Kinetics of development of the inhibitory activity of mixed lymphocyte culture supernatants on macrophage migration: effect of presensitization

Supernatants of mixed cultures of Lewis and August rat lymphocytes show a spontaneous release of MIF-like activity beginning at the 20th hr of the culture. If the Lewis rat has received an August skin allograft 2 wk earlier, the release begins sooner and remains stronger throughout the 3 days of the mixed lymphocyte culture. The difference begins to be statistically significant at the 10th hr (p < 0.001) and is still highly significant with the 72-hr supernatant (p < 0.001). Such a comparison of the kinetics of MIF-like activity release in mixed lymphocytes cultures between donor-recipient pairs and similar nongrafted pairs may be of both practical and theoretical interest.     

Activated protein C inhibits tumor necrosis factor and macrophage migration inhibitory factor production in monocytes

The precise regulatory mechanisms of amplification and downregulation of the pro- and anti-inflammatory cytokines in the inflammatory response have not been fully delineated. Although activated protein C (APC) and its precursor protein C (PC) have recently been reported to be promising therapeutic agents in the management of meningococcal sepsis, direct evidence for the anti-inflammatory effect remains scarce. We report that APC inhibits in vitro the release of tumor necrosis factor (TNF) and macrophage migration inhibitory factor (MIF), two known cytokine mediators of bacterial septic shock, from lipopolysaccharide (LPS)-stimulated human monocytes. The THP-1 monocytic cell line, when stimulated with LPS and concomitant APC, exhibited a marked reduction in the release of TNF and MIF protein in a concentration-dependent manner compared to cells stimulated with LPS alone. This effect was observed only when incubations were performed in serum-free media, but not in the presence of 1-10% serum. Serum-mediated inhibition could only be overcome by increasing APC concentrations to far beyond physiological levels, suggesting the presence of endogenous serum-derived APC inhibitors. Inhibition of MIF release by APC was found to be independent of TNF, as stimulation of MIF release by LPS was unaltered in the presence of anti-TNF antibodies. Our data confirm that the suggested anti-inflammatory properties of APC are due to direct inhibition of the release of the pro-inflammatory monokine TNF, and imply that the anti-inflammatory action of APC is also mediated via inhibition of MIF release.     

Impairment of macrophage migration inhibitory factor synthesis and macrophage migration in protein-malnourished mice

Weanling CD2F1 mice were fed isocaloric diets that were protein sufficient (PS; containing 27% casein) or protein deficient (PD; containing 8% casein). Weight measurements demonstrated that the growth of PD mice was significantly impaired, thus indicating that the PD diet induced protein malnutrition. The cellular immune responsiveness of these mice was assessed from Day 21 to Day 49 of the diet using, as indicators, in vitro production of migration inhibitory factor (MIF) by splenic lymphocytes and MIF responsiveness of peritoneal macrophages. PD lymphocytes, when stimulated with the polyclonal activator concanavalin A, produced significantly less MIF than did PS lymphocytes. The amount of MIF produced by PD lymphocytes, however, increased throughout the study, possibly indicating delayed maturation of MIF synthetic capacity in PD mice. Normal CD2F1 mouse macrophages were used for these assays. MIF responsiveness of PD and PS macrophages was not significantly different when assayed using MIF produced by normal CD2F1 mouse lymphocytes. As compared to that of PS macrophages, the migratory ability of PD macrophages decreased progressively throughout the study. This impaired migratory ability did not interfere with MIF responsiveness of PD macrophages.     

Human T-cell hybridomas producing migration inhibitory factor and macrophage activating factors

Studies were carried out to determine the heterogeneity of factors that affect macrophage functions using human hybridomas constructed by fusing PHA-activated human peripheral blood lymphocytes with emetine-actinomycin D-pretreated cloned human acute lymphatic leukemia cells (CEM). Three assay systems were used to investigate the activity of the macrophage migration inhibitory factor and of the macrophage activation factors for glucose consumption (MAF-G) and for O2- formation. In the culture supernatant of hybridomas and other cells, various combinations of these activities were detected. The results indicate that at least three molecules are concerned in each of these activities.     

High expression of macrophage migration inhibitory factor in human melanoma cells and its role in tumor cell growth and angiogenesis.

Macrophage migration inhibitory factor (MIF) is known to function as a cytokine, hormone, and glucocorticoid-induced immunoregulator. In this study, we reported for the first time that human melanocytes and melanoma cells express MIF mRNA and produce MIF protein. Immunohistochemical analysis demonstrated that MIF was mostly localized in the cytoplasm of melanocytes and G361 cells, a widely available human melanoma cell line. In particular, strong positive staining was observed at the dendrites of these cells. Expression of MIF mRNA and production of MIF protein were much higher in human melanoma cells such as G361, A375, and L32 than in normal cultured melanocytes. To assess the role of MIF overexpression in melanoma cells, G361 cells were transfected with an antisense human MIF plasmid. The results demonstrated that the cell growth rate of the transfected cells was markedly suppressed, suggesting that MIF participates in the mechanism of proliferation of melanoma cells. To further evaluate the function of MIF, we employed the Boyden chamber method to examine the effect on tumor cell migration and found that MIF enhanced the migration of G361 cells in a dose-dependent manner. Furthermore, we administered anti-MIF antibody into tumor (G361 cells in a Millipore chamber)-bearing mice to assess the effect on tumor-associated angiogenesis. The anti-MIF antibody significantly suppressed tumor-induced angiogenesis. Taken together, these results indicated that it is likely that MIF may function as a novel growth factor that stimulates incessant growth and invasion of melanoma concomitant with neovascularization.     

Receptor agonists of macrophage migration inhibitory factor

The cytokine MIF is involved in inflammation and cell proliferation via pathways initiated by its binding to the transmembrane receptor CD74. MIF also promotes AMPK activation with potential benefits for response to myocardial infarction and ischemia-reperfusion. Structure-based molecular design has led to the discovery of not only antagonists, but also the first agonists of MIF-CD74 binding. The compounds contain a triazole core that is readily assembled via Cu-catalyzed click chemistry. The agonist and antagonist behaviors were confirmed via study of MIF-dependent ERK1/2 phosphorylation in human fibroblasts.     

Chaperone-like activity of macrophage migration inhibitory factor

Macrophage migration inhibitory factor is a ubiquitous multifunctional cytokine having diverse immunological and neuroendocrine properties. Although this protein is known to be released into the circulation from the secretory granules of anterior pituitary or directly from immune cells as a consequence of stress, its participation in heat stress-induced aggregation of proteins has not yet been reported. We provide here the first evidence that the macrophage migration inhibitory factor possesses chaperone-like properties. It was shown to exist in the form of a mixture of low and high molecular weight oligomers. At heat stress temperatures the large oligomers dissociate into monomers that bind and stabilize thermally denatured malate dehydrogenase and glycogen phosphorylase b and thus prevent aggregation of the model proteins. Similar chaperone-like effects were also observed in the presence of partially purified brain extract containing besides the macrophage migration inhibitory factor a number of ubiquitous hydrophobic low molecular weight proteins identified by N-terminal microsequence analysis. Being highly stable and hydrophobic, the macrophage migration inhibitory factor in combination with other proteins of similar properties may comprise a family of constitutively expressed "small chaperones" that counteract the early onset of stress, around physiological conditions, when heat shock proteins are not abundant.     

Apoptotic neutrophils release macrophage migration inhibitory factor upon stimulation with tumor necrosis factor-alpha

Macrophage migration inhibitory factor (MIF) is an important cytokine involved in the regulation of innate immunity and present at increased levels during inflammatory responses. Here we demonstrate that mature blood and tissue neutrophils constitutively express MIF as a cytosolic protein not associated with azurophil granules. Functionally active MIF, but not proteases stored in azurophil granules, was released from apoptotic neutrophils following short term tumor necrosis factor (TNF)-alpha stimulation in a caspase-dependent manner and prior to any detectable phagocytosis by monocyte-derived macrophages. Moreover, TNF-alpha-mediated MIF release was blocked by glyburide and propenicide, both inhibitors of ATP-binding cassette-type transporters, suggesting that this transporter system is activated during neutrophil apoptosis. Taken together, apoptotic mature neutrophils release MIF upon short term TNF-alpha stimulation. Therefore, apoptosis may not always occur without the induction of pro-inflammatory mechanisms.     

Release of macrophage migration inhibitory factor(s) from lymphocytes stimulated by streptococcal preparations

Lymphocytes from apparently healthy subjects, incubated for 5 hours with cellular components or extracellular products of group A streptococci and then washed and reincubated, were found to release factor(s) capable of inhibiting guinea pig lung macrophage migration (“indirect method”). Inhibitition of macrophage migration was also obtained when the same preparations were tested directly on guinea pig lung cells, a macrophage-lymphocyte population (“direct method”). The guinea pigs had not been experimentally sensitized. The inhibition of migration appeared to depend on the presence of lymphocytes among the macrophages, since macrophages purified by repeatedly discarding nonadherent cells proved resistant to the migration inhibiting activity of the most active Streptococcal preparation, a 20 × concentrated filtrate. Reconstitution of the original lymphocyte-macrophage mixture reestablished the reactivity. The macrophage migration inhibition did not correlate with the age of the guinea pigs. It could not be obtained with preparations of group D streptococci or of Salmonella paratyphi. Group C streptococci did not inhibit the macrophage migration with the indirect method, but it did with the direct one.The factor(s) released into the medium on stimulation of apparently normal lymphocytes by Streptococcal preparations was relatively heat resistant, nondialyzable, and DNase and RNase resistant; its release was inhibited by puromycin. Pretreatment of the cells with trypsin prevented the absorption of the factor(s) and left migration unaffected. These characteristics are similar to those previously described for the migration inhibitory factor (MIF) produced by the interaction of sensitized lymphocytes and specific antigens. Whether or not these similarities indicate an identity remains to be determined.     

Benzisothiazolones as modulators of macrophage migration inhibitory factor

Substituted N-phenylbenzisothiazolones have been investigated as inhibitors of the tautomerase activity of the proinflammatory cytokine MIF (macrophage migration inhibitory factor). Numerous compounds were found to possess antagonist activity in the low micromolar range with the most potent being the 6-hydroxy analog 1w. Compound 1w and the p-cyano analog 1c were also shown to exhibit significant inhibition of the binding of MIF to its transmembrane receptor CD74. Consistently, both compounds were also found to retard the MIF-dependent phosphorylation of ERK1/2 in human synovial fibroblasts.     

Novel anti-inflammatory activity of epoxyazadiradione against macrophage migration inhibitory factor: inhibition of tautomerase and proinflammatory activities of macrophage migration inhibitory factor

Macrophage migration inhibitory factor (MIF) is responsible for proinflammatory reactions in various infectious and non-infectious diseases. We have investigated the mechanism of anti-inflammatory activity of epoxyazadiradione, a limonoid purified from neem (Azadirachta indica) fruits, against MIF. Epoxyazadiradione inhibited the tautomerase activity of MIF of both human (huMIF) and malaria parasites (Plasmodium falciparum (PfMIF) and Plasmodium yoelii (PyMIF)) non-competitively in a reversible fashion (K(i), 2.11-5.23 μm). Epoxyazadiradione also significantly inhibited MIF (huMIF, PyMIF, and PfMIF)-mediated proinflammatory activities in RAW 264.7 cells. It prevented MIF-induced macrophage chemotactic migration, NF-κB translocation to the nucleus, up-regulation of inducible nitric-oxide synthase, and nitric oxide production in RAW 264.7 cells. Epoxyazadiradione not only exhibited anti-inflammatory activity in vitro but also in vivo. We tested the anti-inflammatory activity of epoxyazadiradione in vivo after co-administering LPS and MIF in mice to mimic the disease state of sepsis or bacterial infection. Epoxyazadiradione prevented the release of proinflammatory cytokines such as IL-1α, IL-1β, IL-6, and TNF-α when LPS and PyMIF were co-administered to BALB/c mice. The molecular basis of interaction of epoxyazadiradione with MIFs was explored with the help of computational chemistry tools and a biological knowledgebase. Docking simulation indicated that the binding was highly specific and allosteric in nature. The well known MIF inhibitor (S,R)-3-(4-hydroxyphenyl)-4,5-dihydro-5-isoxazole acetic acid methyl ester (ISO-1) inhibited huMIF but not MIF of parasitic origin. In contrast, epoxyazadiradione inhibited both huMIF and plasmodial MIF, thus bearing an immense therapeutic potential against proinflammatory reactions induced by MIF of both malaria parasites and human.     

Kinetics of prourokinase production by human kidney cells in culture

The kinetics of prourokinase production by human kidney cell line TCL were investigated using microcarriers, roller bottles and a ceramic system. The type of microcarriers used for cell cultivation affects not only growth kinetics but also the duration of post-confluent production period. Different clones of cells derived from the same line can also exhibit different growth kinetics on different types of microcarriers. The effect of serum concentration on the prourokinase production was examined. Using a low serum concentration of 1 % the production of pro-urokinase on microcarriers, roller bottles and a ceramic system was compared. In all three systems the production was sustained over an extended period reaching beyond confluence.     

Interferon-tau stimulates secretion of macrophage migration inhibitory factor from bovine endometrial epithelial cells

During early pregnancy in ruminants, the embryo not only prevents prostaglandin F2alpha release, but it also modifies protein synthesis in the endometrium. This is accomplished by the secretion of interferon-tau (IFN-tau) from the embryo. The objective of this study was to identify and characterize specific proteins secreted from endometrial epithelial cells in response to IFN-tau that could be important for endometrial function and/or embryo development. The epithelial cells were prepared and cultured to confluence and then incubated with or without 100 ng/ml IFN-tau. At the end of the incubation, the proteins in the medium were analyzed by two-dimensional PAGE. The result showed that two major protein spots were induced by IFN-tau. One has a molecular mass of approximately 12 kDa and an isoelectric point (pI) of 6.7; the other has a molecular mass of 76 kDa and pI of 4.8. Protein sequence analysis showed that the 12-kDa protein contained a partial amino acid sequence that corresponded to macrophage migration inhibitory factor (MIF). To determine whether MIF is expressed in endometrial cells, isolated stromal or epithelial cells were incubated with or without 100 ng/ml IFN-tau for 0, 3, 6, 12, 24, and 48 h. After incubation, the MIF protein in cells was examined by Western blotting analysis, and the steady-state mRNA for MIF was examined by Northern analysis. Results showed that MIF protein and mRNA were present in the epithelial cells but not the stromal cells. The presence of MIF in the luminal epithelium of endometrial tissue was confirmed by immunohistochemistry. However, there was no effect of IFN-tau on MIF expression in the epithelial cells. The concentration of MIF in the medium was quantified by Western blotting analysis to determine if IFN-tau altered MIF protein secretion from the epithelial cells. The results showed that IFN-tau significantly stimulated the secretion of MIF protein from the cells. These data show that MIF is expressed in the epithelial, but not the stromal, cells of the endometrium and that MIF secretion from the epithelial cells is stimulated by IFN-tau. It is therefore likely that MIF plays a role in early embryo development, and further characterization of MIF expression and its regulation in the endometrium will add significantly to our understanding of early embryo-uterine interactions.     

Production of factors regulating macrophage motility in the early stages of mixed lymphocyte culture

The macrophage migration stimulation factor (MSF) is produced during the first hours of mixed lymphocyte culture (MLC) in the H-2 system. The activity of MSF is characterized by sharp peaks of migration stimulation in the culture fluids of allogeneic MLC. The peaks appeared every 5 hours. After 12--16 hours in the culture fluids of allogeneic MLC, there has been demonstrated macrophage migration inhibition factor whose activity rose by 48 hours. Optimal concentrations were revealed for stimulation and inhibition of macrophage migrations on the dilution of 1--2-day MLC culture fluids. The existence of the biorhythmical mechanism that controls the macrophage mobility through the balance of soluble mediators with alternative activity is suggested.