Leukocyte migration in guinea pigs. II. Partial characterization of a leukocyte migration inhibitory factor distinct from macrophage migration inhibitory factor.

In this study we present data on the partial biological and biochemical characterization of guinea pig leukocyte migration inhibition factor (LIF) and migration inhibition factor (MIF). The results indicate that guinea pig LIF and MIF are distinct mediators of cellular immunity, in terms of indicator cells affected and molecular weight. This is in agreement with previous reports showing distinctions between human LIF and MIF. Partial characterization of guinea pig LIF suggested that it is a heat-stable protein of molecular weight 68,000–158,000 and does not contain terminal sialic acid groups.     

Tumor-derived macrophage migration inhibitory factor (MIF) inhibits T lymphocyte activation

Macrophage migration inhibitory factor (MIF) is a multi-functional cytokine that is considered a pro-inflammatory cytokine. However, our studies show that MIF, when produced in super-physiological levels by a murine neuroblastoma cell line (Neuro-2a) exceeding those normally seen during an immune response, inhibits cytokine-, CD3-, and allo-induced T-cell activation. MIF is also able to inhibit T cells that have already received an activation signal. The T-cell inhibitory effects of culture supernatants from neuroblastoma cells were reversed when the cells were transfected with dicer-generated si-RNA to MIF. When T cells were activated in vitro by co-culture with interleukin (IL)-2 and IL-15 and analyzed for cytokine production in the presence or absence of MIF-containing culture supernatant, inhibition of T-cell proliferation and induced cell death were observed even as the treated T cells produced high levels of interferon-gamma (IFN-gamma). The inhibitory effects of MIF were partially reversed when lymphocytes from IFN-gamma knockout mice were tested. We propose that the high levels of MIF produced by neuroblastoma cause activation induced T-cell death through an IFN-gamma pathway and may eliminate activated T cells from the tumor microenvironment and thus contribute to escape from immune surveillance.     

Leukocyte migration inhibitory factor (LIF) to sperm from autoimmune men in infertile couples

Leukocyte migration inhibitory factor (LIF) is produced by lymphocytes with receptors specific to sensitizing antigens. This principle was used to detect possible antigenic differences between sperm of autoimmune and nonautoimmune men. Sixteen fertile and 91 infertile couples were screened for cytotoxic and hemagglutinating antibodies to sperm from their husbands and controls. Their lymphocytes were tested for the production of LIF to sperm extracts and seminal plasma from the husbands and controls by a direct leukocyte migration inhibition assay. Twenty-nine of 35 men producing LIF to sperm and/or seminal plasma were positive for sperm antibodies (p = 0.0004, vs sperm antibody-negative controls). Twenty-three of 29 wives with LIF production had sperm-autoimmune husbands (p = 0.04). Leukocyte migration was significantly inhibited in sperm-autoimmune men by autologous sperm extracts and seminal plasma in contrast to control sperm extracts and seminal plasma (p = 0.0006 and 0.001, respectively). The wives of autoimmune men had significantly higher LIF responses to their husbands' sperm extracts than to other antigens (p = 0.02). Men with cytotoxic antibodies in their seminal plasma produced LIF to autologous sperm (p = 0.001). It is suggested that certain sperm and seminal plasma antigens of autoimmune men may lead to specific humoral and cell-mediated immune responses in both partners.     

Histamine-induced suppressor factor (HSF): effect on migration inhibitory factor (MIF) production and proliferation.

Histamine added in vitro to cultures of sensitized lymphocytes suppresses antigen-induced production of migration inhibitory factor (MIF) and proliferation by these cells. Recent studies have suggested that lymphocytes bearing histamine type-2 receptors play a regulatory role in these in vitro responses. The present studies were undertaken to determine if suppressor function by cells having histamine receptors was mediated through a soluble product. It was found that lymph node cells from nonimmune or immune strain 2 guinea pigs elaborate a nondialyzable factor into the culture supernatant when incubated with 10(-3) to 10(-5) M histamine (histamine-induced suppressor factor of HSF). HSF, when cocultured with sensitized lymphocytes, suppressed their MIF and proliferative responses to antigen. HSF was made by lymphocytes but not macrophages. Its production could be blocked by an H2 receptor antagonist (burimamide) but not an H1 receptor antagonist (chlorpheniramine). Furthermore, the inhibitory effect of HSF was reversible as lymphocytes washed free of the factor after 24 hr and recultured with fresh medium and antigen were able to produce MIF. Gel filtration by Sephadex G-100 chromatography indicated that HSF had an approximate m.w. of 23,000 to 40,000. These results suggest that the release of histamine at the sites of immediate hypersensitivity reactions, possibly by generating HSF activity, may play a regulatory role in the subsequent development of cellular-immune reactions at the same site.     

Leukocyte inhibitory factor (LIF) potentiates neutrophil responses to formyl-methionyl-leucyl-phenylalanine

The ability of purified (80,000-fold) human leukocyte inhibitory factor (LIF) to modulate several formyl-methionyl-leucyl-phenylalanine (f-met-leu-phe)-induced neutrophil functions was evaluated. Although not affecting directed migration itself, at low concentrations (1/2 to 2 U/ml), LIF was demonstrated to potentiate chemotaxis induced by f-met-leu-phe (40.3% +/- 8.1) and to reduce the concentration of f-met-leu-phe necessary for maximal chemotaxis (10(-8) to 10(-9) M). Similarly, LIF did not directly induce the respiratory burst, but potentiated both superoxide generation (151.6% +/- 77) and hydrogen peroxide production (54.9% +/- 15.5) in the presence of f-met-leu-phe (10(-7) M). LIF was also shown to induce degranulation of neutrophil-specific granules in a dose-dependent manner. Neutrophil-specific granules have been shown to contain an intracellular pool of receptors for f-met-leu-phe, and on degranulation provide the surface membrane with a fresh source of receptors. Our data suggested that LIF potentiation of neutrophil stimulation by f-met-leu-phe might be mediated, at least in part, by increasing the number of available membrane receptors as a result of its ability to induce degranulation. Radioligand receptor analysis using f-met-leu-[3H] phe was performed, and LIF was shown to mediate an increase in receptors for f-met-leu-phe from an average of 18,600 on untreated cells to 27,000 after pretreatment with LIF. This increase in receptors could "sensitize" the neutrophils for f-met-leu-phe and possibly explain the potentiation of neutrophil stimulation observed in the presence of the ligand. LIF was also found to have a more generalized effect on the transduction of neutrophil activation stimuli, mediating a 35.8% increase in superoxide production after exposure to calcium ionophore. The data do not permit a determination as to whether the increase in receptor number is responsible for the potentiation of f-met-leu-phe-mediated function, or whether this occurs secondary to the more generalized effect on neutrophil stimulation transduction.     

Lymphokine production in mouse mixed lymphocyte reaction (MLR)

We have investigated alloantigen differences which stimulate lymphokine release and³H-TdR uptake in primary ‘one-way’ MLC among allogeneic mice. When mice differing at the wholeH-2 region were tested, MIF and immune IF release was observed, along with a marked³H-TdR uptake. Differences atK, D, orI-S-G regions stimulate both lymphokine release and³H-TdR uptake, though stronger immune IF and³H-TdR responses were observed with differences atI-S-G regions. On the other hand, when mice differing in their minor histocompatibility antigens, and notably at theMls locus, were tested, lymphokine release took place even in the absence of proliferation. Lastly, in MLC between mice differing at multiple minor loci, butH-2 andMls matched, MIF release only, and not immune IF and³H-TdR responses were observed in a few combinations. These findings show that T lymphocytes can recognize alloantigens by releasing lymphokines even without going through proliferation. Moreover, different levels of T-lymphocyte activation exist, depending on the kind of stimulating alloantigens present.     

Macrophage migration inhibitory factor (MIF)--its role in catecholamine metabolism.

Macrophage migration inhibitory factor (MIF) was originally identified several decades ago as a lymphokine-derived protein that inhibited monocyte migration. Recently, it has been reported that MIF has D-dopachrome tautomerase, phenylpyruvate tautomerase and thiol protein oxidoreductase activities, although the physiological significance of those activities is not yet clear. Here we show that MIF is able to catalyze the conversion of dopaminechrome and norepinephrinechrome, toxic quinone products of the neurotransmitters dopamine and norepinephrine, respectively, to indole derivatives that may serve as precursors to neuromelanin. Since MIF is highly expressed in human brain, these observations raise the possibility that MIF participates in a detoxification pathway for catecholamine products and could therefore have an important role for neural tissues. The potential role of MIF in the formation of neuromelanin from catecholamines is also an extremely interesting possibility.     

A rapid method for measuring the production of human migration inhibitory factor (MIF)

A rapid method for assaying Migration Inhibitory Factor (MIF) prepared from human peripheral venous blood is described. Using increased concentrations of human peripheral lymphocytes, MIF could be demonstrated in supernatant at the end of a 24 hr culture period. Both tuberculin and histoplasmin sensitivity were investigated. In persons with normal cell-mediated immunity, there was good correlation between skin test sensitivity and MIF production by this method.     

Elaboration of leukocyte migration inhibitory factor by human lymphocyte subpopulations stimulated with mitogens.

This paper describes experiments to determine whether human lymphocyte sub-populations stimulated with a variety of mitogens, leucoagglutinin (LA), concanavalin A (con A), pokeweed mitogen (PWM), protein A (prot A), and anti-β₂-microglobulin (anti-β₂m), synthesize lymphokines. T and B lymphocytes as well as unseparated mononuclear cells were stimulated with the mitogens, and the presence of leukocyte inhibitory factor (LIF) in the culture supernatants was tested by an agarose migration method. Culture supernatants stimulated with LA or prot A were also fractionated on Sephadex G-100 columns, and LIF-containing fractions were tested for heat stability and the effect of monosaccharides. The results indicated that LA and con A caused LIF synthesis only in T-cell populations, while PWM stimulated both T and B lymphocytes and prot A and anti-β₂mm were B-cell stimulants. Furthermore, LIF from LA-and prot-A-stimulated cultures behaved similarly upon physicochemical characterization.     

Purification of murine thymocyte-stimulating factor from supernatants of mixed lymphocyte cultures

Thymocyte-stimulating factor (TSF) has been purified 360-fold with a yield of about 18% by the sequential use of gel filtration on Sephadex G-100, ultrafiltration, hydrophobic interaction chromatography on phenyl Sepharose and affinity chromatography on concanavalin A (Con A)-Sepharose. Most of the TSF activity was eluted from Con A-Sepharose columns with α-methyl-d-mannoside, thus suggesting the presence of glucose and/or mannose residues. At the same time, however, the eluted material showed a considerable degree of heterogeneity in the number of these carbohydrate residues. Column electrofocusing of the purest preparations showed two peaks of TSF activity with pI's of 4.7 and 5.1. Proteins were found to electrofocus at these pI's, while no detectable amounts of proteins were found at other pI's.     

Neuroendocrine properties of macrophage migration inhibitory factor (MIF)

The cytokine macrophage migration inhibitory factor (MIF) is produced by neuroendocrine and immune tissues and possesses several features that allow it to be characterized as a neuroendocrine mediator. Its pro-inflammatory action and its pathogenic role in inflammatory diseases, such as septic shock, arthritis and other diseases, have clearly been demonstrated and may be based in part on neuroendocrine mechanisms. Macrophage migration inhibitory factor possesses glucocorticoid-antagonist properties within the immune system and participates in the regulation of several endocrine circuits. This review summarizes the current state of MIF research and focuses on MIF expression and function in nervous and endocrine tissues.     

The production of migration inhibitory factor (MIF) in rabbit lymphocytes by other than immunological mechanism

The ability of certain substances to activate lymphocytes in terms of the production of biologically active substances was studied. These substances were tested by following their migration inhibitory activity. The capacity of concanavalin A and commercial preparations of phytohaemagglutinin (PHA-M and PHA-P) to induce formation of MIF was confirmed. In addition, similar activities were found even in antirabbit antilymphocyte serum (ALS) and erythrogenic toxin (ET). The production of MIF was usually found in material obtained from rabbits treated with complete Freund adjuvant (CFA). On the other hand, material obtained from non-treated rabbits, was found to be inactive with the exception of thymus from young rabbits. The results support the significance of an increasing pharmacological potency of cells in the course of sensitization with CFA. The evidence concerning the release of MIF by ET was extended by similar finding in rabbits made tolerant to the pyrogenic activity of this particular toxin. Lymphocytes obtained from rabbits that were unable to respond to ET by fever, could not liberate MIF (at the same time) upon incubation with ET, even though these lymphocytes produced MIF normally after incubation with PPD tuberculin or concanavalin A. The importance of these results is discussed in terms of the immunologically nonspecific activation of lymphocytes that can mimic immunologically specific events.     

Effect of vitamin E on production of macrophage migration inhibitory factor (MIF) by macrophages

Macrophage migration inhibitory factor (MIF), a putative cytokine involved in inflammatory and immune responses, was identified in rat peritoneal macrophages by Western blot analysis and its secretion into culture medium by enzyme-linked immunosorbent assay. To clarify the possibility of vitamin E as an immune modulator, we investigated the effect of vitamin E on MIF production in macrophages in response to calcium ionophore A23187 and lipopolysaccharide (LPS). Intraperitoneal injections of vitamin E (5 mg per rat) for 6 successive days resulted in a significant increase of alpha-tocopherol content in peritoneal macrophages. Alpha-tocopherol content of macrophages in vitamin E-treated rats was 478.3 +/- 90.7 ng/10(6) cells, whereas in control rats it was 1.5 +/- 0.5 ng/10(6) cells. For the control macrophages, total MIF content of the medium (2.5 x 10(6) cells/18 ml) without stimulation was 40.7 +/- 3.6 ng after 14 h culture, whereas stimulation with calcium ionophore A23187 (400 nM) and LPS (5.0 microg/ml) induced the elevation of MIF content to 65.9 +/- 7.5 ng and 74.3 +/- 10.4 ng, respectively (p < 0.05, n = 3). On the other hand, vitamin E-enriched macrophages without stimulation showed less MIF content (14.0 +/- 4.2 ng) than the control (p < 0.05, n = 3). Similarly, the increase of MIF of vitamin E-treated macrophages was significantly suppressed after stimulation with calcium ionophore A23187 or LPS, compared with the control macrophages (p < 0.01, n = 3). From analysis of intracellular MIF content by Western blot, we found no alteration of intracellular MIF content of vitamin E-macrophages, in contrast to the decreased content of control stimulated-macrophages, showing that vitamin E suppressed MIF secretion into the culture medium. Taken together, these results indicate that vitamin E may contribute to the regulation of inflammatory and immune responses through regulation of MIF secretion, possibly by modulating macrophage-membrane architecture.     

Macrophage migration inhibitory factor (MIF) promotes fibroblast migration in scratch-wounded monolayers in vitro

MIF was recently redefined as an inflammatory cytokine, which functions as a critical mediator of diseases such as septic shock, rheumatoid arthritis, atherosclerosis, and cancer. MIF also regulates wound healing processes. Given that fibroblast migration is a central event in wound healing and that MIF was recently demonstrated to promote leukocyte migration through an interaction with G-protein-coupled receptors, we investigated the effect of MIF on fibroblast migration in wounded monolayers in vitro. Transient but not permanent exposure of primary mouse or human fibroblasts with MIF significantly promoted wound closure, a response that encompassed both a proliferative and a pro-migratory component. Importantly, MIF-induced fibroblast activation was accompanied by an induction of calcium signalling, whereas chronic exposure with MIF down-regulated the calcium transient, suggesting receptor desensitization as the underlying mechanism.     

The role of serum in human mixed lymphocyte cultures.

Mixed lymphocyte cultures employing human lymphocytes were established in serum-supplemented medium. After an initial incubation of 72 hr or longer, proliferation of the cultures was observed in serum-free medium for an additional 24–48 hr. Thereafter, the proliferation decreased to below values seen in autologous controls. No DNA synthesis was observed in serum-free cultures or in cultures initially incubated with serum for less than 72 hr. Human albumin added to the cultures could not replace serum, although a weak response was obtained. Serum therefore must be present throughout the incubation period in human mixed lymphocyte cultures, if a maximum response is to be elicited.     

Migration inhibitory factor (MIF) production by skin fibroblast cultures from patients with severe combined immunodeficiency

The supernatants of fibroblast cultures derived from skin biopsies of each of two patients with severe combined immunodeficiency were studied for the presence of migration inhibitory activity (MIF). The supernatants of both of these fibroblast cultures were found to contain inhibitory activity for the migration of cultured human lymphoid cells (PGLC-33H). This MIF activity was found to share chromatographic similarities with the MIF contained in the supernatants of a lymphoid cell line (PGLC-33H) and phytohemagglutinin (PHA) and tuberculin (PPD) stimulated human peripheral lymphocytes. These data suggest that MIF is not solely a lymphoid product and that severe combined immunodeficiency does not represent a gene deletion for MIF production.