Factors which affect superoxide anion release from rat alveolar macrophages

Nitric oxide up-regulates DNA-binding activity of nuclear factor-kappaB in macrophages stimulated with silica and inflammatory stimulants

Nitric oxide (NO), a reactive nitrogen species, plays an important role in inflammatory lung damage. In the present study, we investigated the role of NO in DNA-binding activity of NF-kappaB in macrophages stimulated with silica or other inflammatory stimulants. Treatment of mouse macrophages (RAW264.7 cells) with a selective inhibitor of inducible nitric oxide synthase (iNOS), L-N6-(1-iminoethyl) lysine (L-NIL), or a nonselective iNOS inhibitor, N omega-nitro-L-arginine methylester (L-NAME), resulted in inhibition of silica-induced nitric oxide production as well as silica-induced NF-kappaB activation. L-NIL also effectively inhibited NF-kappaB activation induced by other inflammatory stimulants, such as lipopolysaccharide (LPS) or muramyl dipeptide (MDP). These inhibitory effects of L-NIL and L-NAME on silica- or LPS-induced NF-kappaB activation were also observed in primary rat alveolar macrophages. Furthermore, NO generating compounds, such as sodium nitroprusside (SNP) and 3-morpholinosydnonimine (SIN-1), caused a dose-dependent increase in NF-kappaB activation, which was positively correlated with the level of NO production. Specific inhibitors of protein tyrosine kinase, such as genistein and AG494, prevented NF-kappaB activation in SNP- or SIN-1 treated cells, suggesting involvement of tyrosine kinase in the NO signaling pathway leading to NF-kappaB activation. In contrast, inhibitors of protein kinase C or A, such as staurosporine or H89, had no inhibitory effect on SIN-1 induced NF-kappaB activation. Metalloporphyrins, such as tetrakis (N-methyl-4'-pyridyl) porphyrinato iron (III) (Fe-TMPyP) and Zn-TMPyP which are known to alter NO-dependent activity, markedly inhibited silica- and LPS-induced NF-kappaB activation. The results suggest that NF-kappaB activation in macrophages can be induced under certain conditions by nitric oxide and that nitric oxide produced by phagocytes exposed to inflammatory agents may up-regulate the activation of NF-kappaB.

In vitro biological effects of clay minerals advised as substitutes for asbestos

We studied one sample of commercial sepiolite and two samples of commercial vermiculite--clay minerals proposed as replacements for asbestos--and tested in vitro their abilities to activate complement, to lyse erythrocytes, and to elicit the production of reactive oxygen species (ROS) with human polymorphonuclear leukocytes (PMN) or bovine alveolar macrophages (AM); their behavior was compared with that of asbestos fibers obtained from the Union International Contra Cancer (UICC) as reference standards, as well as with kaolinite and illite, main members of the clay mineral family. Since in short-term in vitro tests the biological activity of mineral particles seems especially related to the active sites on their surface, we first measured the specific surface area of each mineral. Sepiolite was unreactive in two of the three tests we used (complement activation and ROS production) and able to lyse a minimal percentage of red blood cells. Vermiculite was shown to be incapable of activating complement, to have a moderate hemolytic activity and a high ability to elicite ROS production, although lower than that of chrysotile. Sepiolite, therefore, might be of more interest than vermiculite, given the low level of biological effects detected during the tests used to compare both clay minerals with asbestos fibres. The ROS production does not seem to require phagocytosis. A high ROS production was observed with kaolinite: this result casts doubt on the ability of pathogenic mineral dusts in vitro to induce a greater release of ROS than nonpathogenic mineral dusts.

Modification of alveolar macrophage function with bis-basic ethers of fluorene and fluoren-9-substituted derivatives

Bis-basic ethers of fluorene and fluoren-9-substituted derivatives such as tilorone have been reported to inhibit silica-induced fibrosis in rats. The potential antifibrotic potency of 2,7-bis(diethylamino)ethoxy fluorene (F-9-H,H), fluorenone (F-9-one), fluorenoxime (F-9-oxime), and fluorenol (F-9-ol) was F-9-oxime > F-9-one approximately F-9-H,H >> F-9-ol. Since the release of reactive oxygen species and growth factors from alveolar macrophages (AM) in response to silica exposure has been linked to the development of pulmonary fibrosis, the present study was carried out to determine the inhibitory effects of these compounds on rat AM activity in vitro. The following parameters were monitored: (1) cellular viability; (2) zymosan-induced respiratory burst activity (superoxide and hydrogen peroxide release, chemiluminescence, and oxygen consumption) of AM; (3) drug binding to AM; and (4) lipopolysaccharide (LPS)-stimulated interleukin-1 (IL-1) release from AM. The bis-basic ethers, at 40 microM, did not affect cell viability when incubated with AM for 30 min, but significantly inhibited zymosan-induced macrophage respiratory burst activity. The inhibitory effect of these agents was F-9-oxime > F-9-one approximately F-9-H,H >> F-9-ol. Binding of these drugs to AM was time and dose dependent, and exhibited the following binding affinity: F-9-oxime > F-9-one > F-9-H,H > F-9-ol. F-9-oxime was shown to inhibit LPS-stimulated IL-1 release by AM in a dose-dependent manner. This inhibition of IL-1 release by AM cannot be explained as a decrease in viability. In addition, these drugs were also shown to impair human fibroblast proliferation in response to serum stimuli without impairing cell viability. These results indicate a positive correlation between drug binding to AM or other cell types and their inhibitory effects on cellular activities including oxygen consumption, superoxide release, hydrogen peroxide secretion, chemiluminescence, IL-1 release, and proliferation. The ability of these bis-basic ethers to modify AM and fibroblast functions in vitro suggests that further investigation of their reported antifibrotic potency in vivo is warranted.

Influence of the dose levels of cocarcinogen ferric oxide on the metabolism of benzo[a]pyrene by pulmonary alveolar macrophages in suspension culture

The concurrent administration of a cocarcinogenic carrier particle such as ferric oxide (Fe2O3) and the polycyclic aromatic hydrocarbon lung carcinogen benzo[a]pyrene (BaP) results in a decreased latency and an increased incidence in the production of lung tumors in hamsters compared to the administration of BaP alone. The pulmonary alveolar macrophage (AM), the primary lung defense cell, has been shown to endocytize BaP, metabolize BaP to a more biologically active form, and then release the metabolites. Therefore, a study was undertaken to determine in a dose-response manner the effect of AM phagocytosis of a carrier particle (Fe2O3) on the metabolism of a carcinogen (BaP) and on the production of reactive oxygen. The AM were lavaged from hamsters and cultured in suspension (2.5 x 10(6) cells/vial) with BaP (62.5 nmol, 14C labeled) alone or adsorbed onto 0.5, 1.0, or 2.0 mg Fe2O3 in the presence of cytochrome c. Following separate ethyl acetate extractions of the AM and medium, the metabolites were isolated by high-performance liquid chromatography (HPLC) and quantified by liquid scintillation spectrometry. The production of superoxide anions was monitored by the reduction of cytochrome c. Concurrent exposure of AM to BaP-coated Fe2O3 resulted in a significant increase in the amount of BaP metabolites and superoxide anions produced with dose of Fe2O3. The following metabolites were identified in both the medium and the AM: 9,10-dihydrodiol, 7,8-dihydrodiol, 4,5-dihydrodiol, 9-hydroxy, 3-hydroxy, and 3,6-quinone. In general, the 7,8-dihydrodiol, which is considered to be the precursor of the ultimate carcinogenic metabolite of BaP, and superoxide anions, which have been shown to produce localized lipid peroxidation and edema in vivo, were significantly enhanced (p = .05, Duncan's multiple comparison test) in AM exposed to all doses of Fe2O3 when compared to AM exposed to BaP alone. This Fe2O3 dose-related enhancement of superoxide anion production is indicative of increased endocytic capacity resulting in a greater amount of total metabolites being produced, in particular, the dihydrodiols of BaP, which are considered to be products of the active metabolic pathway of BaP.

Inhibitory action of tetrandrine on macrophage production of interleukin-1 (IL-1)-like activity and thymocyte proliferation

Tetrandrine is a bisbenzylisoquinoline alkaloid which has been shown to exhibit antifibrotic activity against silicosis. Tetrandrine is characterized by its strong binding to alveolar macrophages and inhibition of particle-induced respiratory burst activity in these phagocytes. In contrast, tubocurine and tubocurarine are structurally similar to tetrandrine but exhibit little effect on fibrosis or activation of alveolar macrophages. The objective of the present study was to test the effect of tetrandrine on macrophage production of monokines in response to occupational dusts, and to determine tetrandrine's effect on monokine-medicated cell growth using a mouse thymocyte proliferation assay and lipopolysaccharide (LPS) as a positive control. Stimulation of alveolar macrophages by respirable silica dust resulted in a release of monokines which caused a fourfold increase in thymocyte proliferation. Coal dust, on the other hand, had no effect on macrophage production of this cytokine. Tetrandrine was found to exhibit a dose-dependent inhibition of monokine release from both silica and LPS-stimulated alveolar macrophages. In experiments where thymocytes were directly treated with tetrandrine, a dose-dependent inhibition of thymocyte proliferation was noted with both interleukin-1-(IL-1) specific and nonspecific mitogenic (concanavalin A) actions. In contrast to the inhibitory potency of tetrandrine, tubocurarine was found to have no effect on either the production of monokines by LPS-stimulated alveolar macrophages or IL-1-mediated thymocyte proliferation. These results provide a correlation between the antifibrotic effect of tetrandrine and inhibition of macrophage activation.

Response of alveolar macrophages to in vitro exposure to freshly fractured versus aged silica dust: the ability of Prosil 28, an organosilane material, to coat silica and reduce its biological reactivity

We have reported previously that crushing or grinding crystalline silica results in the generation of silica-based radicals on the particulate surface and that these radicals can generate hydroxyl radicals in aqueous solution. Data in the present study indicate that freshly ground silica is more cytotoxic and is a more potent activator of alveolar macrophages than comparably sized aged silica. That is, compared to aged silica, fresh silica is 4.2-fold more potent in decreasing the membrane integrity of macrophages; is 50% more potent in activating hydrogen peroxide secretion by macrophages; and is 4.6-fold more potent in stimulating cellular chemiluminescence. Prosil 28, an organosilane material, is an effective coating agent for fresh silica. It decreases the cytotoxicity of fresh silica by as much as 78% and decreases the ability of fresh silica to induce chemiluminescence from alveolar macrophages by 58%. The data suggest that surface radicals associated with freshly cleaved dust may be an important factor in the induction of pulmonary disease. Furthermore, treating dust with coating agents may substantially decrease toxicity.

Effects of bisbenzylisoquinoline alkaloids on alveolar macrophages: correlation between binding affinity, inhibitory potency, and antifibrotic potential

The Chinese have conducted extensive studies concerning the medicinal properties of plant products. In this investigation the ability of three bisbenzylisoquinoline alkaloids to inhibit particle-induced activation of alveolar macrophages was evaluated and this inhibitory potential was correlated with the ability of those drugs to bind to membrane components. Tetrandrine, i.e., an herbal medicine used as an antifibrotic agent in China, was a potent inhibitor of particle-stimulated oxygen consumption, superoxide release, and hydrogen peroxide secretion by alveolar macrophages. Tetrandrine also exhibited substantial binding affinity for membrane lipids and alveolar macrophages. In contrast, tubocurine, an analogue with little antifibrotic potential, exhibited low binding affinity and had little effect on macrophage activation. Methoxyadiantifoline, an alkaloid of unknown antifibrotic potential, exhibited inhibitory and binding properties similar to those of tetrandrine. The data indicate that a strong relationship exists between the antifibrotic potential of these alkaloids and their ability to bind to alveolar macrophages and inhibit particle-induced activation of these phagocytes. These drugs should serve as useful probes to evaluate the role of alveolar macrophages in pulmonary fibrosis.

Role of extracellular calcium in chrysotile asbestos stimulation of alveolar macrophages

The purpose of these studies was to determine whether extracellular calcium and calcium channels can influence chrysotile asbestos-stimulated production of superoxide anion by guinea pig alveolar macrophages. Increasing the extracellular calcium concentration from 0.0 to 10.0 mM markedly enhanced the ability of noncytotoxic levels of chrysotile (25 micrograms/ml) to stimulate macrophage production of superoxide anion at 37 degrees C. The primary effect of increasing extracellular calcium was to prolong superoxide anion production. In parallel with these calcium-dependent effects on superoxide anion production, chrysotile also caused an elevation of cytosolic calcium (measured using Fura-2) which increased with increasing extracellular calcium concentrations. A number of organic calcium channel antagonists were tested for their ability to block chrysotile-stimulated superoxide anion production by cells in medium containing physiological levels of calcium. The relative order of potency of these antagonists was verapamil much greater than nimopidine approximately diltiazem approximately nifedipine greater than segontin. In parallel with its effects on superoxide anion production, verapamil also partially blocked the observed chrysotile-stimulated elevation of cytosolic calcium. Taken together, these results suggest that chrysotile can open calcium channels on the macrophage surface, allowing extracellular calcium to enter and contribute to the elevation of cytosolic calcium levels. This elevation of cytosolic calcium in turn serves to prolong chrysotile-stimulated superoxide anion production.

A continuous alveolar macrophage cell line: comparisons with freshly derived alveolar macrophages

Responses of a recently developed rat alveolar macrophage cell (NR8383.1) line were compared to those of freshly derived alveolar macrophages in vitro. Marked inter- and intraspecies heterogeneity in levels of phagocytosis of unopsonized Pseudomonas aeruginosa or zymosan was noted among freshly derived alveolar macrophages from rats, rabbits, and baboons. In contrast, phagocytic responses of alveolar macrophage cell line were predictable and highly reproducible. Similar results were obtained in measuring oxidative burst, as indicated by the production of H2O2 and luminol-enhanced chemiluminescence. Responses were again highly variable in freshly derived alveolar macrophages stimulated with zymosan or phorbol myristic acetate; moreover, freshly derived alveolar macrophages exhibited a wide range of chemiluminescence activity in unstimulated cultures. Results strongly suggest that data derived from the continuous alveolar macrophage culture NR8383.1 can be extrapolated to freshly derived alveolar macrophages of various species, and in many experiments will be useful in avoiding the significant animal-to-animal variance observed among freshly derived cell preparations.

Phosphoinositide breakdown and superoxide anion release in formyl-peptide-stimulated human alveolar macrophages. Comparison between quiescent and activated cells

Human alveolar macrophages (AMs) from allergic asthmatics (AAs) showed continuous Li+-sensitive production of IP1, indicating that the cells were continuously activated. Furthermore, whereas the accumulation of IP1, IP2 and IP3 rapidly increased by as much as 125-175% in chemotactic-factor-stimulated AMs from healthy subjects, stimulation of cells from AAs increased these inositol phosphates only slightly. This moderate production could be due to a permanent state of activation leading to a depleted pool of polyphosphoinositides, corroborating the greater capacity of these cells to generate superoxide anion after stimulation by a chemoattractant. The activation state could be due to the action of priming agents, which are known to be released into the inflammatory sites.

Presence of cytochrome b-558 in guinea-pig alveolar macrophages-subcellular localization and relationship with NADPH oxidase

The assignment of cytochrome b-558 as a component of the O2- (H2O2) -generating enzyme in guinea-pig alveolar macrophages was investigated. Guinea pig alveolar macrophages contained 76 pmol cytochrome b-558/mg protein, a value very similar to that of neutrophils. The rate of myristic acid-stimulated O2- generation by alveolar macrophages, calculated per cytochrome b-558, was only one-fourth that of neutrophils. An analysis of Percoll density gradient centrifugation profiles showed that the H2O2-generating activity of myristic acid-activated alveolar macrophages was concentrated in a single peak which was consistently associated with 5'-nucleotidase activity, a plasma membrane marker enzyme. A little H2O2-generating activity was seen with unactivated alveolar macrophages. Furthermore, the cytochrome b-558 of both myristic acid-activated and unactivated alveolar macrophages was also predominantly associated with 5'-nucleotidase activity and was found in trace amounts in a peak containing lysozyme activity, a marker of lysosome granules. Only about 6% of the cytochrome b-558 in plasma membranes from myristic acid-activated guinea-pig alveolar macrophages was anaerobically reduced by 0.5 mM NADPH, while under the same conditions about 30% of the heme protein of myristic acid-activated neutrophils was reduced. These results suggest two conclusions: firstly, that in both activated and unactivated alveolar macrophages, cytochrome b-558 is located in the plasma membrane, and the translocation of cytochrome b-558 does not occur during the activation of NADPH oxidase; and secondly, that a smaller part of cytochrome b-558 is associated with the activated NADPH oxidase of guinea pig alveolar macrophages compared with neutrophils.

The role of membrane gangliosides in murine alveolar macrophage-mediated suppression of the immune response

Generation of aldehydes on cell membranes of viable alveolar macrophages (AM) by mild oxidation with sodium periodate was previously shown to result in total abrogation of AM-mediated suppression of the plaque-forming cell (PFC) response of spleen cells previously primed with sheep erythrocytes (SRBC). These results suggested a possible role for macrophage sialoglycoconjugates, such as gangliosides and sialoglycoproteins, in suppression. In the present report, it is shown that a purified mixture of gangliosides suppressed the PFC response of SRBC-primed spleen cells in a dose-dependent manner. Addition of rabbit anti-mouse brain antiserum (RAMB), which reacts with the gangliosides, reversed both ganglioside- and AM-mediated suppression of the PFC response. Pretreatment of AM but not spleen cells with RAMB also resulted in the reversal of AM-mediated suppression. The expression of gangliosides on the membrane of AM was detected with RAMB in an enzyme-linked immunosorbent assay (ELISA). The results suggest that membrane gangliosides may play an important role in the AM-mediated suppression of the PFC response. Since paraformaldehyde-fixed AM were not suppressive, it is speculated that AM release the suppressive gangliosides into the culture medium and rabbit anti-mouse brain antibody either prevents their release and/or neutralizes the suppressive function of released gangliosides.

Role of activation in alveolar macrophage-mediated suppression of the plaque-forming cell response

Alveolar macrophages (AM) are highly suppressive of the in vitro plaque-forming cell (PFC) response of spleen cells obtained from mice primed with sheep erythrocytes. Comparison of macrophage populations obtained from disparate anatomical sites revealed that although in both cases there was a cell-concentration-dependent suppression of the PFC response, resident AM or AM activated as a result of intravenous injection of Mycobacterium bovis BCG were equally suppressive at the doses examined. Although there was a similar dose-dependent suppression with peritoneal macrophages, BCG-activated cells were more suppressive of the PFC response than were resident cells. In contrast, splenic macrophages at comparable concentrations were not at all suppressive. Resident AM exhibited significantly lower levels of 5'-nucleotidase activity than did resident peritoneal macrophages. Macrophage-mediated suppression of the in vitro PFC response could not be attributed to the release of toxic oxygen metabolites (H2O2, O2- ,and .OH) or prostaglandins, since the addition of catalase, superoxide dismutase, 2-mercaptoethanol, or indomethacin did not completely reverse suppression. These results suggest that the lung microenvironment may maintain AM in an activated state which contributes to their potential immunoregulatory functions.

Participation of superoxide in luminol-dependent chemiluminescence triggered by mineral dust in rabbit alveolar macrophages

Luminol-dependent chemiluminescence (CL) triggered by mineral dust in rabbit alveolar macrophages depended on superoxide production as revealed by inhibition by superoxide dismutase and ferricytochrome c. The contribution of superoxide changed in the course of CL peak between 80-20%. The effects of ferricytochrome c were concentration-dependent: both stimulation and inhibition were observed. Ferricytochrome c and desferal also inhibited CL pathway which was not superoxide-dependent.

Measurement of phagocytosis and cell-mediated cytotoxicity by chemiluminescence

The generation of CL by phagocytes has been shown to be a valuable tool for monitoring the activity of phagocytic cells. It has been used to investigate mechanisms by which stimulants or inhibitors act to affect the function of phagocytic cells. CL has also been used as an assay system to detect various disease states. Last, it has been shown to be a very sensitive assay system for determining the toxicity of environmental or occupational agents on phagocytic cells.

Stimuli-induced superoxide radical generation in vitro by human alveolar macrophages from smokers: modulation by N-acetylcysteine treatment in vivo

Bronchoalveolar lavage (BAL) was performed on nine healthy nonsmoking subjects and on 11 healthy smokers; in the last mentioned group lavage was performed before and after eight weeks treatment with N-acetylcysteine (NAC; 200 mg t.i.d.). The BAL cells were cultured for 2 h or overnight. Adherent cells were examined for their capacity to generate superoxide radicals (determined by superoxide dismutase (SOD)-inhibitable cytochrome C-reduction) at stimulation with phorbol 12-myristate 13-acetate (PMA), serum-treated zymosan (STZ), the calcium ionophore A23187, or the chemotactic tripeptide formyl-methionylleucylphenylalanine (FMLP). Cells from nonsmokers responded with a very low degree of O(2)-generation to any of the stimuli employed whether cultured for 2 h or overnight. Cells from smokers also responded with low O(2)-generation after 2 h of culture. However, cells from smokers cultured overnight responded with marked O(2)-generation to PMA and STZ but the responses to FMLP and A23187 were low. NAC-treatment of the smokers resulted in a reduced degree of both PMA- and STZ-induced O(2)-generation in five individuals. In two other subjects, PMA-induced (but not STZ-induced) O(2)-generation was reduced. Two individuals showed increased O(2)-generation to PMA- and to STZ-stimulation after NAC-treatment. Mean values of O(2)-generation induced by A23187 or by FMLP were significantly reduced for cells harvested after NAC-treatment. Mean values for PMA-induced O(2)-generation also tended to be reduced by the treatment.(ABSTRACT TRUNCATED AT 250 WORDS)

Serum factor requirement for reactive oxygen intermediate release by rabbit alveolar macrophages

Alveolar macrophages (AM) from pathogen-free rabbits were unable to release reactive oxygen intermediates (ROI) unless they were conditioned in serum for 24-48 h before triggering with membrane-active agents. The degree of serum conditioning of AM depended upon the concentration of serum used; optimal ROI release was obtained at or above 7.5% fetal bovine serum (FBS). FBS, autologous rabbit serum, pooled rabbit serum, and pooled human serum were each capable of conditioning AM for release of ROI. Serum conditioning of AM requires synthesis of new protein(s); and the enzyme required for ROI production, NADPH oxidase, was only detectable in serum-conditioned cells. Moreover, serum-conditioned cells lost their ability to release ROI after transfer to serum-free medium, while cells maintained in serum-free medium acquired the capacity to release ROI after their transfer to serum-containing medium, demonstrating the reversibility of the phenomenon. Initial purification data indicate that conditioning is mediated by a discrete serum constituent, which precipitates 40-80% saturated ammonium sulfate, does not bind to Cibacron Blue columns, and has a molecular weight of 30,000 to 50,000, as determined by molecular exclusion chromatography. Unlike gamma interferon, which also enhances ROI release by macrophages, our serum-conditioning factor is not acid labile, retaining 67% of its activity after 120 min incubation at pH 2.0. Moreover, it does not appear to be a contaminating endotoxin, since LPS neither conditioned AM for ROI production, nor triggered ROI production by serum-conditioned AM. We propose that such a conditioning requirement may normally protect the lung against ROI-mediated tissue injury. However, during a pulmonary inflammatory reaction initiated by other mediator systems, the resulting transudation of plasma proteins into the alveolar spaces may condition AM in situ for ROI production.

In vitro generation of hydrogen peroxide and of superoxide anion by bovine polymorphonuclear neutrophilic granulocytes, blood monocytes, and alveolar macrophages

Studies were conducted to compare the capacity of bovine blood monocytes, polymorphonuclear granulocytes (PMNs), and alveolar macrophages (AMs) to generate hydrogen peroxide and superoxide anion. Following stimulation with opsonized zymosan, bovine PMNs respond with an immediate and vigorous liberation of both oxygen species, generating 4.7 +/- 0.3 nmol H2O2/10(6) cell and 12.3 +/- 1.8 nmol O2-/10(6) cell during the initial 15 min. This is more than twice the amount generated by AMs (1.2 nmol H2O2/10(6) cell; 2.5 and nmol O2-/10(6) cell) and blood monocytes (0.5 nmol H2O2/10(6) cell; 2.1 nmol O2-/10(6) cell) during the same period. However, AMs continue generating H2O2 and O2- at a steady rate for a longer period and consequently produce amounts equal to those of PMNs when measured over a longer time span. Also, AMs can be stimulated with nonopsonized zymosan in contrast to PMNs. However, the AM population appears to comprise at least two subpopulations, which can be clearly distinguished by their capacity for generation of reactive oxygen species, and which correlate with their tendency for adherence to a plastic surface. In contrast to what has been found in other species, the bovine phagocytes were found to lack receptors for tuftsin and formylated oligopeptides, and thus remained unresponsive to these compounds. The in vitro activity of the three cell types was found to be very dependent on culture conditions, such as cell density and an adherent versus suspended state. In addition, a comparison with macrophages and PMNs elicited into the mammary gland suggest that in vivo factors can significantly influence the in vitro activities. The mammary gland cells have lower activity than blood and alveolar cells, even though they have been "primed" by chemotactic factor(s), and this is probably caused by milk components, i.e., the microenvironment. Our observations are discussed with respect to the results obtained from different laboratories, different species, and different cell types; emphasis is placed on the problem of drawing conclusions about in vivo functions of cells from parameters assayed in vitro.

Direct measurement of hydrogen peroxide release from rat alveolar macrophages: artifactual effect of horseradish peroxidase

Investigators disagree on the amount of hydrogen peroxide (H2O2) released by resting and stimulated alveolar macrophages. The method commonly used to measure H2O2 release involves horseradish peroxidase (HRP)-catalyzed oxidation of scopoletin by H2O2. We describe an artifact in this method that may explain the seemingly inconsistent data reported by other investigators. Release of H2O2 and luminol-catalyzed chemiluminescence are stimulated in rat alveolar macrophages by type II HRP at concentrations normally used in the HRP-scopoletin method. The amount of H2O2 released depends upon the length of time the cells are preincubated at 37.5 degrees C and the time at which type II HRP is added. After stimulation with type II HRP, the cells do not release additional H2O2 upon exposure to zymosan particles. Myeloperoxidase, an alternative catalyst to type II HRP, does not stimulate H2O2 release and, therefore, can be used to measure H2O2 release from rat alveolar macrophages. Using myeloperoxidase, resting H2O2 release is negligible; after zymosan stimulation, 6.14 (+/- 0.87) X 10(-6) nmoles/cell X 10 min is released. In addition, more pure HRP preparations (types VI, VII, VIII, and IX) do not stimulate alveolar macrophages to release H2O2 and can be used to monitor zymosan-induced H2O2 release. As our data indicate that type II HRP stimulates H2O2 release from rat and guinea pig alveolar macrophages, it is not the catalyst of choice for this assay. In conclusion, our data explain the conflicting results found in the literature and indicate that rat alveolar macrophages release minimal amounts of H2O2 at rest and can be stimulated by zymosan.

Depolarization and increased conductance precede superoxide release by concanavalin A-stimulated rat alveolar macrophages

Rat alveolar macrophages release superoxide into the extracellular medium when stimulated by concanavalin A. This process, the respiratory burst, is characterized by a delay between binding of the stimulus and release of superoxide. It has been proposed that a key event that occurs during this delay period is the alteration of membrane electrical potential. Microelectrode impalement was used to directly measure electrical properties of the plasma membrane. Upon addition of concanavalin A, the membrane potential depolarized 21%, and membrane electrical resistance decreased 16%. Parallel chemical measurement of superoxide release indicated that these changes in electrical properties precede the release of superoxide.

Chemiluminescence from mouse resident macrophages: characterization and modulation by arachidonate metabolites

Oxidative burst dependent chemiluminescence (CL), generated by mouse resident peritoneal and alveolar macrophages obtained by peritoneal and lung lavage, has been studied using a lumanol-dependent assay. Alveolar macrophages generated greater CL in response to opsonized zymosan (OpZ, 0.017-0.67 mg/ml) than did peritoneal cells, but the former were less sensitive to inhibition by joint cyclo-oxygenase/lipoxygenase inhibitors and superoxide dismutase. Responses of peritoneal macrophages to OpZ and calcium ionophore A23187 (0.1-0.5 microM) were small in comparison to responses of C. parvum-elicited cells, while FMLP (2-20 microM) was ineffective. Arachidonic acid alone (40-80 microM) generated slight CL from resident peritoneal macrophages. When added with OpZ (0.017 mg/ml), arachidonate (40 microM) initially enhanced, then inhibited CL, the inhibition being indomethacin (10 microM) sensitive. These data indicate that modulation of resident macrophage CL by arachidonate products differs somewhat from that reported for elicited macrophages.