The role of divalent cations in interactions between lymphokines and macrophages

The divalent cation requirements of lymphokine-mediated alterations in macrophage function (activation and inhibition of migration) were examined. Normal rabbit alveolar macrophages exposed to incubation supernatants of antigen-stimulated sensitized lymphocytes (lymphokine) were activated, manifested by increased adherence and enhanced bactericidal activity, as compared with control cells. This lymphokine-mediated activation was dependent upon the presence of extracellular Mg²⁺ (but not Ca²⁺). Our data from both current and previous studies suggest that Mg²⁺ influx is necessary for initiation or support of the macrophage activation process. The divalent cation requirements for lymphokine (MIF)-induced inhibition of macrophage migration differed from that of the activation phenomenon. Specifically, both Ca²⁺ and Mg²⁺ were required for expression of MIF activity. Adsorption experiments indicate that these cations are needed for binding of MIF to the macrophage surface.     

Differential regulation of colony stimulating factor 1 and macrophage migration inhibitory factor expression by inflammatory cytokines in term human decidua: implications for macrophage trafficking at the fetal-maternal interface

Macrophages are a major component of the leukocyte population of human pregnant endometrium. Although several crucial functions have been ascribed to these cells, the mechanisms underlying macrophage trafficking in the placental bed are poorly understood. The aim of this study was to evaluate the in vivo expression of two potentially antagonistic macrophage-targeting chemokines, colony stimulating factor 1 (CSF1, also known as M-CSF) and macrophage migration inhibitory factor (MIF), in term decidua, and to examine the effects of the inflammatory cytokines tumor necrosis factor (TNF, also known as TNF alpha) and interleukin 1beta (IL1B) on CSF1 and MIF expression in cultured decidual cells. The expression of CSF1 and MIF in term decidua was evaluated by immunohistochemistry. Cultured decidual cells were primed with estradiol (E2) or with E2+medroxyprogesterone acetate (MPA), and then incubated with corresponding steroid(s) with or without TNF or IL1B. The levels of CSF1 and MIF protein and mRNA were assessed by ELISA and quantitative RT-PCR, respectively. Immunostaining for CSF1 and MIF was observed in term decidua. The levels of secreted CSF1 and MIF were similarly unchanged whether the decidual cells were incubated with E2 or with E2+MPA. The CSF1 levels significantly increased in cultures exposed to E2 or E2+MPA plus TNF or IL1B. In contrast, the MIF levels in TNF- and IL1B-treated cells were not changed significantly from the control cultures. The ELISA data were confirmed by quantitative RT-PCR analysis. These results indicate that CSF1 and MIF are involved in regulating macrophage trafficking at the fetal-maternal interface, and suggest a mechanism by which inflammatory cytokines influence pregnancy by regulating decidual macrophage infiltration.     

Cyclic AMP affects Macrophage Migration

ADENOSINE 3′,5′-cyclic monophosphate (cyclic AMP) has been shown to restore contact inhibition of transformed cells¹ and to enhance the aggregation of thyroid cells². I have studied the effects of exogenous and endogenous cyclic AMP on the centrifugal migration of guinea-pig macrophages from capillary tubes onto a glass surface. This test system is widely used for the measurement of a soluble lymphocyte product known as the migration inhibitory factor (MIF)^3,4.     

Specific MIF release by rat lymphocytes following incubation with syngeneic anti-tumor “Immune” RNA

Other investigators have previously shown that normal nonimmune lymphoid cells, after incubation with “Immune” RNA, will release MIF when these cells are incubated with the specific antigen used to immunize the RNA donor. This conversion can be detected with the macrophage migration inhibition assay. These observations have been confirmed in a system involving the transfer of immune response to tumor associated antigens with syngeneic “Immune” RNA. Syngeneic “Immune” RNA was extracted from the spleens of Fischer 344/N rats bearing growing transplants of one or another of two syngeneic chemically induced sarcomas. Normal, nonimmune Fischer 344/N spleen cells were incubated with these RNA preparations. When these RNA-incubated spleen cells were exposed to solubilized antigens from that particular tumor used to immunize the RNA donor, MIF was released. RNAse treatment of the “Immune” RNA abrogated the response, while DNAse or pronase treatment did not.     

Stalk cell formation in monolayers of Dictyostelium discoideum V12-M2

Stalk cell formation in low-cell-density monolayers of Dictyostelium discoideum, strain V12-M2, occurs following the sequential addition of cyclic AMP and the differentiation-inducing factor (DIF). Both cyclic AMP and DIF are essential for the appearance of the prestalk-specific isozyme alkaline phosphatase-II, which suggests that both factors are necessary for prestalk cell formation. The available evidence suggests that the cyclic AMP requirement for stalk cell formation is mediated through the cell surface cyclic AMP receptor. However, stalk cell formation is inhibited by caffeine and this inhibition is reversed by the cell-permeable analogue 8-Br-cyclic AMP, which suggests in addition a possible involvement for elevated intracellular cyclic AMP concentrations in stalk cell formation. During in vivo development cells first become independent of cyclic AMP at the tipped aggregate stage, but the acquisition of cyclic AMP independence is advanced by several hours when cells are incubated in the presence of cyclic AMP for 2 hours. Cells do not become independent of DIF until the culmination stage of development, which suggests the possibility that DIF is required for the conversion of prestalk cells to stalk cells. There is an absolute requirement for DIF for stalk cell formation in low-density monolayers of prestalk cells but only part of population exhibits a requirement for cyclic AMP, which suggests that the prestalk cell population consists of two distinct cell types. Stalk cell formation from prespore cells is totally dependent on both cyclic AMP and DIF.(ABSTRACT TRUNCATED AT 250 WORDS)     

Enhancement of oxidised low-density lipoprotein uptake by macrophages in response to macrophage migration inhibitory factor

We examined the expression of macrophage migration inhibitory factor (MIF) mRNA in murine macrophage cell line (RAW 264.7 cells) in response to oxidized low-density lipoprotein (oxLDL), and investigated the influence of MIF on the uptake and degradation of oxLDL by RAW 264.7 cells. MIF mRNA expression was markedly upregulated in the presence of oxLDL. Consistent with this, the MIF level of the culture medium was increased by stimulation with oxLDL in dose- and time-dependent manners. Next, we added recombinant rat MIF to the culture medium and examined its effects on the uptake of(125)I-labelled oxLDL. Pretreatment with MIF enhanced both the uptake and degradation of(125)I-oxLDL. Taken together, these results suggest that MIF released from macrophages in response to oxLDL stimulates oxLDL uptake and degradation in an autocrine and paracrine fashion, which potentially results in atherosclerosis.     

Regulatory mechanisms of cutaneous delayed-type hypersensitivity: I. Suppression of cutaneous delayed-type hypersensitivity by migration inhibitory factor

The macrophage migration inhibitory factor (MIF) fraction was prepared from the immunoadsorbent column by using anti-guinea pig MIF antiserum. Suppression of cutaneous delayedtype hypersensitivity was achieved by intraperitoneal injection of the MIF fraction into the animals bearing macrophage-rich peritoneal exudates. Skin reactions induced by phytohemagglutinin (PHA) were also suppressed in these animals. Reactivity to skin reactive factor (SRF) was suppressed in these animals as well. The sera obtained from these animals exhibited the inhibitory activity against production of lymphokines from sensitized lymphocytes.     

The mechanism of action of soluble lymphocyte mediators. IV. Effect of migratio inhibitory factor (MIF) on macrophage cyclic AMP and on responsiveness to adenylate cyclase stimulators.

Intracellular levels of cyclic 3′,5′-adenosine monophosphate (cAMP) in purified guinea pig peritoneal macrophages were elevated following incubation with the adenylate cyclase stimulators prostaglandins E₁ and E₂ (PGE₁, PGE₂), isoproterenol, and cholera toxin. Exposure of macrophages to antigen-stimulated lymphocyte culture supernatants, containing migration inhibitory factor (MIF), resulted in a moderate but consistent decrease in the cAMP level, which was best expressed after 1–2 hr of incubation. Incubation of macrophages with MIF-containing supernatants or partially purified MIF for 1–2 hr resulted in reduced cAMP accumulation in response to PGE₁, PGE₂, isoproterenol, and cholera toxin (nonspecific refractoriness). These findings indicate that MIF-induced inhibition of macrophage migration is not due to an increase in the cellular level of cAMP and that the reduction in cAMP concentration, caused by MIF, is probably a secondary phenomenon unrelated to the inhibition of cellular motility.     

Role of lymphokines in regulation of macrophage differentiation

The regulatory mechanism of guinea pig lymphokines was investigated in regard to differentiation of myeloid cells to macrophages. The Ml-cell line, established from a myeloid leukemia of an SL-strain mouse, was induced to differentiate in vitro into mature macrophages possessing Fc receptors and the ability to phagocytize latex particles by treatment with crude lymphokines. Both concanavalin A- and antigen-induced lymphokines showed the differentiation-inducing factor (D factor) activity. However, macrophage migration inhibitory factor/ macrophage activation factor (MIF/MAF) purified by an immunoadsorbent column with anti-MIF antibody had no such an activity. The D-factor activity was detected in the lymphokine preparation that was not retained on the immunoadsorbent column. In contrast, colony-stimulating factor (CSF) was adsorbed to the immunoadsorbent column, and could be recovered in the purified MIF/MAF preparation. These findings suggest that the molecular entity of D factor is distinct from MIF/ MAF and CSF. A culture supernatant of guinea pig peritoneal macrophages activated with MIF/ MAF (CSF) exhibited strong D-factor activity. However, the supernatant possessed rather reduced CSF activity as compared to that of the original MIF/MAF (CSF) preparation. Thus, MIF/MAF may play an important role in macrophage differentiation by regulating the production of D factor or CSF from macrophages.     

Studies on the mechanism of suppression of delayed hypersensitivity by the antischistosomal compund niridazole.

Niridazole given in a single oral dose of 100 mg/kg to guinea pigs sensitized to ortho-chlorobenzoyl chloride-bovine gamma-globulin (OCB-BGG) regularly abolished delayed cutaneous reactivity. Little effect was observed, however, when cells from these animals were tested in vitro with either direct or indirect assays for migration inhibitory factor (MIF). On the other hand, sera taken from nonsensitized guinea pigs after they had received 100 mg/kg of niridazole markedly diminished antigen-induced inhibition of migration of sensitized peritoneal exudate cells in vitro. The immunosuppressive effects of such sera could not be produced by niridazole itself, thereby suggesting an effect of niridazole metabolites. This suppressive activity was readily removed from the serum by dialysis. The active serum blocked the production of MIF by sensitized lymph node cells but did not affect the action of preformed MIF on macrophages. The effect of this serum was reversible; lymph node cells incubated for 24 hr with active serum, then washed and reincubated with antigen in normal serum, produced normal amounts of MIF. These studies suggest that metabolites of niridazole, but not the parent compound itslef, suppress delayed hypersensitivity in guinea pigs and prevent MIF production by lymphocytes without affecting the macrophage response to MIF.     

Phagosome-lysosome fusion and cyclic adenosine 3':5'-monophosphate in macrophages infected with Mycobacterium microti, Mycobacterium bovis BCG or Mycobacterium lepraemurium.

When ingested by mouse peritoneal macrophage monolayers, live Mycobacterium microti caused a sustained increase in monolayer cyclic AMP content and fusion of lysosomes with the bacterium-containing phagosomes was impaired. Ingested live M. bovis BCG caused a transient increase in cyclic AMP and the defect in phagolysosome formation was less pronounced. Dead mycobacteria and live M. lepraemurium neither enhanced monolayer cyclic AMP content nor inhibited phagolysosome formation. Mycobacterium microti and BCG exceeded M. lepraemurium in cyclic AMP-synthesizing activity in vitro but the question of whether bacterial cyclic AMP contributed substantially to the increments in infected macrophages was not resolved. Antibody-coated BCG retained the ability to synthesize cyclic AMP and to enhance monolayer cyclic AMP but lost the ability to inhibit phagolysosome formation in macrophages, The observations are discussed in terms of possible control of phagolysosome formation by cyclic nucleotides.     

Adenosine-Elicited Accumulation of Adenosine 3'', 5''-Cyclic Monophosphate in the Chick Embryo Retina

The cyclic AMP level of 17-day-old chick embryo retina increased from 20 to 331 pmol/mg protein when the tissue was incubated for 20 min in the presence of 4-(3-butoxy-4-methoxybenzyl-2-imidozolinone) (RO 20-1724). The addition of 0.5 mM-3-isobutyl-1-methylxanthine (IBMX) or 0.5 units/ml of adenosine deaminase (EC 3.5.4.4) to the medium reduced the increase of cyclic AMP content from 20 to 100 pmol/mg protein. Dipyridamole did not interfere with the rise of the retinal cyclic AMP level observed with RO 20-1724. The EC50 of 6-amino-2-chloropurine riboside (2-chloroadenosine)-elicited accumulation of cyclic AMP of retinas incubated in the presence of RO 20-1724 plus adenosine deaminase was approximately 1 microM. When retina incubation was carried out in the presence of 0.5 mM-IBMX, the 2-chloroadenosine dose-response curve was shifted to the right two orders of magnitude. Maximal stimulation of the cyclic AMP level of 17-day-old chick embryo retina incubated in the presence of 0.5 mM-IBMX was observed at 1 mM-adenosine concentration. This effect was not blocked by dopamine antagonists. Guanosine and adenine did not affect the retinal cyclic AMP level. AMP and ATP had a slight stimulatory effect. Adenosine response of embryonic retina increased sharply from the 14th to the 17th embryonic day. A similar, but not identical adenosine effect was observed in cultured retina cells.     

Possible role of macrophage glycolipids as receptors for migration inhibitory factor (MIF).

Guinea pig peritoneal exudate cells incubated with water soluble glycolipids obtained from macrophages show an enhanced response to migration inhibitory factor. Incorporation of these glycolipids into liposomes greatly facilitates their interaction with indicator cells. Enhancement of peritoneal exudate cell responsiveness to migration inhibitory factor was specific for glycolipids from guinea pig macrophages. Glycolipids extracted from guinea pig brain and polymorphonuclear leukocytes as well as several bovine and porcine glycolipids had no effect. Specificity of enhancement was not due merely to a preferential association of macrophage glycolipids with indicator cells. The possible role of macrophage glycolipids as receptors for MIF is discussed.     

Haemaphysalis longicornis: molecular characterization of a homologue of the macrophage migration inhibitory factor from the partially fed ticks

The macrophage migration inhibitory factor (MIF) has been identified from some vertebrates and invertebrates. MIF is related to inflammation, tumor growth, and angiogenesis in vertebrates. Here, we report the molecular characterization of a homologue of MIF from partially fed Haemaphysalis longicornis. The sequence analysis of the H. longicornis MIF (HlMIF) indicated that its deduced amino acid sequence has an identity of 77% with the MIF of the tick Amblyomma americanum. Western blot analysis using the anti-His-HlMIF antibody showed that HlMIF was up-regulated during blood feeding. Immunohistochemistry showed that the endogenous HlMIF in partially fed ticks was localized to the midgut and epidermal cells. Moreover, the functional assay revealed that the GST-HlMIF inhibited the migration of human monocytes. In conclusion, we consider that HlMIF may facilitate blood feeding by inhibiting host macrophage migration to the feeding lesion or may participate in the proliferation and differentiation of cells in the tick body.     

Refractoriness to migration inhibitory factor of macrophages of LPS nonresponder mouse strains.

The responsiveness to macrophage migration inhibitory factor (MIF) of peritoneal exudate cells (PEC) from the LPS unresponsive C3H/HeJ and C57BL/10ScCR mice was assessed by the indirect agarose microdroplet macrophage migration inhibition assay. No migration inhibition with PEC from C3H/HeJ nor C57BL/10ScCR mice was detected, whereas PEC from both C3H/HeN and C57BL/10Sn mice were significantly inhibited by even a 1/32 dilution of MIF-containing supernatants. Responsiveness to MIF of C3H/HeJ PEC could, however, be induced. In vivo inoculations of Mycobacterium bovis, strain BCG, 7 days before in vitro assay rendered C3H/HeJ PEC responsive to MIF. The lack of responsiveness to MIF by C3H/HeJ PEC appeared related to some form of suppression, since a mixture of PEC from C3H/HeN mice with 10 to 15% PEC from C3H/HeJ mice resulted in undetectable migration inhibition at any MIF dilution. In contrast to the usual lack of responsiveness of their macrophage to MIF, C3H/HeJ mice were able to produce MIK in response to PPD as well as their counterpart C3H/HeN mice after BCG sensitization. These results demonstrate that macrophages from C3H/HeJ and C57BL/10ScCR mice are unable to be inhibited in their in vitro migration of MIF (possibly being directly or indirectly influenced by a suppressor cell), whereas lymphoid cells from at least one of these strains, the C3H/HeJ mice, can produce MIF in response to antigenic stimulation.     

Partial purification of guinea pig MIF by affinity column chromatography using macrophages.

First we have confirmed the previous observation that the macrophage migration inhibitory factor (MIF) was adsorbed on normal peritoneal macrophages when they were incubated at 4 C for 60 min. It was found that macrophages fixed with 2% glutaraldehyde gave more reproducible results than viable cells in terms of "adsorption" of guinea pig MIF. The adsorption was achieved more completely at 37 C than at 4 C, indicating that this reaction is a temperature-dependent phenomenon. Using these glutaraldehyde-fixed macrophages, a kind of cell-affinity column was successfully developed. The guinea pig MIF preparation lost its activity when it was passed through this affinity column, and MIF adsorbed on the column was recovered by elution with 0.1 M (L)-fucose of 0.1 M (D)-glucose. Such MIF active eluate was found to be at least 30--40 fold more pure than the original MIF preparation which had been previously fractionated according to its molecular weight. Therefore, this type of macrophage-affinity column may be useful for the purification of MIF.     

Change of Cyclic AMP Level in Synaptosomes from Cerebral Cortex; Increase by Adenosine Derivatives

The endogenous level of cyclic AMP in incubated synaptosomes from cerebral cortex of guinea pigs was investigated after the addition of various agents to the incubation medium. It appeared that the synaptosomal suspension already contained exogenous adenosine. Preincubation with theophylline or with adenosine deaminase (ADase) decreased both the exogenous level of adenosine and the intrasynaptosomal level of cyclic AMP. The level of cyclic AMP was reincreased by the addition of adenosine agonists, especially 2-chloroadenosine. This increase was antagonized by deoxyadenosine and was not inhibited by dipyridamole. These results suggest that the adenosine derivatives in the synaptic cleft regulate the level of cyclic AMP in nerve terminals through adenosine receptor on the presynaptic membrane. ADP, ATP, dopamine, and histamine also stimulate the formation of cyclic AMP in the ADase-treated synaptosomes.     

MIF-like activity of natural and recombinant human interferon-gamma and their neutralization by monoclonal antibody

By utilizing elutriation-purified human monocytes, we found that human interferon (IFN) inhibits monocyte migration in a manner similar to migration inhibitory factor (MIF) and does it without demonstrable cytotoxicity. We observed that human IFN-gamma is 10 to 300 times more potent in its MIF activity than is IFN-alpha and that monoclonal antibodies (MoAb) can be used to distinguish between them. Studies with recombinant IFN-gamma indicate that the migration inhibition seen with natural IFN-gamma is due to IFN-gamma itself and is not due to co-purification of another lymphokine with the natural IFN-gamma. Although interferons exhibit MIF activities, there are apparently other cytokines, without antiviral activity, that also have MIF activities. MIF from the lymphoblastoid cell line RPMI 1788 was not neutralized by MoAb to IFN. However, MIF activity in supernatant fluid from human peripheral blood lymphocyte cultures stimulated with Con A-Sepharose was completely neutralized with MoAb anti-IFN-gamma. These data indicate that MIF is really a family of cytokines that inhibit macrophage/monocyte migration and that the major portion of MIF activity associated with crude supernatant of mitogen-stimulated lymphocytes is due to IFN-gamma.     

The mechanism of cell surface changes of guinea pig macrophages activated with purified migration inhibitory factor/macrophage activation factor

Guinea pig MIF (MIF/MAF), which was purified by immunoadsorbent column chromatography using an antibody against MIF/MAF, was observed to induce characteristic cell surface changes in macrophages under scanning electron microscopy (SEM). MIF/MAF induced enlarged petal-like ruffles in both rounded and spreading macrophages. The changes were observed as early as 2 hr after stimulation with MIF/MAF and continued for 24 hr. These morphological changes appeared to be a good indicator of macrophage activation and migration inhibition in the early phase. The mechanism of the characteristic ruffle formation was studied using metabolic inhibitors and reagents known to affect microfilaments and microtubules. When macrophages were treated with MIF/MAF in the presence of mitomycin C, actinomycin D, or puromycin, formation of the petal-like ruffles was not affected. However, vinblastine and cytochalasin B inhibited the induction of these ruffles. These results indicate that microtubule and microfilament assembly, but not synthesis of DNA, RNA, and protein, are required for the formation of the petal-like ruffles. In addition, treatment with a Ca²⁺ ionophore induced the same petal-like ruffles in macrophages, while treatment with dibutyryl-cyclic AMP or-cyclic GMP did not. These findings suggest that Ca²⁺ plays an important role in macrophage activation by MIF/MAF, especially in the early phase.     

Changes in adenosine 3',5'-monophosphate induced by parathyroid hormone and theophylline in the developing rat renal cortex

To test the biochemical responsiveness of developing rat renal cortex to parathyroid hormone (PTH), intracellular concentrations of adenosine 3′,5′-monophosphate (cyclic AMP) were measured. Renal cortical slices from 10-day-, 20-day-, and 12-week-old animals contained higher concentrations of cyclic AMP when incubated in the presence of theophylline than in its absence. In the absence of theophylline, tissue from all three age groups responded to PTH with dose-dependent increases in cyclic AMP. In the presence of theophylline the response of tissue from 10-day-old animals was greater than that of 12-week-old animals.It is suggested that the differential effect of theophylline with respect to age may be the result of higher turnover rates of cyclic AMP in the young animals.