Dexamethasone inhibits feedback regulation of the mitogenic activity of tumor necrosis factor, interleukin-1, and epidermal growth factor in human fibroblasts.

Tumor necrosis factor (TNF), interleukin-1 (IL-1), and epidermal growth factor (EGF) were mitogenic for human diploid FS-4 fibroblasts. Dexamethasone amplified the growth-stimulating action of all three agents. Amplification of the growth-stimulating action was maximal when dexamethasone was added along with TNF or EGF; no amplification was seen if the addition of dexamethasone was delayed for more than 3 hr. Prolonged simultaneous treatment with TNF and EGF resulted in less growth stimulation than treatment with EGF alone. Dexamethasone abolished this apparent antagonistic interaction between TNF and EGF. Dexamethasone also inhibited the antiviral action of TNF against encephalomyocarditis (EMC) virus in FS-4 cells. TNF and IL-1 increased the steady state level of interferon (IFN)-beta 2 mRNA but failed to induce detectable levels of IFN-beta 1 mRNA in FS-4 cells. Dexamethasone inhibited the increase of IFN-beta 2 mRNA levels by IL-1 or TNF. Inhibition of IFN-beta synthesis is likely to be responsible for the inhibition of the TNF-induced antiviral state by dexamethasone. Since IFNs suppress cell growth, inhibition of endogenous IFN-beta synthesis may also be responsible for the amplification by dexamethasone of the growth-stimulating action of TNF and IL-1. Amplification of the mitogenic action of EGF by dexamethasone appears to be mediated by different mechanism.

Mitogenic effect of double-stranded RNA in human fibroblasts: role of autogenous interferon.

The synthetic double-stranded RNA polyinosinate-polycytidylate [poly(I).poly(C)] was mitogenic in cultures of human foreskin fibroblasts, as demonstrated by a stimulation of 3H-thymidine incorporation and an increase in cell density. Poly(I).poly(C) is a potent inducer of interferon (IFN)-beta in human fibroblasts. Single-stranded poly(l) or poly(C) were not mitogenic in human fibroblasts and did not stimulate IFN production. Antiserum to interferon (IFN)-beta, added to poly(I).poly(C)-stimulated cultures in order to neutralize endogenously generated IFN, markedly amplified the mitogenic action. Under similar experimental conditions, antiserum to IFN-beta did not enhance the mitogenic action of epidermal growth factor (EGF). Dexamethasone enhanced the mitogenic action of poly(I).poly(C) in a manner similar to antiserum against IFN-beta. This effect of dexamethasone correlated with its marked inhibitory action on poly(I).poly(C)-stimulated IFN production. Together with the results of other related studies, these findings support the notion of an evolutionary link between the generation of a mitogenic signal and IFN induction. In addition, these results support the concept that autocrine secretion of IFN-beta can exert negative feedback control of cell proliferation.

Tumor necrosis factor is an important mediator of tumor cell killing by human monocytes.

The mechanism of human peripheral blood monocyte-mediated cytotoxicity for tumor cells was investigated, using the A673 human rhabdomyosarcoma and HT-29 human colon adenocarcinoma lines as target cells. A673 cells were shown to be susceptible to the cytotoxic action of purified recombinant human tumor necrosis factor (TNF). A673 cells were also highly sensitive to the cytotoxic action of peripheral blood monocytes. Clones of A673 cells sensitive and resistant to TNF were isolated and characterized for their sensitivity to monocyte killing. A good correlation was found between the sensitivity of these clones to the cytotoxicity of TNF and their susceptibility to killing by monocytes. A TNF-specific neutralizing monoclonal antibody (MAb) reduced monocyte killing of parental A673 cells and of a TNF-sensitive clone of A673 cells. Inhibition of monocyte killing by this MAb was particularly pronounced at a low effector to target cell ratio. HT-29 cells were relatively resistant to the cytotoxic action of recombinant TNF and to monocyte killing. Treatment of HT-29 cells with recombinant human IFN-gamma increased their susceptibility to both TNF cytotoxicity and monocyte killing. In addition, MAb to TNF inhibited monocyte killing in HT-29 cells sensitized by incubation with IFN-gamma. Our data show that TNF is an important mediator of the cytotoxicity of human monocytes for tumor cells and that IFN-gamma can increase monocyte cytotoxicity by sensitizing target cells to the lytic action of TNF.

Induction of beta 2-interferon by tumor necrosis factor: a homeostatic mechanism in the control of cell proliferation.

Earlier studies showed that tumor necrosis factor (TNF) exerts a mitogenic effect in human diploid fibroblasts. Here we demonstrate that purified E. coli-derived recombinant human TNF inhibits encephalomyocarditis virus replication in "aged" human fibroblasts. Addition of neutralizing antibodies to human beta interferon (IFN-beta) blocked the antiviral action of TNF, indicating that this action is mediated by the generation of IFN-beta. We also show that antiserum to IFN-beta enhanced the mitogenic effect of TNF in confluent, serum-starved human fibroblasts, suggesting that induction of IFN-beta by TNF represents a physiological negative feedback mechanism regulating cell proliferation. Blot hybridization analysis of cytoplasmic polyadenylated RNA showed that TNF induced IFN-beta 2 mRNA, whereas no induction of IFN-beta 1 mRNA could be demonstrated. The results suggest that IFN-beta 2 has biological functions distinct from the other interferons.

Bacterial lipopolysaccharide-induced interferon-gamma production: roles of interleukin 1 and interleukin 2.

Bacterial lipopolysaccharide (LPS) induced human peripheral blood mononuclear cells (PBMC) to produce interferon-gamma (IFN-gamma). Monocytes play a mandatory accessory role in this process, because purified T lymphocytes failed to produce IFN-gamma in response to LPS and the addition of 2% monocytes to T cell cultures resulted in an optimal LPS-induced IFN-gamma production. IFN-gamma production was abolished in the presence of monoclonal antibodies specific for HLA-DR antigen. Addition of exogenous interleukin 2 (IL 2) markedly enhanced IFN-gamma secretion by PBMC induced with LPS. The addition of anti-Tac antibody specific for IL 2 receptors abrogated IFN-gamma production, suggesting that an interaction of IL 2 with IL 2 receptors was involved. By using a specific antibody binding assay, LPS was shown to amplify IL 2 receptor expression on PBMC, whereas exogenous IL 2 showed only a negligible enhancing effect on the expression of its own receptors. Interleukin 1 (IL 1), a product of LPS-stimulated monocytes, potentiated IL 2-induced IFN-gamma production in the absence of LPS. Neither IL 1 nor IL 2 alone induced IFN-gamma production in purified T lymphocyte cultures. When added together, however, substantial levels of IFN-gamma were induced. An enhanced IL 2 receptor expression on T cells was also demonstrated as a result of the combined action of IL 1 and IL 2. These results suggest that induction of IFN-gamma by LPS is due mainly to the generation of IL 1 and an enhanced expression of IL 2 receptors.

Fibroblast growth enhancing activity of tumor necrosis factor and its relationship to other polypeptide growth factors.

Tumor necrosis factor (TNF) is a monocyte-derived protein cytotoxic or cytostatic for some tumor cell lines. Here we show that highly purified E. coli-derived recombinant human TNF stimulated the growth of human FS-4 diploid fibroblasts. Stimulation of cell growth was demonstrable at a TNF concentration of 10 pg/ml (3 X 10(-13) M). Maximal stimulation was attained at TNF concentrations of 10 ng/ml (3 X 10(-10) M) or higher. Growth-stimulatory activity of TNF was inhibited by an mAb neutralizing the cytotoxic activity of TNF. Growth stimulation was not inhibited by another mAb specific for TNF, lacking neutralizing activity for the cytotoxic activity of TNF. Growth stimulation by TNF was more marked and more sustained in the presence of greater than or equal to 10% FCS than in medium with less than or equal to 5% FCS. Addition of TNF to confluent FS-4 cultures also produced a marked stimulation of cell growth in the presence of fresh FCS, while a much less marked stimulation was seen in the absence of FCS. Stimulation of confluent cultures by TNF in serum-free medium was enhanced by insulin, suggesting that insulin or insulin-like growth factor(s) in the serum can act synergistically with TNF in producing growth stimulation. While the growth-stimulatory effects of TNF and insulin were synergistic, the actions of TNF and epidermal growth factor (EGF) were less than additive, suggesting that TNF and EGF may activate identical or similar pathways. We conclude that stimulation of cell growth is probably a physiological function of TNF, and that the cytotoxic and cytostatic actions of TNF may be the result of an anomalous growth signal transduction in neoplastic cells lacking the constraints of normal growth control mechanisms.

Defective gamma-interferon production in peripheral blood leukocytes of patients with acute tuberculosis.

Production of interferon (IFN)-gamma by peripheral blood leukocytes (PBL) was examined in cultures of unseparated fresh whole blood exposed to phytohemagglutinin (PHA), concanavalin A (Con A), or pokeweed mitogen (PWM). The yield of IFN-gamma was measured by a newly developed immunoradiometric assay. Nine of 14 patients with acute pulmonary tuberculosis (TB) showed a depressed IFN-gamma response to Con A and/or PWM. Only four of these TB patients also showed a depressed IFN-gamma response to PHA. Stimulation of the patients' PBL cultures with PHA in the presence of exogenous interleukin 2 (IL 2) produced normal IFN-gamma yields in all but the most severely depressed patients. PBL cultures of TB patients with defective IFN-gamma production in response to mitogenic lectins also produced less IFN-gamma after stimulation with tuberculin PPD. Although some patients showed a moderate degree of lymphopenia, their OKT4/T8 lymphocyte ratios were mostly normal or close to normal, with the notable exception of one TB patient who has been diagnosed to have the acquired immune deficiency syndrome (AIDS).

Regulation of IFN-gamma induction in human peripheral blood cells by exogenous and endogenously produced interleukin 2.

Interferon (IFN)-gamma production, stimulated by the addition of exogenous interleukin (IL) 2, T cell mitogens, or tuberculin purified protein derivative (PPD) was studied in cultures of separated human mononuclear cells or unseparated peripheral blood leukocytes (PBL). IFN-gamma was induced by the addition of IL 2 to cultures of otherwise unstimulated cells. The minimal concentration of exogenous IL 2 required to cause a reproducible stimulation of IFN-gamma was about 10 U/ml, i.e., approximately 50 times the minimal concentration required to stimulate proliferation in an IL 2-dependent murine cytotoxic T cell line. Approximately 500 to 1000 IL 2 U/ml were required to produce maximal stimulation of IFN-gamma production in otherwise unstimulated cultures. Monoclonal antibody anti-Tac, specific for an epitope associated with the IL 2 receptor (IL 2 R), inhibited IFN-gamma induction by exogenous IL 2 less strongly than induction by phytohemagglutinin (PHA) or concanavalin A (Con A). The highest degree of inhibition was exerted by anti-Tac on IFN-gamma production stimulated with PPD. Stimulation of IFN-gamma induction by exogenous IL 2 and the inhibitory action of anti-Tac on IFN-gamma production were also seen in cultures of irradiated (2000 R) cells. Treatment of cells with subinducing doses of Con A or phorbol myristate acetate increased IFN-gamma induction by exogenous IL 2. Taken together, the data suggest that endogenously generated IL 2 is a major mediator of IFN-gamma induction in PBL cultures stimulated with antigens or T cell mitogens.

Characterization of human tumor necrosis factor produced by peripheral blood monocytes and its separation from lymphotoxin.

Cultures of human peripheral blood leukocytes (PBL) induced with phytohemagglutinin (PHA) and the phorbol ester 12-0-tetradecanoylphorbol 13-acetate (TPA) produced two types of cytotoxic proteins, indistinguishable in the in vitro assay employing murine L 929 cells as targets. One of these proteins had the antigenic and physicochemical properties of lymphotoxin (LT). We have identified the other cytotoxin as tumor necrosis factor (TNF), mainly on the basis of antigenic cross-reactivity demonstrated with antiserum to TNF, and also by its characteristic physicochemical properties and cell source. Unlike LT, PBL-derived TNF did not bind to Concanavalin A-Sepharose or to several other agglutinin-Sepharose columns specific for carbohydrate moieties common in glycoproteins. The molecular weight of native TNF determined by gel filtration was approximately 40,000 while SDS-PAGE revealed a single sharp peak of 16,500 +/- 500. When cultures of monocytes and lymphocytes separated by elutriation were stimulated with PHA and/or TPA, monocytes were the major source of TNF. In contrast, only lymphocytes produced LT. A mixture of antisera to TNF and LF neutralized all cytotoxicity of crude human lymphokine preparations for L 929 cells, suggesting that TNF and LT are either the only, or the major, cytotoxic proteins present in such crude lymphokine preparations demonstrable in this assay.

Interrelationships of human interferon-gamma with lymphotoxin and monocyte cytotoxin.

Crude preparations of interferon (IFN)-gamma derived from human peripheral blood leukocyte (PBL) cultures induced with 12-O-tetra-decanoylphorbol-13-acetate (TPA) and phytohemagglutinin (PHA) were more cytotoxic to HeLa cells than partially purified nautral or highly purified recombinant human IFN-gamma preparations. Conditioned media from PBL cultures contained, in addition to IFN-gamma, a mixture of cytotoxins, including classic lymphocyte-derived lymphotoxin (LT), and a TPA-induced cytotoxic activity produced by the adherent cell population (presumably monocytes). These two types of cytotoxins, indistinguishable in the mouse L929 cell LT assay, could be differentiated by an antiserum prepared against LT derived from the B lymphoblastoid cell line RPMI 1788. This antiserum neutralized lymphocyte-derived classic LT but failed to neutralize the activity of the monocyte-derived cytotoxin. Processing of conditioned media by sequential chromatography on silicic acid, Con A-Sepharose, and DEAE-Sephacel failed to separate IFN-gamma from the LT activity. However, this procedure did remove the monocyte-derived cytotoxic activity present in the original starting material, leaving predominantly classic LT. This LT showed a slightly basic isoelectric point (pI 7.6) which partially overlapped the more basic pI range of IFN-gamma. The two lymphokine activities also could not be completely separated by fast protein liquid chromatography or molecular sieve chromatography. LT in these partially purified preparations was associated with a protein having an apparent molecular weight of 58,000 on gel filtration. This form dissociated partially into a 20,000 mol wt species after denaturation with 0.1% NaDodSO4. IFN-gamma could be selectively removed from preparations containing both IFN-gamma and LT with the aid of monoclonal antibody to IFN-gamma. The addition of purified LT to purified E. coli-derived recombinant human IFN-gamma resulted in a marked synergistic enhancement of cytotoxicity for HeLa cells.