonal T cell tumor lines is serologically related to the Fab fragment of serum Ig and is implicated in the binding of antigen.     

Translation of mouse interferon messenger RNA in a cell-free system

Crude mouse interferon mRNA extracted from poly (I) . poly (C)-induced L929 cells has been translated in a cell-free system from rabbit reticulocytes and in two-cell systems--L929 cells and chick embryo fibroblasts. Translational efficiency of interferon mRNA preparation was 100-fold higher in the cell-free system than in tissue culture cells. Interferon synthesized was species-specific and its antiviral activity was completely neutralized by mouse interferon antiserum.     

Preventing the N-terminal processing of human interferon α-2b and its chimeric derivatives expressed in Escherichia coli

We have previously shown that human interferon α-2b (IFN) produced in Escherichia coli (E. coli) is heterogeneous at the N-terminal, with three major species (Ahsan et al., 2014). These are: (a) the direct translation product of the gene retaining the N-terminal methionine, (b) a species from which the methionyl residue has been removed by E. coli methionyl aminopeptidase to give the native interferon α-2b and (c) in which the N-terminal Cys residue of the latter contains an acetyl group. In this paper we overcome this heterogeneity, using engineered interferon derivatives with phenylalanine residue directly downstream of the N-terminal methionine (Met-Phe-IFN). This modification not only prevented the removal of the N-terminal methionine by E. coli methionyl aminopeptidase but also the subsequent N-acetylation. Critically, Met-Phe-IFN had enhanced activity in a biological assay. N-terminal stabilization was also achieved by fusing human cytochrome b₅ at the N-terminal of interferon (b₅-IFN-chimera). In this case also, the protein was more active than a reciprocal chimera with cytochrome b₅ at the C-terminal of interferon (Met-IFN-b₅-chimera). This latter protein also had a heterogeneous N-terminal but addition of phenylalanine following Met, (Met-Phe-IFN-b₅-chimera), resolved this problem and gave enhanced biological activity.     

Production of an antiviral factor by murine spleen cells after treatment with Corynebacterium parvum.

We have previously shown that injection of Corynebacterium parvum (CP) in mice protected them against lethal encephalitis induced by herpes simplex virus, (HSV). It is shown here that spleen cells of CP-injected mice in vitro produce a factor capable of inhibiting the replication of HSV in mouse embryo fibroblasts (MEF). A similar activity was produced after in vitro exposure of spleen cells from untreated mice to CP. CP was only slightly mitogenic in contrast to phytohemagglutinin (PHA), concanavalin A (Con A), and bacterial lipopolysaccharide (LPS) which were strongly mitogenic but did not induce antiviral activity high enough to be detected in the HSV-MEF system. The activity produced by CP-treated spleen cells appeared to be interferon since it was trypsin sensitive and species specific and not virus specific, and since preincubation of the cells was required to demonstrate an antiviral effect. However, the identity of CP-induced interferon with any of the previously described subclasses of interferon remains to be determined.     

mRNA-dependent synthesis of rat apolipoprotein E in vitro: Cotranslational processing and identification of an endoglycosidase H-sensitive glycopeptide intermediate

Total polyadenylated enriched mRNA was prepared from rat liver by guanidine-HCl extraction and oligo(dT)-cellulose chromatography. It was translated $\text{in vitro}$ in an mRNA-dependent wheat germ system and rabbit reticulocyte lysate system, using radiolabeled leucine or methionine as amino acid precursor. A product, designated preapoE, was specifically precipitated by a rabbit anti-rat apoE serum and accounted for 1.5% of the total radioactive peptides. It migrated as a single band of radioactivity on SDS gels with an apparent molecular weight similar to that of mature plasma apoE. Inclusion of dog pancreatic microsomal membranes in the translation reaction resulted in a slightly smaller product (by 500 daltons). It also converted the preapoE from an endoglycosidase H-resistant to an enzyme-sensitive species. This suggests that processing of preapoE takes place by the cotranslational removal of a signal peptide and core glycosylation of the mature protein.     

Messenger RNA coding for glutamine synthetase in cerebral hemispheres and astroglial cultures from mouse brain: A developmental study

Messenger RNAs from mouse brain hemispheres and from an enriched astroglial population of the same area were isolated, characterized and used to study Glutamine Synthetase (GS) processing during postnatal development using a m-RNA stimulated reticulocyte lysate system.The RNA preparations yielded distinct polypeptide products upon translation including high molecular weight species. Polypeptides in the range of 43–55 kDa appeared developmentally regulated in brain hemispheres but not in astroglia. After immunoprecipitation of the translation products with a GS antibody a major monomeric polypeptide was isolated on SDS/PAGE which migrated at the same position as the purified brain GS antigen (43 kDa).The translatable mRNA were optimal in the perinatal period and decreased until 300 days while GS-mRNA increased during the same period of time and closely paralleled the previously described GS activity profile in this brain area reaching an optimum at 15 days. Astroglial mRNAs were optimal at 18 days in vitro and decreased thereafter. The GS-mRNA was much lower in control astroglial cultures than in brain tissue, but in the presence of 10⁻⁶M hydrocortisone increased all over the growth period. The highest stimulation of GS-mRNA was observed at 18 days whereas the global mRNA decreased in the presence of the hormone.The GS-mRNAs from either 15-day-old brain hemispheres or 18-day in vitro hydrocortisone stimulated cultures were partially purified on a 5–30% linear sucrose gradient. Two GS-mRNAs, which sedimented respectively at 17S and 23S, were characterized. In addition, based on the profile of total proteins translated in vitro, we estimated that GS-mRNA constituted 0.01% of the brain hemisphere fraction and 0.3% in the astroglial hormone stimulated cells.     

IgE-binding factors from mouse T lymphocytes. I. Formation of IgE-binding factors by stimulation with homologous IgE and interferon

Incubation of normal mouse spleen cells with homologous IgE resulted in the formation of soluble factors that inhibited rosette formation of mouse Fc epsilon R+ cells with IgE-coated ox erythrocytes. The soluble factors could be absorbed with mouse or rat IgE coupled to Sepharose and recovered from the beads by acid elution. However, the factors had no affinity for either human IgE or mouse IgG. The IgE-binding factors were derived from T cells. Production of the factors required Lyt1+ T cells and Fc gamma R+ cells, which suggests that the factors are derived from Fc gamma R+ Lyt 1+ T cells. The molecular size of IgE-binding factors was approximately 15,000 daltons. When IgE-binding factors were formed by BALB/c spleen cells, nearly one-half of the factors had affinity for lentil lectin, and the remaining half of the factors failed to bind to the lectin. The proportion of the two species of IgE-binding factors differed depending on mouse strains. The majority of the factors formed by B6D2F1 spleen cells had affinity for lentil lectin, but those formed by SJL spleen cells failed to bind to the lectin. The IgE-binding factors were also induced by incubation of normal spleen cells with polyinosinic-polycytidylic acid (pI:pC). The nucleotide stimulated splenic adherent cells to form "inducers" of IgE-binding factors, which in turn induced normal lymphocytes to form IgE-binding factors. The inducers of IgE-binding factors were inactivated (or neutralized) by antibodies specific for mouse Type I interferon. It was also found that purified mouse beta interferon could induce the formation of IgE-binding factors. IgE-binding factors induced by pI:pC consisted of two different molecules: one had a m.w. of 15,000 daltons, and another had a m.w. of between 40,000 and 60,000 daltons.     

Stabilization and functional studies of high-molecular-weight murine lymphotoxins

High levels of lymphotoxin-like activity (LT) were found in supernatants from secondarily stimulated immune mouse splenocytes activated with concanavalin A (Con A) in vitro. Splenocytes obtained from C57Bl/6 mice immune to the P815 mastocytoma were restimulated in vitro with mitomycin C-treated P815 cells, and then stimulated with Con A. High levels of unstable LT activity are rapidly (2–4 hr) released by these lectin-stimulated splenocytes. The introduction of a crosslinking agent, glutaraldehyde, was found to stabilize this LT activity and allowed us to perform more defined biochemical studies and to examine the functional activities of the LT classes. The lytic activity in these supernatants resided in the high-molecular-weight classes, termed Complex (Cx > 200,000 daltons) and alpha-heavy (α_H 130,000–160,000 daltons). It was found that the Cx and α_H LT classes from the secondarily stimulated immune splenocytes cause lysis of allogeneic target cells, P815 and EL-4, in a 16-hr ⁷⁵Semethionine release assay, and in some cases, this lysis was specific for the sensitizing target cell.     

Enhancement by interferon of natural killer cell activity in mice.

Injection of mice with several interferon inducers, Newcastle Disease virus, polyinosinic-polycytidylic acid and tilorone resulted in an increase in spleen cell cytotoxicity for ⁵¹chromium-labeled mouse YAC tumor target cells in 4-hr in vitro assays. This increase in spleen cell cytotoxicity was abrogated by injection of mice with potent anti-mouse interferon globulin. Inoculation of mice with mouse interferon (but not human leucocyte or mock interferon preparations) also resulted in a marked enhancement of spleen cell cytotoxicity. The extent of enhancement of spleen cell cytotoxicity was directly proportional to the amount of interferon injected and a significant increase was observed after inoculation of as little as 10³ to 10⁴ units of interferon. An effect could be detected as soon as 1 hr after injection of interferon. The increase of spleen cell cytotoxicity after inoculation of an interferon inducer was not due to a localization and accumulation of cytotoxic cells in the spleen but reflected a general increase in cytotoxic cell activity in various lymphoid tissues (except the thymus). The splenic cytotoxic cells from interferon or interferon-inducer-injected mice had the characteristics of natural killer (NK) cells since (i) interferon enhanced spleen cell cytotoxicity in athymic (nu/nu) nude mice, (ii) classical spleen cell fractionation procedures by nylon wool columns, anti-Thy 1.2 serum plus complement, anti-Ig columns, and depletion of FcR+ rosette-forming cells, failed to remove the effector cells generated in vivo or in vitro. Therefore like NK cells, interferon-induced cytotoxic cells lack the surface markers of mature T and B lymphocytes, are not adherent, and are devoid of avid Fc receptors. Furthermore like NK cells, the spleen cells from interferon-treated mice lysed various target cells (known for their sensitivity to NK cells) without H-2 or species restriction. Incubation in vitro of normal spleen cells with interferon also resulted in an increase in cytotoxicity for YAC tumor cells. We conclude that interferon acts directly on NK cells and enhances the inherent cytotoxic activity of these cells.     

Interferon inhibition of the primary in vitro antibody response to a thymus-independent antigen

Partially purified and crude mouse L cell interferon preparations inhibited the in vitro plaque-forming cell (PFC) response of mouse C57B1/6 spleen cells to the T-cell independent lipopolysaccharide antigen of Escherichia coli 0127. PFC responses of 5-day cultures were inhibited approximately 70–90% by 100–200 NIH reference units of interferon/culture. A similar inhibitory effect was obtained with spleen cells from athymic (nude) mice homozygous for the nu/nu allele. Spleen cultures depleted of adherent cells were also inhibited in their anti-0127 PFC response by interferon. Interferon, then, appears capable of inhibiting the PFC response to E. coli 0127 via direct action on B cells. Heating experiments along with the use of interferon preparations of different specific activities suggest that the inhibition was due to the interferon in the preparations.     

Characterization of erythropoietin receptor of murine erythroid cells

Radioiodinated or biologically tritiated recombinant human erythropoietin was used to characterize receptors for this hormone on the surface of Friend erythroleukemic cells (745A and TSA8) and cells from mouse erythropoietic tissues (liver from fetus and spleen from animals made anemic by injection of Friend virus or phenylhydrazine). Specific binding of erythropoietin to these cells was time-dependent and dose-dependent. Binding studies at 37 degrees C showed that dissociation constants of erythropoietin-receptor complexes were in the range of 100-300 pM. The number of receptors on erythroleukemic cells increased after treatment with dimethylsulfoxide. Covalent binding of 125I-erythropoietin to its receptors with a cross-linking reagent, disuccinimidyl suberate or glutaraldehyde, resulted in the formation of two major radiolabeled products that migrated as 120-kDa and 140-kDa species on sodium dodecyl sulfate/polyacrylamide electrophoresis gels under reducing conditions. Under non-reducing conditions, both 120-kDa and 140-kDa species disappeared and two cross-linked products, a minor product with a molecular mass of 250 kDa and a major product of high molecular mass that kept it from migration into the separating gels, appeared. The relationship of the cross-linked products found under non-reducing conditions with those under reducing conditions remains to be clarified.     

Endonuclease of high specific activity in a purified mouse interferon preparation

We find an endonuclease of high specific activity in a purified mouse interferon preparation. The interferon was purified from Ehrlich ascites tumor cultures which were induced with Newcastle disease virus. It has a higher specific activity (1.5 × 10⁹ NIH mouse reference standard interferon units/mg protein) than reported for any interferon preparation but is not homogeneous. We do not know if the endonuclease activity is due to a contaminating protein or to interferon. The endonuclease does not degrade in our conditions polyuridylic acid or double stranded reovirus RNA and does not inactivate the tRNA₂^Gln species from $\text{E. coli}$, or tRNA^Val species or polysomes from mouse L cells. Endonuclease in as little as 0.5 ng protein of the interferon preparation degrades μg quantities of messenger RNA from mouse L cells, of encephalomyocarditis virus RNA and of $\text{in vitro}$-synthesized reo-virus messenger RNA at 37° in 1 hour. Further characteristics of the endonuclease and its possible relationship (if any) to interferon remain to be established.     

Differential inactivation and separation of homologous and heterologous antiviral activity of human leukocyte interferon by a proteolytic enzyme.

Human leukocyte interferon (HuLeIF) can express its antiviral activity on both human and bovine cells. The rates of inactivation of HuLeIF by α-chymotrypsin, as expressed on human and bovine cells, are not the same: the ability to induce activity on human cells is lost significantly more rapidly than the activity detected on bovine cells; usually a margin of greater than one hundred-fold exists after α-chymotrypsin treatment. HuLeIF, when subjected to analysis on 10% SDS-PAGE, can be separated into two molecular weight species, one having apparent molecular weight of approximately 21,000 daltons, the other 18,000 daltons. A more rapidly migrating form (molecular weight 16,500 daltons) can also be isolated, which is considerably more active on bovine cells than on human cells. α-chymotrypsin-treated samples analyzed by SDS-PAGE show a clear separation of the activities expressed on human and bovine cells. The residual activity detected on human cells is isolated only in the 21,000 component while the activity found on bovine cells is recovered only as the 16,500 dalton species.     

Effect of human recombinant interferon on cytotoxic activity of natural killer (NK) cells and monocytes

Studies have been performed on the in vitro immunologic effects of homogeneous recombinant human leukocyte interferon, IFLrA. Large granular lymphocytes, enriched for natural killer (NK) cell activity, were pretreated wtih IFLrA or natural interferon preparations and then tested for augmentation of NK activity and of antibody-dependent cell-mediated cytoxicity (ADCC). Monocytes were tested for cytolytic and cytostatic activity in 48–72 hr radioisotopic assays performed in the presence or absence of interferon. Treatment with IFLrA caused significant augmentation of NK, ADCC, and monocyte-mediated cytotoxic activities. Even 10 units of IFLrA induced augmentation of NK activity, and 100 units or more boosted monocyte-mediated activity. The effects in each of these assays were species-specific, with no detectable effects on the activity of mouse effector cells. These results indicate that homogeneous recombinant interferon has potent in vitro immunomodulating effects and thus provide a basis for carefully examining the in vivo effects of this protein on host defenses in forthcoming clinical trials with cancer patients.