gamma-Interferon enhances the secretion of arachidonic acid metabolites from murine peritoneal macrophages stimulated with phorbol diesters

Macrophage activation in vivo has been associated with qualitative and quantitative alterations in the release and metabolism of arachidonic acid. In the present study, we examined the effect of in vitro macrophage activation with recombinant gamma-interferon (IFN-gamma) on arachidonic acid secretion induced by exposure to a variety of stimulating agents. Secretion stimulated by challenge with unopsonized zymosan, insoluble immune complexes, the calcium ionophore A23187, or combinations thereof was unaltered in IFN-gamma-treated macrophages. However, when phorbol diesters active as tumor promoters were employed as challenge agents, arachidonate secretion was enhanced as much as 10-fold over that seen in nonactivated controls. The enhanced secretory response to PMA was detectable as early as 1 hr after exposure to IFN-gamma, reached a maximum within 3 to 6 hr, and subsequently declined to control levels even in the continued presence of the agent. Treatment with IFN-gamma did not alter the pattern of individual metabolites produced by macrophages challenged with either zymosan or PMA. Finally, the sensitivity to phorbol diesters was also increased by treatment with IFN-gamma (ED50 reduced from 35 ng/ml to 4 ng/ml). Thus, IFN-gamma could prime macrophages for a substantially amplified response to phorbol esters. Because the cellular mediator of PMA action has been identified as a Ca++, phospholipid-dependent protein kinase, a role for this enzyme in macrophage functional development is indicated.     

Effect of mytilan, a polysaccharide from Crenomytilus grayanus, on the functional activity of peritoneal macrophages

The studies showed that mytilan, a polysaccharide from Crenomytilus grayanus had a marked activating effect on macrophages evident from respective morphological changes and increased metabolic and functional activity of the macrophages. Exposure to mytilan resulted in an increase in the number of the macrophages and their size (optic microscopy), changes in their surface (scanning microscopy) and ultrastructural reconstruction of the cells (light microscopy). It was shown that subcutaneous and intraperitoneal administration of mytilan defined a decrease in the activity of 5'-nucleotidase in the macrophages of the peritoneal exudate from ++noninbred mice and mice CBA. Moreover, under the influence of mytilan the macrophage phagocytic activity against E. coli, S. aureus, P. aeruginosa and P. vulgaris increased in vivo and in vitro.     

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.     

Role of macrophages in early host resistance to respiratory Acinetobacter baumannii infection

Acinetobacter baumannii is an emerging bacterial pathogen that causes nosocomial pneumonia and other infections. Although it is recognized as an increasing threat to immunocompromised patients, the mechanism of host defense against A. baumannii infection remains poorly understood. In this study, we examined the potential role of macrophages in host defense against A. baumannii infection using in vitro macrophage culture and the mouse model of intranasal (i.n.) infection. Large numbers of A. baumannii were taken up by alveolar macrophages in vivo as early as 4 h after i.n. inoculation. By 24 h, the infection induced significant recruitment and activation (enhanced expression of CD80, CD86 and MHC-II) of macrophages into bronchoalveolar spaces. In vitro cell culture studies showed that A. baumannii were phagocytosed by J774A.1 (J774) macrophage-like cells within 10 minutes of co-incubation, and this uptake was microfilament- and microtubule-dependent. Moreover, the viability of phagocytosed bacteria dropped significantly between 24 and 48 h after co-incubation. Infection of J774 cells by A. baumannii resulted in the production of large amounts of proinflammatory cytokines and chemokines, and moderate amounts of nitric oxide (NO). Prior treatment of J774 cells with NO inhibitors significantly suppressed their bactericidal efficacy (P<0.05). Most importantly, in vivo depletion of alveolar macrophages significantly enhanced the susceptibility of mice to i.n. A. baumannii challenge (P<0.01). These results indicate that macrophages may play an important role in early host defense against A. baumannii infection through the efficient phagocytosis and killing of A. baumannii to limit initial pathogen replication and the secretion of proinflammatory cytokines and chemokines for the rapid recruitment of other innate immune cells such as neutrophils.     

Macrophage colony-stimulating factor (M-CSF) enhances the capacity of murine macrophages to secrete oxygen reduction products

The capacity of macrophage colony-stimulating factor (M-CSF) to enhance respiratory burst activity in peritoneal macrophages was measured. Macrophages incubated for 48 hr or more with concentrated L cell-conditioned medium as a source of M-CSF released two to three times as much O2- in response to PMA as did unexposed macrophages. Stimulation was noted at concentrations of colony-stimulating activity from 0.1 to 2000 U/ml and was maximal at 10 to 100 U/ml. Purified, endotoxin-free CSF enhanced secretion to a similar degree as unpurified L cell-conditioned medium. Release of O2- by M-CSF macrophages occurred over 60 min and was triggered by opsonized zymosan as well as PMA. H2O2 release was also enhanced in macrophages exposed to both unpurified and purified M-CSF. These data indicate that M-CSF enhances the capacity of mature macrophages to release oxygen reduction products, and they are consistent with reports that CSF can stimulate the release of other secretory products.     

Protective effect of polysaccharide fractions from Radix A. sinensis against tert-butylhydroperoxide induced oxidative injury in murine peritoneal macrophages

Three Angelica sinensis polysaccharide fractions (APFs), named APF1, APF2 and APF3, were isolated and purified from Radix A. sinensis and their antioxidant activities were evaluated in isolated mouse peritoneal macrophages by pretreatment with APFs before exposure to 0.2 mM tertbutylhydroperoxide (t-BHP). The results showed that pretreatment of the macrophages with APFs as low as 10 microg/ml could significantly enhance t-BHP-decreased cell survival, intracellular glutathione (GSH) content and superoxide dismutase (SOD) activity, and also inhibited t-BHP-increased lactate dehydrogenase (LDH) leakage and malondialdehyde (MDA) formation (p < 0.05), and APF3 was the most active fraction, followed by APF2 and APF1 in decreasing order. Furthermore, we found for the first time that the bound-protein in APF3 was associated closely with the protective effects and the polysaccharide inhibited the excess NO release from t-BHP-activated macrophages to protect host cells.     

Isolation of the receptor for Amaranthus Leucocarpus lectin from murine peritoneal macrophages

The receptor for Amaranthus leucocarpus lectin from CD-1 resident macrophages was purified with affinity chromatography with biotin labeled A. leucocarpus lectin and using avidin-agarose as affinity matrix. The receptor is a glycoprotein of 70 kDa that contains 18% of sugar by weight; it is mainly composed of galactose and N-acetyl D galactosamine in its saccharidic portion, and lacks sialic acid; the protein is rich in glycine, serine and alanine and lacks cysteine residues. The amino terminus of the receptor is blocked. By ionic strength chromatography on a mono P column in anionic form we purified three isoforms from the affinity purified receptor, each showing quantitative differences in glycosylation. The A. leucocarpus lectin receptor is identified only in resting, not activated, macrophages suggesting that it plays a role in activation mechanisms of macrophages     

Role of macrophages in the host response to Lewis lung peritoneal carcinomatosis

Lewis lung (3LL) peritoneal carcinomatosis elicits a complex host response in the peritoneal compartment. The response was delayed, showing few inflammatory cells through day 6 after lethal challenge with 3LL cells. Responses began in about half the mice on day 7 and had appeared in all mice by day 11. On day 7, some mice still showed no detectable 3LL growth in the peritoneal lavage fluid, and no differences in the peritoneal cell populations as compared with the control group. Other tumor-bearing mice, however, had evidence of 3LL cells and hemorrhagic ascites in the peritoneal compartment, with increased numbers of peritoneal macrophages (PM) and polymorphonuclear neutrophils (PMN). By day 11, all tumor-bearing mice had 3LL growth and hemorrhagic ascites. On days 7–11, there was a major influx of macrophages with a later influx of PMN between days 11 and 14. Two distinct PM populations were detected on day 7 in mice that showed detectable 3LL peritoneal carcinomatosis: resident PM, which did not express the Mac-2 antigen, and recruited PM, which were Mac-2⁺. At least some resident PM remained in the peritoneal compartment through day 14. Analysis of the kinetics of the cytotoxic capabilities of PM from tumor-bearing mice showed that by day 7 macrophages were able to kill the B16 melanoma tumor target, but not the 3LL target. The PM, however, were able to be activated further to kill the 3LL target by treatment in vitro with lipopolysaccharide and interferon . No inhibition of PM tumoricidal activity could detected in the peritoneal wash of tumor-bearing mice. A lack of activation of PM from 3LL tumor-bearing mice may be involved in progression of peritoneal carcinomatosis.     

Intrinsic resistance of feline peritoneal macrophages to coronavirus infection correlates with in vivo virulence.

Cats infected with virulent feline coronavirus strains develop feline infectious peritonitis, an invariably fatal, immunologically mediated disease; avirulent strains cause either clinically inapparent infection or mild enteritis. Four virulent coronavirus isolates and five avirulent isolates were assessed by immunofluorescence and virus titration for their ability to infect and replicate in feline peritoneal macrophages in vitro. The avirulent coronaviruses infected fewer macrophages, produced lower virus titers, were less able to sustain viral replication, and spread less efficiently to other susceptible macrophages than the virulent coronaviruses. Thus, the intrinsic resistance of feline macrophages may play a pivotal role in the outcome of coronavirus infection in vivo.     

Isolation of plasma membranes from murine peritoneal macrophages and production of a heterologous immune serum

Plasma membranes of murine peritoneal macrophages were obtained after light pounding of the cells by differential centrifugation. Subcellular fractions were monitored by specific enzymatic assays and by electron microscopy. Injection of plasma membranes into the rabbit produced an anti-serum containing specific antibodies of macrophage membrane antigen detected by indirect immunofluorescence method.     

云芝菌丝体多糖的分离纯化研究

利用热水抽提从云芝菌丝体中提取胞内多糖,初步纯化后,用DEAE-Sepharose CL-6B进行分离,从中分离出两个带电荷多糖组分即CVP-I和CVP-Ⅱ,对这两个组分分别用Sepharose CL-6B凝胶柱层析进行纯度鉴定,均出现单一峰,然后用紫外扫描发现这两个组分均出现蛋白多糖的特征吸收,从而可以判断这两个组分是蛋白结合多糖。     

Binding of beta-endorphin and its fragments to the non-opiod receptor of murine peritoneal macrophages

The tritium-labeled selective agonist of the nonopioid beta-endorphin receptor the decapeptide immunorphin ([3H]SLTCLVKGFY) with a specific activity of 24 Ci/mmol was prepared. It was shown that [3H]immunorphin binds with a high affinity to the non-opioid beta-endorphin receptor of mouse peritoneal macrophages (Kd 2.4 +/- 0.1 nM). The specific binding of [3H]immunorphin to macrophages was inhibited by unlabeled beta-endorphin (Ki of the [3H]immunorphin-receptor complex 2.9 +/- 0.2 nM) and was not inhibited by unlabeled naloxone, alpha-endorphin, gamma-endorphin, and [Met5]enkephalin (Ki > 10 microM). Thirty fragments of beta-endorphin were synthesized, and their ability to inhibit the specific binding of [3H]immunorphin to macrophages was studied. It was found that the shortest peptide having practically the same inhibitory activity as beta-endorphin is its fragment 12-19 (Ki 3.1 +/- 0.3 nM).     

Production of granulocyte colony-stimulating factor in the nonspecific acute phase response enhances host resistance to bacterial infection

Mice mounting an acute phase response, induced by sterile inflammation after a single s.c. injection of casein 24 h beforehand, were remarkably protected against lethal infection with Gram-positive or Gram-negative bacteria. This was associated with enhanced early clearance of bacteremia, greater phagocytosis and oxidative burst responses by neutrophils, and enhanced recruitment of neutrophils into tissues compared with control, nonacute phase mice. Casein-induced inflammation was also associated with increased concentrations of G-CSF in serum, and administration of neutralizing Ab to this cytokine completely abrogated protection against Escherichia coli infection after casein pretreatment. Injection of recombinant murine G-CSF between 3 and 24 h before infection conferred the same protection as casein injection. In contrast, the casein-induced acute phase response affected neither serum values of TNF-alpha, IL-1 beta, or IL-6 after E. coli infection nor susceptibility to LPS toxicity. Furthermore, protection against infection was unaffected in IL-1R knockout mice, which have deficient acute phase plasma protein responses, or after nonspecific inhibition of acute phase protein synthesis by D-galactosamine or specific depletion of complement C3 by cobra venom factor. Increased production of G-CSF in the acute phase response is thus a key physiological component of host defense, and pretreatment with G-CSF to prevent bacterial infection in at-risk patients now merits further study, especially in view of increasing bacterial resistance to antibiotics.     

Aging enhances the production of reactive oxygen species and bactericidal activity in peritoneal macrophages by upregulating classical activation pathways

Maintenance of macrophages in their basal state and their rapid activation in response to pathogen detection are central to the innate immune system, acting to limit nonspecific oxidative damage and promote pathogen killing following infection. To identify possible age-related alterations in macrophage function, we have assayed the function of peritoneal macrophages from young (3-4 months) and aged (14-15 months) Balb/c mice. In agreement with prior suggestions, we observe age-dependent increases in the extent of recruitment of macrophages into the peritoneum, as well as ex vivo functional changes involving enhanced nitric oxide production under resting conditions that contribute to a reduction in the time needed for full activation of senescent macrophages following exposure to lipopolysaccharides (LPS). Further, we observe enhanced bactericidal activity following Salmonella uptake by macrophages isolated from aged Balb/c mice in comparison with those isolated from young animals. Pathways responsible for observed phenotypic changes were interrogated using tandem mass spectrometry, which identified age-dependent increases in levels of proteins linked to immune cell pathways under basal conditions and following LPS activation. Immune pathways upregulated in macrophages isolated from aged mice include proteins critical to the formation of the immunoproteasome. Detection of these latter proteins is dramatically enhanced following LPS exposure for macrophages isolated from aged animals; in comparison, the identification of immunoproteasome subunits is insensitive to LPS exposure for macrophages isolated from young animals. Consistent with observed global changes in the proteome, quantitative proteomic measurements indicate that there are age-dependent abundance changes involving specific proteins linked to immune cell function under basal conditions. LPS exposure selectively increases the levels of many proteins involved in immune cell function in aged Balb/c mice. Collectively, these results indicate that macrophages isolated from old mice are in a preactivated state that enhances their sensitivities to LPS exposure. The hyper-responsive activation of macrophages in aged animals may act to minimize infection by general bacterial threats that arise due to age-dependent declines in adaptive immunity. However, this hypersensitivity and the associated increase in the level of formation of reactive oxygen species are likely to contribute to observed age-dependent increases in the level of oxidative damage that underlie many diseases of the elderly.     

Complex study of the oxidative metabolism of peritoneal macrophages attached to glass

A method of obtaining a peritoneal macrophage enriched population on a slide in a special chamber has been worked out and tested. It has been shown that such cells keep specific morphological and functional peculiarities, including the ability to phagocytosis. They are in active state and can be utilized for studying the biological oxidation processes. A relative activity of oxidative metabolism of key enzymes has been evaluated. The possibility of studying the respiratory chain activity in these cells was shown by polarographic and fluorescent methods. Alternative oxygen-dependent systems were investigated. It was determined that NADPH-oxidase of peritoneal macrophages attached to a slide, responsible for "the respiratory burst" formation and defining their bactericidal properties and peroxide generating ability, is in the active state.     

Regulation by CRAMP of the responses of murine peritoneal macrophages to extracellular ATP

Peritoneal macrophages were isolated from wild type (WT) mice and from mice invalidated for the P2X₇ receptor (KO) which had been pretreated with thioglycolate. In cells from WT mice, 1 mM ATP increased the intracellular concentration of calcium ([Ca²⁺]_i), the uptake of ethidium bromide, the production of reactive oxygen species (ROS), the secretion of IL-1β, the release of oleic acid and of lactate dehydrogenase; it decreased the intracellular concentration of potassium ([K⁺]_i). In KO mice, ATP transiently increased the [Ca²⁺]_i confirming that the P2X₇ receptor is a major receptor of peritoneal macrophages. WKYMVm, an agonist of receptors for formylated peptides (FPR) also increased the [Ca²⁺]_i in murine macrophages. The slight increase of the [Ca²⁺]_i was strongly potentiated by ivermectin confirming the expression of functional P2X₄ receptors by murine peritoneal macrophages. CRAMP, the unique antimicrobial peptide derived from cathelin in mouse inhibited all the responses coupled to P2X₇ receptors in macrophages from WT mice. Agonists for FPR had no effect on the increase of the [Ca²⁺]_i in response to ATP. CRAMP had no effect on the increase of the [Ca²⁺]_i evoked by a combination of ATP and ivermectin in macrophages from P2X₇-KO mice.In summary CRAMP inhibits the responses secondary to the activation of the murine P2X₇ receptors expressed by peritoneal macrophages. This inhibition is not mediated by FPR receptors and is specific since CRAMP has no effect on the response coupled to P2X₄ receptors. It can thus be concluded that the interaction between P2X₇ receptors and cathelin-derived antimicrobial peptides is species-specific, in some cases (man) positive in others (mouse) negative.     

Mutations in the listerial proB gene leading to proline overproduction: effects on salt tolerance and murine infection

The observed sensitivity of Listeria monocytogenes to the toxic proline analogue L-azetidine-2-carboxylic acid (AZ) suggested that proline synthesis in Listeria may be regulated by feedback inhibition of gamma-glutamyl kinase (GK), the first enzyme of the proline biosynthesis pathway, encoded by the proB gene. Taking advantage of the Epicurian coli mutator strain XL1-Red, we performed random mutagenesis of the recently described proBA operon and generated three independent mutations in the listerial proB homologue, leading to proline overproduction and salt tolerance when expressed in an E. coli (DeltaproBA) background. While each of the mutations (located within a conserved 26-amino-acid region of GK) was shown to confer AZ resistance (AZ(r)) on an L. monocytogenes proBA mutant, listerial transformants failed to exhibit the salt-tolerant phenotype observed in E. coli. Since proline accumulation has previously been linked to the virulence potential of a number of pathogenic bacteria, we analyzed the effect of proline overproduction on Listeria pathogenesis. However, our results suggest that as previously described for proline auxotrophy, proline hyperproduction has no apparent impact on the virulence potential of Listeria.     

Chromosome mapping of Rfv3, a host resistance gene to Friend murine retrovirus.

Inoculation of adult mice with Friend virus complex usually induces rapid viremia and erythroleukemia, resulting in death in 1 to 3 months. In certain mouse strains, a single host gene, Rfv3, controls the ability to mount a virus-specific neutralizing antibody response which results in elimination of viremia. In this study, microsatellite markers were used to localize the Rfv3 gene to a 20-centimorgan region of mouse chromosome 15 unlinked to immunoglobulin loci, T-cell receptor loci, or the major histocompatibility complex. Potential candidate genes for Rfv3 are several genes expressed in cells of the immune system and previously mapped to the same region, including a T-cell antigen gene, Ly6, and three cytokine receptor genes, IL2rb, IL3rb1, and IL3rb2.