Macrophage Activation by Tetrahymena pyriformis. I. Active Subcellular Fractions of Tetrahymena

Experiments were carried out to determine what subcellular fractions of Tetrahymena pyriformis could, after inoculation into mice, activate macrophages to kill Toxoplasma gondii in vitro. Peritoneal macrophages from mice inoculated intraperitoneally with cilia, pellicles, mitochondria, and microsomes exhibited strong toxoplasmacidal activity and had an enhanced capacity to release hydrogen peroxide (H₂O₂) by stimulation of a membrane-active agent as compared with resident macrophages. In contrast, macrophages from mice inoculated with macronuclei and postmicrosomal supernatant showed no toxoplasmacidal activity and a low level of H₂O₂ release. Similar dose response was observed on the active subcellular fractions with regard to the degree of macrophage activation. Treatment of the active subcellular fractions with heating and trypsin markedly reduced their activity.     

Some biochemical and functional characteristics of macrophages activated by Tetrahymena pyriformis

Phagocytosis, enzyme activities and capacity to release hydrogen peroxide (H2O2) and superoxide anion (O2-) of peritoneal macrophages from mice inoculated with Tetrahymena pyriformis, a free-living ciliate, were examined in comparison with resident and BCG-activated macrophages. Fc receptor-mediated phagocytosis of sheep erythrocytes was markedly increased in Tetrahymena-activated macrophages to the same level as that seen in BCG-activated ones. Tetrahymena-activated macrophages showed an increased level of acid phosphatase (lysosomal enzyme) and a reduced level of alkaline phosphodiesterase I (plasma membrane ectoenzyme) as compared with resident macrophages. Similar changes in the activities of the two enzymes were also observed in BCG-activated macrophages. Both Tetrahymena- and BCG-activated macrophages exhibited more enhanced capacity to release H2O2 and O2- than resident macrophages when stimulated with phorbol myristate acetate. In the macrophages from mice inoculated with varying doses of Tetrahymena, a significant correlation was observed between the increased capacity of H2O2 and O2- release as observed in the present study, and the enhanced toxoplasmacidal activity as observed in a previous study, in a dose-dependent fashion.     

Macrophage Activation by Tetrahymena pyriformis II. Active Protein Fractions from Tetrahymena

ABSTRACT. Water-soluble and 0.6 M KCl-soluble protein fractions prepared from Tetrahymena pyriformis , when inoculated into mice, could effectively induce activated macrophages having the ability to kill Toxoplasma gondii in vitro. This effect was not induced by other proteins tested, such as bovine serum albumin, pepsin from porcine stomach mucosa and chicken egg-white lysozyme, nor by muramyl dipeptide (MDP), a potent immunoadjuvant. Five fractions obtained by DEAE-Sephadex chromatography of the water-soluble protein fraction were compared with regard to induction of toxoplasmacidal activity in macrophages. The first peak was most effective for activation of macrophages. Five fractions obtained by chromatography of the 0.6 M KCl-soluble protein fraction were also examined and it was found that the first peak had the activity. No marked difference in activity was observed between the active fractions of water-soluble and 0.6 M KCl-soluble protein fractions. For practical use, we focused on the water-soluble active fraction. The minimum effective dose of the active fraction was 100 μg and the fraction could activate macrophages directly in vitro. Four fractions obtained by gel filtration of the active fraction on Sephadex G-200 were compared and the first peak had the activity. The first peak contained a single protein, revealed by SDS-polyacrylamide gel electrophoresis; its apparent molecular weight was 64,000.     

Non-specific activation of mouse peritoneal macrophages by a freshwater ciliate, Tetrahymena pyriformis

Toxoplasma-killing activities of mouse peritoneal macrophages activated by the extracts of Tetrahymena pyriformis (Korean and Chinese strains) were evaluated, and the active protein fractions from both strains were partially characterized by a method including chromatographies and SDS-PAGE. The first peak in Korean strain and the second peak in Chinese strain of T. pyriformis obtained by DEAE-Sephadex A-50 chromatography were most effective in the activation of macrophages to kill Toxoplasma gondii tachyzoites in vitro. Subsequent fractionations of obtained peak fractions were performed on a Sephadex G-200 gel. The first peaks fractionated from both strains of T. pyriformis had the highest toxoplasmacidal activities, and when subjected to the SDS-PAGE, one prominent band was visualized for each of the strains showing the same molecular weight of ca. 52.6 kDa. This active protein is suggested to be related to non-specific activation of mouse peritoneal macrophages.     

Effect of in vivo administration of Tetrahymena pyriformis on the in vitro toxoplasmacidal activity of mouse peritoneal macrophages

Tetrahymena pyriformis is a free-living ciliate protozoan in the freshwater system. Experiments were carried out to determine whether intraperitoneal administration of T. pyriformis (GL strain) to mice activates macrophages to be able to kill Toxoplasma gondii tachyzoites in vitro. Mice were also injected intraperitoneally with several synthetic activators; dimethyldioctadecylammonium bromide (DDA), dextran sulfate, complete Freund's adjuvant (CFA) as well as Toxoplasma and Tetrahymena lysates in order to activate mouse peritoneal macrophages. One week after the administration of activators, peritoneal cells were harvested and the adherent macrophages were challenged with Toxoplasma tachyzoites. Macrophage monolayers were then fixed with absolute methanol after washing, and stained with Giemsa solution. The percentage of the adherent cells infected and total number of organisms per 100 macrophages were calculated to make toxoplasmacidal activity of macrophages according to the cultivation time. Peritoneal macrophages from mice administered with Tetrahymena exhibited significant protection against target parasites as compared with those treated with synthetic activators. Among non-biological synthetic activators, DDA was evaluated as an excellent activator.     

Human mononuclear phagocyte antiprotozoal mechanisms: oxygen-dependent vs oxygen-independent activity against intracellular Toxoplasma gondii

To determine if the oxygen-dependent and -independent antiprotozoal mechanisms with which the human mononuclear phagocyte is equipped to act against Leishmania donovani operate against other intracellular parasites, oxidatively intact and deficient cells were challenged with Toxoplasma gondii. Fresh monocytes and lymphokine- or gamma-interferon (IFN-gamma)-activated macrophages from normal individuals killed 35% and 50% of T. gondii within 6 hr, respectively, and each of these cell populations inhibited the replication of surviving parasites 20 hr after infection. This activity was associated with the capacity to release large amounts of H2O2 (572 to 971 nmol/mg) and to respond to toxoplasma ingestion with respiratory burst activity. Impairing the ability to generate oxygen intermediates by glucose deprivation or treatment with superoxide dismutase, catalase, or mannitol inhibited toxoplasmacidal activity by greater than 80% and permitted a 2.6- to 4.3-fold increase in the number of intracellular toxoplasmas. In contrast to normal cells, fresh monocytes from patients with chronic granulomatous disease (CGD) killed less than 8% of toxoplasmas and exerted 50% less toxoplasmastatic activity. However, although associated with the induction of only modest toxoplasmacidal effects (18 to 20% killing), lymphokine stimulation did induce CGD monocytes and macrophages as well as oxidatively inactive human endothelial cells to display near normal levels of toxoplasmastatic activity. Similar to oxygen-dependent mechanisms, the enhancement of oxygen-independent activity by crude lymphokines could be abolished by a monoclonal anti-IFN-gamma antibody and could be achieved by treatment with recombinant IFN-gamma alone. Unstimulated CGD monocytes, however, were found to lose all antitoxoplasma activity after two days in culture, whereas normal cells continued to effectively inhibit T. gondii replication, suggesting that oxygen-independent responses may not actually be required for the normal monocyte to act against T. gondii. Taken together with previous findings with L. donovani, these results indicate that the human mononuclear phagocyte possesses an oxygen-independent antiprotozoal mechanism and that its effects can be enhanced by lymphokines (IFN-gamma), but that nevertheless this cell's primary response to intracellular protozoa is largely oxygen dependent.     

A novel insight into the mechanism of the antithrombotic action of defibrotide.

Defibrotide is a polydeoxyribonucleotide sodium salt with antithrombotic properties. These properties have been attributed to its profibrinolytic activity [increase of tissue plasminogen activator (t-PA) activity, concomitant decrease of that of plasminogen activator inhibitor (PAI)], but there could conceivably be other factor(s). To look for these, we studied Defibrotide in a thrombosis model (pulmonary thromboembolism in mice) in which free radicals play a pivotal role. Defibrotide was found to be active after both intravenous and oral administration. Defibrotide behaved in vitro like a scavenger of H2O2 but not of O2.- in cell-free systems. Defibrotide added in vitro to cellular systems decreased the stimulated release of beta-glucuronidase from polymorphonuclear cells (PMNs), the luminol chemiluminescence induced by oxygen species generated by stimulated PMNs and the generation of O2.- from stimulated macrophages. We think that the antithrombotic activity of Defibrotide is based on other factor(s) in addition to profibrinolytic activity, i.e., some scavenger activity and desensitization of cells involved in thrombus formation must also be taken into account.     

Regulation of oxygen radical release from murine peritoneal macrophages by pharmacologic doses of PGE2

The ability of pharmacologic doses of PGE2 to alter the release of superoxide (O2-) and hydrogen peroxide (H2O2) from elicited peritoneal macrophages (M theta) was studied. Twice-daily administration of 200 or 100 micrograms of PGE2 to mice during accumulation of peritoneal M theta resulted in a significant reduction in M theta recovery and in the triggered release of H2O2, but not O2-. Cultivation of elicited M theta from normal mice with concentrations of PGE2 in excess of 10(-7) M for 24-48 h resulted in a significant reduction in the triggered release of H2O2, but not O2-. Cultivation for shorter periods of time or with lower concentrations of PGE2 failed to alter H2O2 release. This effect of PGE2 was reproduced by the phosphodiesterase inhibitor theophylline. The ability of PGE2 to inhibit H2O2 release in the presence of normal production of O2- was not prevented by the addition of superoxide dismutase. Cultivation of peritoneal M theta with 10(-5) M PGE2 for 48 h failed to increase intracellular catalase, although increased H2O2 scavenger activity was demonstrated. The inhibition of extracellular release of H2O2, but not O2-, by pharmacologic doses of PGE2 may be one mechanism for the anti-inflammatory action of this compound.     

Oxidative and phagocytic functions of macrophages during infections induced in mice by Mycobacterium intracellulare and Listeria monocytogenes

The oxidative metabolism (chemiluminescence and H2O2 release) and phagocytic activity of mouse peritoneal macrophages during chronic infections induced by Mycobacterium intracellulare and more acute infections due to Listeria monocytogenes were studied. In M. intracellulare infections, macrophage chemiluminescence in response to phorbol myristate acetate (PMA) was greatest at around 2 weeks, with a 1 week lag phase after infection, while the PMA-triggered H2O2 release was markedly enhanced even 1 d after challenge, and remained high thereafter for up to 10 weeks. The pattern of changes in the phagocytic activity of host macrophages in response to latex beads during this infection resembled the pattern seen with macrophage H2O2 release. In the L. monocytogenes infections, the PMA-triggered chemiluminescence of the host macrophages increased 4 d (in a sublethal infection) and 2 d (in a lethal infection) after bacterial challenge, whereas the PMA-triggered H2O2 release was markedly enhanced as early as 1 d after infection and the elevated level persisted until either the bacteria were eliminated or the animals died. The patterns of changes in phagocytic activity of the host macrophages during L. monocytogenes infection at sublethal and lethal doses differed. In the former, phagocytosis was most active in the early phase of infection, with a peak around day 2, followed by a rapid decrease; in the latter, the phagocytic ability increased more slowly, and remained elevated until the animals died. The results suggest that the macrophages induced by M. intracellulare are in a more activated state than are those induced by L. monocytogenes.     

Modulation of murine macrophage responses stimulated with influenza glycoproteins.

Previously it was reported that influenza virus stimulated, nonspecific resistance was largely due to its glycoproteins, hemagglutinin (HA) and neuraminidase (NA). The enhancement of natural killer cell activity was the intrinsic property of NA and HA. In the present study, the stimulatory effect of these glycoproteins on the murine peritoneal macrophages was studied. Electrophoretically purified glycoproteins, NA and HA, of influenza virus A/USSR/90/77 (H1N1) were administered intraperitoneally to C3H/HeN mice, with or without stearyl tyrosine (ST). Macrophages were isolated and were restimulated with phorbol myristate acetate. H2O2 secretion was determined by horseradish peroxidase dependent oxidation of phenol red assay. HA enhanced H2O2 secretion only in the presence of ST (60 nmol.mg-1.h-1), whereas NA alone stimulated H2O2 secretion (83 nmol.mg-1.h-1), by 6-fold over control (13 nmol.mg-1.h-1), and this stimulation was further increased (136 nmol.mg-1.h-1) in the presence of ST. Interleukin 1 (IL-1) activity was determined by using D10.G4.1 cells. There was a little stimulation of IL-1 activity (less than 1 U/mL) of macrophages isolated from HA-primed of HA+ST-primed mice restimulated with HA. On the other hand, IL-1 activity of macrophages isolated from NA-primed mice restimulated with NA significantly increased (102 U/mL) over control (less than 1 U/mL), and an additional 2-fold increase (231 U/mL) resulted when macrophages from NA+ST-primed mice were used. Tumor necrosis factor (TNF) activity was examined by using L929 cells. Negligible TNF activity was observed in macrophages isolated from either HA-primed or HA+ST-primed mice restimulated with HA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dual oxidase-2 has an intrinsic Ca2+-dependent H2O2-generating activity

Duox2 (and probably Duox1) is a glycoflavoprotein involved in thyroid hormone biosynthesis, as the thyroid H2O2 generator functionally associated with Tpo (thyroperoxidase). So far, because of the impairment of maturation and of the targeting process, transfecting DUOX into nonthyroid cell lines has not led to the expression of a functional H2O2-generating system at the plasma membrane. For the first time, we investigated the H2O2-generating activity in the particulate fractions from DUOX2- and DUOX1-transfected HEK293 and Chinese hamster ovary cells. The particulate fractions of these cells stably or transiently transfected with human or porcine DUOX cDNA demonstrate a functional NADPH/Ca2+-dependent H2O2-generating activity. The immature Duox proteins had less activity than pig thyrocyte particulate fractions, and their activity depended on their primary structures. Human Duox2 seemed to be more active than human Duox1 but only half as active as its porcine counterpart. TPO co-transfection produced a slight increase in the enzymatic activity, whereas p22(phox), the 22-kDa subunit of the leukocyte NADPH oxidase, had no effect. In previous studies on the mechanism of H2O2 formation, it was shown that mature thyroid NADPH oxidase does not release O2*- but H2O2. Using a spin-trapping technique combined with electron paramagnetic resonance spectroscopy, we confirmed this result but also demonstrated that the partially glycosylated form of Duox2, located in the endoplasmic reticulum, generates superoxide in a calcium-dependent manner. These results suggest that post-translational modifications during the maturation process of Duox2 could be implicated in the mechanism of H2O2 formation by favoring intramolecular superoxide dismutation.     

Effect of beta-lapachone on superoxide anion and hydrogen peroxide production in Trypanosoma cruzi.

Addition of beta-lapachone, an o-naphthoquinone endowed with trypanocidal properties to respiring Trypanosoma cruzi epimastigotes induced the release of O2- and H2O2 from the whole cells to the suspending medium. The same beta-lapachone concentration (4 micron) that released H2O2 at maximal rate completely inhibited T. cruzi growth in a liquid medium. The position isomer, alpha-lapachone, did not stimulate O2- and H2O2 release, and did not inhibit epimastigote growth. beta-Lapachone was able to stimulate H2O2 production by the epimastigote homogenate in the presence of NADH as reductant. The same effect was observed with the mitochondrial fraction supplemented with NADH, where beta-lapachone enhanced the generation of O2- and H2O2 4.5- and 2.5-fold respectively. beta-Lapachone also increased O2- and H2O2 production (2.5 and 2-fold respectively) by the microsomal fraction with NADPH as reductant. Cyanide-insensitive NADH and NADPH oxidation by the mitochondrial and microsomal fractions (quinone reductase activity) was stimulated to about the same extent by beta-lapachone. alpha-Lapachone was unable to increase O2- and H2O2 production and quinone reductase activity of the mitochondrial and microsomal fractions.     

In vivo and in vitro macrophage activation induced by IFN gamma spontaneously released by spleen cells from tumor bearing mice.

Peritoneal macrophages obtained from Lewis Lung carcinoma (3LL) tumor bearing mice release high amounts of soluble factors such as C3,H2O2 and lysosomal enzymes but fail to exert cytotoxic activity on tumor cells. In the present work we show that they acquire this property and become fully activated after in vitro incubation with supernatants derived from cultures of splenocytes from tumor bearing syngeneic mice. The presence of IFN gamma in the above supernatants was detected by immunoblotting analysis and by bioassay. The role played by IFN gamma in macrophage activation was investigated.     

Macrophage cytotoxicity against Entamoeba histolytica trophozoites is mediated by nitric oxide from L-arginine.

The killing of Entamoeba histolytica trophozoites by phagocytes involves oxidative and nonoxidative mediators. In this study, we determine whether L-arginine-derived nitric oxide (NO) is involved in the killing of E. histolytica trophozoites by activated murine macrophages in vitro. Elicited peritoneal and bone marrow-derived macrophages activated with IFN-gamma alone or with IFN-gamma and LPS killed 62 to 73% of amebae, concomitant with increased levels of nitrate (NO2). Depletion of L-arginine by addition of arginase to culture medium abrogated macrophage amebicidal activity. NG-monomethyl L-arginine, an L-arginine analog, competitively inhibited NO2 release and amebicidal activity in a dose-dependent fashion, without affecting H2O2 production; however, the addition of excess L-arginine competitively restored macrophage amebicidal effects. In culture, sodium nitrite and sodium nitroprusside were cytotoxic to E. histolytica and this was reversed by the addition of myoglobin. Exogenously added FeSO4 prevented macrophage cytotoxicity. Addition of superoxide dismutase, a scavenger of O2-, partially inhibited amebicidal activity, without influencing NO2 production. Untreated and LPS-exposed macrophages produced high levels of H2O2 independent from NO2 production and amebicidal effects. However, the addition of catalase, a scavenger of H2O2, inhibited both amebicidal activity and NO2 production by activated macrophages. Our results demonstrate that NO is the major cytotoxic molecule released by activated macrophages for the in vitro cytotoxicity of E. histolytica and that O2- and H2O2 may be cofactors for the NO effector molecule.     

A sensitive spectrophotometric assay for peroxisomal acyl-CoA oxidase.

A simple spectrophotometric assay was developed for peroxisomal fatty acyl-CoA oxidase activity. The assay, based on the H2O2-dependent oxidation of leuco-dichlorofluorescein catalysed by exogenous peroxidase, is more sensitive than methods previously described. By using mouse liver samples, cofactor requirements were assessed and a linear relationship was demonstrated between dye oxidation and enzyme concentration. By using this assay on subcellular fractions, palmitoyl-CoA oxidase activity was localized for the first time in microperoxisomes of rat intestine. The assay was also adapted to measure D-amino acid oxidase activity, demonstrating the versatility of this method for measuring activity of other H2O2-producing oxidases.     

Superoxide and hydrogen peroxide production by macrophages of New Zealand black mice

Resident peritoneal macrophages from New Zealand Black (NZB) mice release O2- and H2O2 after adherence to a plastic surface without any chemical or particulate stimulant. This phenomenon is age dependent and more pronounced in animals with sever autoimmune disease. Significant differences were observed between the high and low breakage NZB sublines (HB and LB), which were previously developed by selective matings on the basis of chromosome breakage rates. The LB subline differs significantly from the HB subline with respect to autoimmune hemolytic anemia and tumor incidence. When the macrophages were stimulated with the tumor promoter TPA, the number of "responders" was higher in the HB than in the LB subline and correlated with the degree of splenomegaly, that is, with the severity of the disease. A negative response to agonist stimulation and very low spontaneous production of active oxygen species was observed in NZW and Swiss mice, which is the normal finding for resident macrophages according to data from the literature. The increased superoxide and hydrogen peroxide production by macrophages of NZB mice is discussed with respect to autoimmune disease and cancer.     

Stimulation of macrophage by polyanions and its conjugated proteins and effect on cell membrane

Lipophilic anionic copolymer (styrene-maleic acid; SMA) conjugates of albumin and antitumor protein neocarzinostatin (NCS) (smancs) were found to stimulate the release of H2O2 and O-2 from the peritoneal macrophages obtained from mice which had been pretreated with the heat-killed preparation of Streptococcus pyogenes (OK-432) in vivo. Some alkyl esters of SMA exhibited effects similar to protein-polymer conjugates. Among them, butyl-SMA was the most effective followed by ethyl-SMA, whereas hydrolyzed SMA showed no effect. This activity was dose-dependent but exhibited a bell-shape profile. These results suggest that the aliphatic ester residue in SMA as well as the main chain of the copolymer may be important for the activation of macrophages. A strong antitumor effect of smancs reported elsewhere may be attributed partly to the activation of macrophages in addition to the direct damage to the cellular DNA by the NCS component. A preliminary investigation of the subcellular mechanism of macrophage activation was carried out in view of membrane fluidity by the fluorescence polarization method. The results showed that the apparent decrease in the cell membrane fluidity and the degree of macrophage activation paralleled the same dose range and at similar time courses. This indicated the interaction of SMA component and macrophage cell membrane.     

Release of reactive nitrogen intermediates and reactive oxygen intermediates from mouse peritoneal macrophages. Comparison of activating cytokines and evidence for independent production

The capacity of 12 cytokines to induce NO2- or H2O2 release from murine peritoneal macrophages was tested by using resident macrophages, or macrophages elicited with periodate, casein, or thioglycollate broth. Elevated H2O2 release in response to PMA was observed in resident macrophages after a 48-h incubation with IFN-gamma, TNF-alpha, TNF-beta, or CSF-GM. Of these, only IFN-gamma induced substantial NO2- secretion during the culture period. The cytokines inactive in both assays under the conditions tested were IL-1 beta, IL-2, IL-3, IL-4, IFN-alpha, IFN-beta, CSF-M, and transforming growth factor-beta 1. Incubation of macrophages with IFN-gamma for 48 h in the presence of LPS inhibited H2O2 production but augmented NO2- release, whereas incubation in the presence of the arginine analog NG-monomethylarginine inhibited NO2- release but not H2O2 production. Although neither TNF-alpha nor TNF-beta induced NO2- synthesis on its own, addition of either cytokine together with IFN-gamma increased macrophage NO2- production up to six-fold over that in macrophages treated with IFN-gamma alone. Moreover, IFN-alpha or IFN-beta in combination with LPS could also induce NO2- production in macrophages, as was previously reported for IFN-gamma plus LPS. These data suggest that: 1) tested as a sole agent, IFN-gamma was the only one of the 12 cytokines capable of inducing both NO2- and H2O2 release; 2) the pathways leading to secretion of H2O2 and NO2- are independent; 3) either IFN-gamma and TNF-alpha/beta or IFN-alpha/beta/gamma and LPS can interact synergistically to induce NO2- release.     

Role of IFN-gamma in lethal and nonlethal malaria in susceptible and resistant murine hosts

IFN-gamma plays an important role in host defense against microbial disease. Here, we studied the role of IFN-gamma in lethal and nonlethal murine malaria. Administration of recombinant murine IFN-gamma resulted in a dose-dependent protection of SW, BALB/cByJ, and CBA/J mice from the lethal variant of Plasmodium yoelii 17x (PyL) but had little effect on the course of the nonlethal variant of this parasite (PyNL). Administration of recombinant IFN-gamma also resulted in the activation of peritoneal macrophages for increased phagocytosis of malaria-infected erythrocytes and release of H2O2, as measured in vitro. The ability of spleen cells from infected mice to produce endogenous IFN-gamma and release H2O2 during the course of malaria was also studied. In BALB/cByJ mice, which are relatively susceptible to PyL and PyNL, there was an initial burst of IFN-gamma only in response to PyNL whereas in CBA/J mice, which are relatively resistant to these parasites, there was an initial burst of IFN-gamma in response to both PyL and PyNL. The kinetics of H2O2 release corresponded to that of IFN-gamma. In all infections, levels of IFN-gamma declined as parasitemia increased; however, nonlethal infections were characterized by a recovery of both IFN-gamma activity and H2O2 release as parasitemia declined. These data suggest that IFN-gamma may play an important role in modulating the course of malaria infections by activating macrophages for both intracellular and extracellular parasite destruction.     

肾上腺皮质系统在应激反应中对大鼠巨噬细胞释放H_2O_2功能的抑制作用

大鼠经20h电刺激应激反应后,腹腔巨噬细胞释放H_2O_2量明显减少(P<0.001),双侧肾上腺摘除术可以对抗应激对巨噬细胞释放H_2O_2功能的抑制作用(P<0.001),而单纯摘除大鼠双侧肾上腺对巨噬细胞无明显影响。将与肾上腺有关的激素与巨噬细胞体外孵育20h后发现,去甲肾上腺素和肾上腺素对巨噬细胞无明影响;氢化可的松可以明显促进巨噬细胞释放H_2O_2功能;促肾上腺皮质激素可以明显抑制巨噬细胞释放H_2O_2功能(P<0.01)。大鼠在应激反应后血浆皮质酮含量明显升高(P<0.05)进一步观察氢化可的松任体内对巨噬细胞功能的影响发现,皮下注射氢化可的松可以明显抑制巨噬细胞释放H_2O_2功能(P<0.01)。以上结果提示应激对巨噬细胞释放H_2O_2具有抑制作用,这种抑制作用的产生与垂体-肾上腺皮质系统的凋节作用有关。