The comparison of lysosomal enzymes activities in alveolar and peritoneal macrophages of rat

Studies were carried out on macrophages isolated from control and thioglycollate injected rats. Intraperitoneal injection of thioglycollate had no effect on the number of harvested alveolar macrophages but caused a marked increase in the number of peritoneal macrophages. The specific activities of all the investigated enzymes were significantly lower in peritoneal macrophages from control rats in comparison to alveolar macrophages. Thioglycollate stimulation of peritoneal macrophages caused increase in activities of all lysosomal hydrolases studied. Cathepsin B, N-acetylglucosaminidase and esterase showed the highest level of stimulation.     

Platelet-activating factor-induced hydrolysis of phosphatidylinositol 4,5-bisphosphate stimulates the production of reactive oxygen intermediates in macrophages.

To investigate the relationship between inositol lipid hydrolysis and reactive oxygen-intermediate (ROI) production in macrophages we have examined the effect of platelet-activating factor (PAF) on normal bone marrow-derived macrophages. Addition of PAF to macrophages prelabelled with [3H]inositol caused a marked and rapid increase in [3H]inositol trisphosphate levels. Similarly when PAF was added to [3H]-glycerol prelabelled macrophages there was a rapid increase in 1,2-diacyl[3H]glycerol levels. These events preceded any increase in the rate of PAF-stimulated ROI production by a discernible period of several seconds. Increasing concentrations of PAF led to a markedly similar increase in both ROI production and [3H]inositol lipid hydrolysis suggesting that inositol lipid hydrolysis may lead to the generation of ROI in macrophages. Further evidence that this is the case came from experiments in which pretreatment of macrophages with phorbol esters was shown to inhibit both PAF-stimulated [3H]inositol phosphate production and ROI production to a markedly similar degree. Similarly pertussis toxin inhibited both PAF-stimulated ROI production and [3H]inositol phosphate production. Phorbol esters were shown to activate ROI production in normal bone marrow-derived macrophages whereas the Ca2+ ionophore, A23187, did not. These experiments suggest that PAF stimulates a pertussis toxin-sensitive activation of inositol lipid hydrolysis leading to the formation of inositol trisphosphate and diacylglycerol. The diacylglycerol formed can then activate protein kinase C leading to the stimulation of ROI production in normal bone marrow-derived macrophages.     

Comparison of cholesterol transport in pulmonary, peritoneal, and blood-derived macrophages from normo- and hypercholesterolemic rabbits

The influx and efflux components of cholesterol transport were separately determined in pulmonary, peritoneal, and monocyte-derived macrophages from rabbits fed a diet containing either 4.5% fat or 4.5% fat plus 2% cholesterol. Both influx and efflux in pulmonary macrophages increased with increasing concentration of either normal or hypercholesterolemic serum in the medium. The mass of cholesterol entering the macrophages continued to increase beyond the mass of cholesterol effluxed, leading to an increase in cholesterol mass. Similar results were obtained with peritoneal macrophages. Cholesterol-enriched peritoneal macrophages in most cases had a net efflux of sterol when incubated with normocholesterolemic serum. Pulmonary and peritoneal macrophages from cholesterol-fed rabbits tended to have slower sterol influx and a slightly faster sterol efflux than pulmonary and peritoneal macrophages from control rabbits, but the combined effect of these mechanisms did not prevent these macrophages from accumulating sterol ester from hypercholesterolemic serum. Hypercholesterolemic rabbit serum was fractionated by heparin-Sepharose affinity chromatography into a beta-VLDL-deficient nonadsorbed fraction, which had very little effect on pulmonary macrophage sterol content, and an adsorbed beta-VLDL-containing fraction which promoted a large increase in macrophage sterol. As with unfractionated hypercholesterolemic serum, macrophages incubated with the adsorbed beta-VLDL-containing fraction accumulated large amounts of cellular sterol. Monocyte-macrophages cultured in vitro for 21 hr, in contrast to extravascular macrophages, closely regulated their cellular sterol, primarily by limiting the rate of sterol influx.     

Regulation of the secretion of lipoprotein lipase by mouse macrophages

The regulation of the secretion of lipoprotein lipase was studied in primary cultures of mouse peritoneal macrophages and in the murine macrophage cell line J774. As previously reported, both cell types secrete a lipase with the characteristics of lipoprotein lipase. Incubation of macrophages with insulin, insulin-like growth factor, and L-thyroxine had no effect on lipoprotein lipase secretion. Incubation with dexamethasone and with several agents which increase intracellular cyclic AMP led to a decrease in lipoprotein lipase secretion by mouse peritoneal macrophages. These results suggest that the hormonal regulation of lipoprotein lipase in macrophages is different from that in adipose tissue and heart muscle. Incubation of the macrophages with heparin caused a marked increase in the secretion of lipoprotein lipase. Short incubations with heparin (5 min) caused a release of the enzyme into the media, while longer incubations caused a 2-8-fold increase in net lipoprotein lipase secretion which was maximal after 2-16 h depending on cell type, and persisted for 24 h. The effect of heparin was dose-dependent and specific (it was not duplicated by other glycosaminoglycans). The mechanism of heparin-induced increase in lipoprotein lipase secretion was explored. The increase was not caused by the release of a presynthesized intracellular pool of lipoprotein lipase or by the stabilization of lipoprotein lipase by heparin after secretion. The heparin-induced increase in lipoprotein lipase secretion was dependent on protein synthesis. The secretion of lipoprotein lipase by macrophages in response to low levels of heparin may be a significant factor in the formation of atherosclerotic lesions.     

Changes of expression of peritoneal macrophages Fc and C3 receptors induced by transplantable melanomas

Expression of Fc and C3 receptors was studied in the rosette tests on isolated peritoneal macrophages of control and melanoma-bearing hamsters. In hamsters with transplanted melanomas an increase of the percentage of macrophages with Fc and C3 receptor expression was observed. The increase was prominent among macrophages from animals with transplanted amelanotic melanoma, a tumor line with greater malignancy and changed antigenicity and immunogenicity.     

T lymphocytes increase the synthesis of esterified cholesterol in human monocyte-derived macrophages by activation of the scavenger pathway.

Immunohistochemical analyses have shown the presence of T lymphocytes (T-cells) in atherosclerotic places in addition to macrophages and smooth muscle cells. To elucidate the role of T-cells in the formation of atherosclerotic lesions, we studied whether T-cells can stimulate the scavenger pathway and promote esterified cholesterol (EC) synthesis by [14C]oleate incorporation in macrophages. Macrophages and T-cells were co-cultured in two ways. In one culture, macrophages were in direct contact with T-cells (direct contact form). In the other, macrophages and T-cells were separated by Transwell membrane, but shared the same culture medium via the membrane (indirect contact form). Based on the incorporation of [14C]oleate into EC, macrophages strikingly increased EC synthesis in both forms of co-culture. This increase was proportional to the number of T-cells present and was inhibited by cyclosporin A. When macrophages were co-cultured indirectly in contact with T-cells in the presence of AcLDL for 24 h, and the T-cells were subsequently removed, EC synthesis in macrophages increased. However, this increase was not observed in macrophages that were rinsed twice with PBS. When macrophages, previously incubated with AcLDL for 24 h, were co-cultured indirectly in contact with T-cells for 24 h, the medium were prepared as activated T-cell-conditioned medium (aTCM). EC synthesis in macrophages cultured with aTCM increased. The ability of aTCM to increase EC synthesis disappeared upon repeated freezing/thawing, boiling and trypsin treatment. T-cells (indirect contact form) and aTCM similarly increased AcLDL-binding and -degradation in macrophages. These results indicated that T-cells secreted an active substance(s), protein in nature, which could activate the scavenger pathway and increase EC synthesis in macrophages. These observations suggest that T-cells can promote the uptake of modified lipoproteins by macrophages to induce foam cell-formation.     

Repeated social defeat increases the bactericidal activity of splenic macrophages through a Toll-like receptor-dependent pathway

Phagocytes of the innate immune system, such as monocytes/macrophages, represent a first line of defense against invading microorganisms. Psychological stress is often thought to suppress the functioning of these cells, in part due to the immunosuppressive activity of stress-induced glucocorticoid hormones. However, exposure to the stressor social disruption (SDR) has been shown to increase cytokine production by monocytes/macrophages and to reduce their sensitivity to corticosterone. Thus, it was hypothesized that splenic monocytes/macrophages from socially stressed mice would be primed to be more physiologically active than cells from nonstressed controls. Flow cytometry was used to demonstrate that exposure to SDR significantly increased the expression of Toll-like receptors (TLR) 2 and 4 on the surface of splenic macrophages. In a follow-up experiment, exposure to SDR also increased the ability of these macrophages to kill Escherichia coli ex vivo and in vivo. However, SDR failed to increase the bactericidal activity of splenic macrophages from C3H/HeJ mice, which lack functional TLR4. In mice with functional TLR4, the stress-induced increase in bactericidal activity was associated with a significant increase in macrophage gene expression for inducible nitric oxide synthase and subunits of the NADPH oxidase complex, which are responsible for generating reactive nitrogen and oxygen intermediates, respectively. This stress-induced increase in gene expression was not evident in the TLR4-deficient mice. These data indicate that SDR increases TLR expression, which in turn enhances the bactericidal activity of splenic macrophages, in part by increasing pathways responsible for reactive oxygen and nitrogen intermediate production.     

Role of Macrophages in Acute Murine Cytomegalovirus Infection

It has been recognized that macrophages play an important role in controlling virus infection in experimental animal models. To evaluate the role of macrophages in acute murine cytomegalovirus infection, macrophages in the spleen and the liver were eliminated by an intravenous injection of liposomes containing a cytolytic agent, dichloromethylene diphosphonate. The depletion of macrophages led to a significant increase of virus titer in the spleen and lungs in both susceptible BALB/c and resistant C57BL/6 mice during the first three days after intravenous infection. In the spleen, the increase of virus titer in macrophage-depleted BALB/c mice was much greater than that in NK cell-depleted mice. These results suggest that macrophages contribute to protection mainly by the mechanisms which are independent of NK cells during the first three days after infection. The increase of virus titer in macrophage-depleted C57BL/6 mice was as great as that in NK cell-depleted mice because of the high contribution of NK cells to protection in C57BL/6 mice. In the liver in both strains of mice, the effects of macrophage depletion on virus titer were not as much as those in the spleen and lungs. Furthermore, the local depletion of peritoneal macrophages resulted in a great increase of virus titer in the spleen at three days after intraperitoneal infection. We conclude that macrophages greatly contribute to decreasing the virus load in some organs possibly through either or both intrinsic and extrinsic mechanisms in the early phase of primary infection with murine cytomegalovirus.     

Changes in the cAMP level in macrophages during the phagocytosis of Salmonella typhimurium. II. Effect of the virulence of microorganisms and the immune status of the macrophages on the dynamics of changes in cAMP levels

The dynamics of changes in the level of intracellular cyclic AMP in nonimmune and immune macrophages in the process of the phagocytosis of S. typhimurium virulent strain, its heated variant and its mutant with low virulence was studied. A transient increase in the level of cyclic AMP was shown to occur during the first 30 minutes of phagocytosis; this increase did not depend on the kind of the phagocytized object and on the activity of macrophages and neither had it any influence on the outcome of phagocytosis. The virulent strain also induced the three-fold increase of the level of cyclic AMP in nonimmune macrophages prior to their disintegration caused by the cytopathogenic action of the microorganism. In immune macrophages the virulent strain did not induce the secondary increase of the level of cyclic AMP.     

The anticlastogenic effect of tocopherol in peritoneal macrophages of benznidazole-treated and ovariectomized mice

Cytogenetic studies revealed a significant increase in the frequency of structural chromosome aberrations of peritoneal macrophages from hyperimmune Swiss mice after ovariectomy. The administration of the nitroarene benznidazole caused a large number of chromosomal deletions in peritoneal macrophages of sham-ovariectomized animals. The clastogenic effect of benznidazole was much greater in peritoneal macrophages of ovariectomized mice. The anti-oxidant α-tocopherol protected the peritoneal macrophages from developing ovariectomy- or benznidazole-induced chromosomal aberrations, thus suggesting free radical damage in these processes.     

The response of testicular leukocytes to lipopolysaccharide-induced inflammation: further evidence for heterogeneity of the testicular macrophage population

The majority of macrophages in the rat testis can be identified by the tissue-resident macrophage marker ED2. A smaller population of intratesticular macrophages do not express the ED2 antigen but are positive for the monocyte/macrophage marker ED1. Treatment of adult rats with the inflammatory stimulus lipopolysaccharide (LPS) had no effect on the number of testicular resident (ED2(+)) macrophages but caused a transient increase in ED1(+)ED2(-) monocyte-like macrophages (an average three-fold increase 12 h later). In both control and LPS-treated rat testes, a majority of macrophages that expressed ED1 and all Leydig cells were immuno-positive for the inducible isoform of nitric oxide synthase (iNOS). However, less than 6% of ED2(+) macrophages showed any iNOS expression, even after LPS treatment. This deficiency was confirmed by the finding that isolated ED2(+) testicular macrophages (>98% pure) stimulated with LPS did not produce NO in vitro. In contrast, resident macrophages from the peritoneum showed the expected NO response, and purified Leydig cells produced significant NO regardless of the presence or absence of LPS. Collectively, these data indicate the presence of at least two macrophage subsets in the adult rat testis: (1) the ED2(+) resident macrophages, which do not alter following LPS-treatment and mostly do not express iNOS or produce NO in response to an inflammatory stimulus, and (2) the ED1(+)ED2(-) monocyte-like macrophages, which increase in number after LPS-treatment and express iNOS even in the absence of exogenous inflammatory stimulation. It is highly probable that these different subsets have different functional roles within the testis.     

NOS1-mediated macrophage and endothelial cell interaction in the progression of atherosclerosis

Atherosclerosis is a chronic inflammatory disease arising due to an imbalance in lipid metabolism and maladaptive immune response driven by the accumulation of cholesterol-laden macrophages in the artery wall. Interactions between monocytes/macrophages and endothelial cells play an essential role in the pathogenesis of atherosclerosis. In our current study, nitric oxide synthase 1 (NOS1)-derived nitric oxide (NO) has been identified as a regulator of macrophage and endothelial cell interaction. Oxidized LDL (OxLDL) activates NOS1, which results in the expression of CD40 ligand in macrophages. OxLDL-stimulated macrophages produce some soluble factors which increase the CD40 receptor expression in endothelial cells. This increases the interaction between the macrophages and endothelial cells, which leads to an increase in the inflammatory response. Inhibition of NOS1-derived NO might serve as an effective strategy to reduce foam cell formation and limit the extent of atherosclerotic plaque expansion.     

Enhanced growth restriction of Legionella pneumophila in endotoxin-treated macrophages.

Macrophages from A/J mice are permissive for growth of Legionella pneumophila, an intracellular opportunistic pathogen that grows preferentially in macrophages. Macrophages from other mouse strains are highly resistant to growth of Legionella. In the present study, it was found that macrophages from A/J mice are readily activated by pretreatment with lipopolysaccharide (LPS), so that the cells do not permit Legionella to replicate in vitro, as occurs when untreated macrophages from A/J mice are cultured with these organisms for 48 hr. The augmentation of Legionella growth inhibition by LPS-activated macrophages from nonpermissive BDF1 mice also occurred. After in vitro infection, there was a 1000-fold increase in the number of Legionella in A/J macrophages and approximately a 10-fold increase in BDF1 macrophages, but LPS treatment of macrophages from either strain resulted in marked growth restrictions. This suppression was both dose dependent as well as dependent upon the time of addition of the LPS to the macrophages. Furthermore, the lipid A component of LPS was found to be as effective as the intact LPS in activating macrophages to inhibit the intracellular growth of Legionella. Further studies concerning the mechanisms involved are clearly warranted and in progress.     

Macrophage-targeted CTP:phosphocholine cytidylyltransferase (1-314) transgenic mice

CTP:phosphocholine cytidylyltransferase (CT) is a rate-limiting and complexly regulated enzyme in phosphatidylcholine (PC) biosynthesis and is important in the adaptation of macrophages to cholesterol loading. The goal of the present study was to use transgenesis to study the CT reaction in differentiated macrophages in vivo. We successfully created macrophage-targeted transgenic mice that overexpress a truncated form of CT, called CT-314. Sonicated homogenates of peritoneal macrophages overexpressing CT-314 protein demonstrated a two-fold increase in CT activity in vitro compared with homogenates from nontransgenic macrophages. CT-314 macrophages, however, demonstrated no increase in CT activity or PC biosynthesis in vivo. This finding could not be explained simply by intracellular mistargeting of CT-314, by the inability of CT-314 to associate with cellular membranes, or by substrate limitation. To further probe the mechanism, an in vitro assay using intact nuclei was developed in an attempt to preserve interactions between CT, which is primarily a nuclear enzyme in macrophages, and other nuclear molecules. This intact-nuclei assay faithfully reproduced the situation observed in living macrophages, namely, no significant increase in CT activity despite increased CT-314 protein. In contrast, CT activity in sonicated nuclei from CT-314 macrophages was substantially higher than that from nontransgenic macrophages. Thus, a sonication-sensitive interaction between excess CT and one or more nuclear molecules may be responsible for the limitation of CT activity in CT-314 macrophages. These data represent the first report of a CT transgenic animal and the first study of a differentiated cell type with excess CT.     

Splenic macrophages enhance prolactin and luteinizing hormone action in rat luteal cell cultures.

We have reported that splenic macrophages play a role in the regulation of progestin secretion in rats. In this study, splenic macrophages were obtained from cycling rats at different estrous cycle stages and co-cultured with luteal cells from mid-pseudopregnant rats in the absence/presence of prolactin (PRL) or luteinizing hormone (LH). The effect of macrophages on the luteotropic action of PRL and LH was evaluated with 2 parameters, i.e. an increase in total progestin output (progesterone plus 20 alpha-hydroxyprgn-4-en-one [20 alpha-OHP]), and an increase in the progesterone to 20 alpha-OHP (P/20 alpha-OHP) secretion ratio. Splenic macrophages obtained from proestrous or metestrous rats enhanced the PRL action to increase the P/20 alpha-OHP secretion ratio, but those from estrous or diestrous donors did not. Only macrophages from proestrous donors enhanced the PRL action to increase the total progestin output. In contrast, the LH action increasing the P/20 alpha-OHP secretion ratio was enhanced by splenic macrophages regardless of the donors' estrous cycle stages. The LH action increasing the total progestin output was enhanced only by proestrous or metestrous macrophages. Therefore, if luteal cells are co-cultured with proestrous macrophages, the luteotropic actions of PRL and LH can be fully expressed. These results indicate that splenic macrophages directly act on luteal cells and enhance the luteotropic action of PRL and LH, and that this function of splenic macrophages is modified somehow according to the donors' estrous cycle stages.     

Changes in the expression of the surface antigens of thymocytes during their cultivation with macrophages

The data on changes in expression of H-2 complex and Thy-1 antigens on cell surface of thymocytes resulting from their incubation with peritoneal macrophages has been presented. The process of joint cultivation of thymocytes with macrophages leads to significant decrease in number of cells with Thy-2-antigen and increase in that with H-2 complex antigens. An increase in H-2K+ cells in experimental thymocytes as compared to control ones was observed. No changes in H-2D expression was observed. A significant increase in Ia+ macrophages was observed after interaction with thymocytes as compared with intact mononuclear phagocytes.     

Dexamethasone increases expression of mannose receptors and decreases extracellular lysosomal enzyme accumulation in macrophages

Macrophages express a mannose-specific pinocytosis receptor that binds and internalizes lysosomal hydrolases. Treatment of rat bone marrow-derived macrophages with dexamethasone resulted in a concentration- and time-dependent increase in mannose-receptor activity. The dexamethasone effect was maximal at 24 h. Half-maximal effects were observed at a dexamethasone concentration of 2.5 X 10(-9) M. With 125I-beta-glucuronidase as ligand, a 2.5-fold increase in uptake rate was observed in dexamethasone-treated cells, with no change in Kuptake (2.5 X 10(-7) M beta-glucuronidase). Cell surface binding (4 degrees C) was elevated 2.6-fold following dexamethasone treatment. The increase in ligand binding appeared to be due to an increase in number of sites with no change in affinity. Cycloheximide suppressed the dexamethasone-mediated rise in receptor number, while cycloheximide alone had little effect on receptor activity over 16 h. These results suggest that dexamethasone stimulates synthesis of mannose receptors in macrophages. Extracellular accumulation of hexosaminidase was sharply reduced by dexamethasone treatment, and corresponded with the rise in mannose-receptor activity. Extracellular levels of hexosaminidase from untreated macrophages were modestly increased by the presence of mannan, while the extracellular activity from dexamethasone-treated cells was increased significantly by mannan. Extracellular hexosaminidase, released from zymosan-treated macrophages, was dramatically reduced by dexamethasone pretreatment. Enzyme released from zymosan-stimulated macrophages was efficiently endocytosed by dexamethasone-treated cells in co-culture experiments, and this endocytosis was blocked by the addition of mannan. These results suggest that the mannose receptor of macrophages may play a role in regulating extracellular levels of lysosomal enzymes via a secretion-recapture mechanism.