Surfactant protein A enhances alveolar macrophage phagocytosis of apoptotic neutrophils

Surfactant protein A (SP-A) is an innate immune molecule that binds foreign organisms that invade the lungs and targets them for phagocytic clearance by the resident pulmonary phagocyte, the alveolar macrophage (AM). We hypothesized that SP-A binds to and enhances macrophage uptake of other nonself particles, specifically apoptotic polymorphonuclear neutrophils (PMNs). PMNs are recruited into the lungs during inflammation, but as inflammation is resolved, PMNs undergo apoptosis and are phagocytosed by AMs. We determined that SP-A increases AM phagocytosis of apoptotic PMNs 280 +/- 62% above the no protein control value. The increase is dose dependent, and heat-treated SP-A still enhanced uptake, whereas deglycosylated SP-A had significantly diminished ability to enhance phagocytosis. Surfactant protein D also increased phagocytosis of apoptotic PMNs by approximately 125%. However, other proteins that are structurally homologous to SP-A, mannose-binding lectin and complement protein 1q, did not. SP-A enhances phagocytosis via an opsonization-dependent mechanism and binds apoptotic PMNs approximately 4-fold more than viable PMNs. Also, binding of SP-A to apoptotic PMNs does not appear to involve SP-A's lectin domain. These data suggest that the pulmonary collectins SP-A and SP-D facilitate the resolution of inflammation by accelerating apoptotic PMN clearance.     

Role of granulocyte/macrophage colony-stimulating factor in the regulation of murine alveolar macrophage proliferation and differentiation

Granulocyte/macrophage (GM)-CSF is one of the hemopoietic growth factors that stimulates neutrophilic granulocyte and macrophage production by bone marrow progenitor cells. In this study, the effect of GM-CSF on the growth and differentiation of murine pulmonary alveolar macrophages (PAM) was investigated. In the presence of GM-CSF, normal murine PAM were induced to proliferate and develop into macrophage colonies with a dose-response curve similar to that of bone marrow GM colony-forming cells. PAM also responded to CSF-1, a lineage-restricted growth factor, but required much higher doses of CSF-1 and a longer incubation time for optimal colony formation. The proliferative response of PAM to CSF-1, however, was greatly enhanced by the concurrent addition of low doses of GM-CSF. In contrast, low doses of CSF-1 failed to potentiate the proliferative response of PAM to GM-CSF. Macrophages derived from GM-CSF cultures were rounder and less stretched and possessed less FcR-mediated phagocytic activity than cells produced in CSF-1 cultures. A study with hydrocortisone-induced monocytopenia showed that nearly one half of lung macrophages may be sustained by local proliferation of PAM without the continuous migration of blood monocytes. This study suggests that GM-CSF may play a major role in the production of PAM by two modes of action, 1) direct stimulation of cell proliferation and 2) enhancement of their responsiveness to CSF-1, thereby producing more mature and functionally competent macrophages.     

Role of macrophage destruction products in the alveolar phagocytosis reaction]

Peritoneal macrophages (PM) of Wistar rats harvested after the intraperitoneal injection of paraffin oil were destroyed by repeated freezing-thawing. When injected intratracheally to control rats or to those after 4 daily exposured to TiO2 dust, these macrophage destruction products (MDP) caused a significant rise of both the alveolar macrophages (AM) and the neutrophilic leukocytes (NL) counts in the pulmonary washing-outs; the mean NL/AM ratio increased several times as compared to rats injected with normal saline intratracheally. Thus, the response to the inert dust particles plus the exogenous MDP became similar to the one observed after the cytotoxic (for instance silica) particles inhalation. Enhancing the NL contribution to the inhaled particles phagocytosis, the MDP led to a significant decrease of the mean "Dust load" of a single AM, although the total number of the engulfed particles increased. The predominant attraction of granulocytes and particularly of the NL as compared to the peritoneal macrophages was also found in the peritoneal exudates of rats injected with the MDP or silica suspension intraperitoneally, while the alveolar phagocytosis was not influenced. In vitro the MDP was shown to stimulate the NL migration and to facilitate the O2 consumption by PM. A possible role of the MDP as a multipotent controlling factor of phagocytosis response is briefly discussed.     

The relative contribution of resident pulmonary alveolar macrophage and inflammatory polymorphonuclear neutrophils in host resistance to pulmonary infection by Candida albicans

Cortisone (CA) or cyclophosphamide (Cy) treatment of mice was used to investigate the relative contributions of pulmonary alveolar macrophages (PAM) and inflammatory neutrophils (PMN) in the initial defense against intratracheal challenge (IT) with Candida albicans. Mice treated with either CA or Cy were susceptible to IT challenge with 10–100 x less C. albicans than were untreated mice. Untreated mice rapidly eliminated C. albicans from their lungs with the majority of the organisms being cleared within three hours of challenge. Mice treated with CA initially cleared some of the C. albicans but were unable to clear all the C. albicans as did the untreated mice. Mice treated with Cy were unable to clear C. albicans from their lungs. Candida albicans did not disseminate from the lungs of untreated mice, while in both of the treated groups, C. albicans disseminated to the liver, spleen, brain and kidneys, rapidly killing the treated hosts. Analysis of the changes in cells in lung lavage fluids collected at various times after C. albicans challenge, revealed that large numbers of PMN accumulated in the lungs of both untreated and CA-treated mice, whereas PMN were virtually undetectable in lavage fluids from Cy-treated mice. Resident PAM from untreated mice were able to kill approximately 70 % of 10⁵ C. albicans in a 3 hr in vitro killing assay. By contrast, at similar effector: target ratios, resident PAM from Cy-treated mice killed only about 20% of the inoculum and resident PAM from CA-treated mice were unable to kill C. albicans. PMNs from both untreated and CA-treated mice killed approximately 70% of 10⁵ C. albicans in vitro. The data indicates that both PAM and PMN were critical to the initial clearance of C. albicans from pulmonary tissue. The accumulation of PMN in the lungs appeared to be required for the complete clearance of C. albicans from the lungs yet was not sufficient to inhibit dissemination of C. albicans from the lungs in CA-treated mice. The presence of PAM with in vitro candidacidal abilities appeared to be required for both the clearance of C. albicans and inhibition of dissemination of C. albicans from the lungs. Compromise of either PAM or PMN function can lead to increased pulmonary susceptibility to C. albicans.     

Role of cytokines in alveolar macrophage accessory cell function in HIV-infected individuals.

Mononuclear phagocytes, including alveolar macrophages (AM), can be chronically infected with HIV and thus serve as a reservoir for the virus. Acting as AC during the generation of an immune response, HIV-infected mononuclear phagocytes can facilitate viral T cell infection by several mechanisms, including direct contact of T cells with HIV-infected macrophages as well as cytokine-induced up-regulation of latent T cell infection. Our laboratory has shown that AM from HIV-infected individuals have enhanced AC function compared to normal AM. In this study we explored AM production and secretion of IL-1 beta and IL-6, two cytokines critical for optimal AC function, in normal volunteers and HIV-infected patients. Cultured AM supernatants and lysates were generated in the presence and absence of LPS and standard mitogens. In initial mixing experiments HIV AM supernatants enhanced mitogen-induced T cell proliferation using normal AM as AC significantly more than normal AM supernatants, suggesting that HIV AM secreted more T cell stimulatory factors than normal AM. Neither group could enhance T cell proliferation induced by HIV AM suggesting these cells already secreted optimal levels of these factors. AM from HIV+ individuals produced and secreted more IL-1 beta (measured by ELISA) and IL-6 (measured in a B9 bioassay and by immunoprecipitation) than normal AM both spontaneously and in the presence of low LPS concentrations and mitogens. In some cases depleting HIV AM supernatants of IL-1 beta and IL-6 on immunoaffinity columns abrogated their enhancement properties indicating that these cytokines were important in the observed enhancement. However, in other patients different factors must also be involved as depletion of IL-1 beta and IL-6 in their AM supernatants had no effect on enhancement function. These results show that HIV AM secretory products are important in the enhanced AC function demonstrated by these cells. However, although augmented IL-1 beta and IL-6 secretion likely contribute significantly to this enhancement, other AC secretory factors and/or functions must also be involved.     

Initial recruitment of neutrophils to alveolar structures in acute lung injury

The adult respiratory distress syndrome and bacterial pneumonia are both characterized by an influx of neutrophils into the lung. The neutrophil has been implicated as having a "pathological" role in adult respiratory distress syndrome, in contrast to its role in bacterial pneumonia. We hypothesized that processes resulting in neutrophil recruitment to the lung are distinct, depending on whether the inflammatory stimulus arises in the intravascular or the alveolar compartment of the lung. Anesthetized sheep with lung lymph fistulas were utilized to access the three compartments of the lung relevant to studies of transpulmonary neutrophil migration. Serum, lung lymph, and bronchoalveolar lavage fluid were studied for neutrophil influx and chemotactic activity before and after administration of endotoxin by either an intravascular or inhaled alveolar route. Both groups developed significant neutrophil influx into the lymph and bronchoalveolar lavage fluid by 3 h postendotoxin. Those animals receiving intravascular endotoxin developed chemotactic gradients opposing neutrophil migration into the lung in contrast to animals receiving alveolar endotoxin, suggesting that neutrophil influx into the lung occurs by random migration.     

Selective down-regulation of alveolar macrophage oxidative response to opsonin-independent phagocytosis

We have compared the oxidative response of alveolar macrophages (AM) during opsonin-dependent and independent phagocytosis by using multiparameter flow cytometry. The respiratory burst of AM during phagocytosis was quantitated by the intracellular oxidation of the nonfluorescent precursors dichlorofluorescin diacetate (DCFH) or hydroethidine (HE, a reduced precursor of ethidium) to their fluorescent (oxidized) counterparts. After loading freshly isolated normal hamster AM with DCFH or HE, red or green fluorescent beads, respectively, were added to the shaking cell suspensions. Ingestion of opsonized particles by AM caused a marked increase in oxidation of both DCFH and HE proportional to the number of beads ingested. In contrast, uptake of one to three unopsonized particles per cell led to inhibition of oxidative activity compared to control cells incubated without particles. AM ingesting four or more unopsonized particles showed some increase in oxidative metabolism, but far less than that with identical numbers of particles in opsonin-dependent ingestion. Similar results were obtained using fluorescent labeled staphylococcal bacteria. Using three-color flow cytometry to study cells ingesting both types of particles, cells first ingesting unopsonized beads were also found to have an inhibited oxidative response to subsequently ingested opsonized particles. The mitochondrial poison antimycin inhibited most of the intracellular oxidative response to either type of phagocytosis. The remaining antimycin-insensitive, membrane derived respiratory burst of AM was also substantially diminished after phagocytosis of unopsonized particles vs similar numbers of opsonized particles. The greatly increased mitochondrial respiration in AM during phagocytosis of opsonized particles may be related to bactericidal mechanisms. Killing of ingested Staphylococcus by AM was markedly impaired in the presence of antimycin. The results suggest that AM may ingest the numerous, unopsonized inert particles that are inhaled without generation of potentially toxic oxygen metabolites, while retaining the capacity to undergo a respiratory burst after ingesting opsonized particles and bacteria. The mechanism(s) for this distinct response may include generation of an inhibitor of intracellular oxidative metabolism.     

Sulfidopeptide leukotrienes contribute to human alveolar macrophage activation in asthma.

The mechanism involved in amplification of the local inflammatory process, characteristic of asthma, was investigated through the role of human alveolar macrophages. During asthma attacks, mast cells and eosinophils are known to be activated in order to release arachidonic acid derived inflammation mediators such as sulfidopeptide leukotrienes. It is now known that these metabolites, particularly leukotriene C4, are present in bronchoalveolar lavage from asthmatic patients. Alveolar macrophages, recovered by bronchoalveolar lavage and purified by adherence, are able to transform LTC4 into LTE4. In four asthmatic patients with severe local inflammation as determined by fibrobronchoscopy, these phagocytes, incubated in the presence of LTC4, also generated LTB4 and 5-HETE, which remained within the cells. These preliminary results are discussed relative to amplification of the local process, involving cooperation between the different cells involved in airway responsiveness.     

Exercise, alveolar macrophage function, and susceptibility to respiratory infection

Davis, J. M., M. L. Kohut, L. H. Colbert, D. A. Jackson, A. Ghaffar, and E. P. Mayer. Exercise, alveolarmacrophage function, and susceptibility to respiratory infection.J. Appl. Physiol. 83(5):1461-1466, 1997.The effects of exercise on susceptibility torespiratory infection were determined by using a murine model ofintranasal challenge with herpes simplex type 1 virus (HSV-1). Twodoses of treadmill exercise were assessed: moderate short-term (30 min)exercise and prolonged strenuous exercise to voluntary fatigue(2.5-3.5 h). Morbidity and mortality among exercised and controlmice were compared after intranasal challenge with HSV-1. We alsoassessed the ability of alveolar macrophages to restrict HSV-1 viralreplication (intrinsic resistance) among exercise and control groups ofmice at several time points postexercise. Exercise to fatigue followedby exposure to viral infection resulted in greater morbidity andmortality than either no exercise or short-term moderate exercise. Inaddition, antiviral resistance of macrophages obtained from the lungsof both exercised groups was suppressed, albeit for a longer durationin the fatigued group. These data are particularly important in thatthey identify an exercise-induced decrease in antiviral resistance of aspecific component of the immune system within the lungs, inconjunction with increased susceptibility to respiratory infection invivo. The specific mechanism of decreased antiviral resistance ofalveolar macrophages and its role in respiratory infection afterexercise remains to be determined.

     

The priming effect of extracellular UTP on human neutrophils: Role of calcium released from thapsigargin-sensitive intracellular stores

P2Y₂ receptors, which are equally responsive to ATP and UTP, can trigger intracellular signaling events, such as intracellular calcium mobilization and mitogen-activated protein (MAP) kinase phosphorylation in polymorphonuclear leukocytes (PMN). Moreover, extracellular nucleotides have been shown to prime chemoattractant-induced superoxide production. The aim of our study was to investigate the mechanism responsible for the priming effect of extracellular nucleotides on reactive oxygen species (ROS) production induced in human neutrophils by two different chemoattractants: formyl-methionyl-leucyl-phenylalanine (fMLP) and interleukin-8 (IL-8). Nucleotide-induced priming of ROS production was concentration- and time-dependent. When UTP was added to neutrophil suspensions prior to chemoattractant, the increase of the response reached the maximum at 1 min of pre-incubation with the nucleotide. UTP potentiated the phosphorylation of p44/42 and p38 MAP kinases induced by chemoattractants, however the P2 receptor-mediated potentiation of ROS production was still detectable in the presence of a SB203580 or U0126, supporting the view that MAP kinases do not play a major role in regulating the nucleotide-induced effect. In the presence of thapsigargin, an inhibitor of the ubiquitous sarco-endoplasmic reticulum Ca²⁺-ATPases in mammalian cells, the effect of fMLP was not affected, but UTP-induced priming was abolished, suggesting that the release of calcium from thapsigargin-sensitive intracellular stores is essential for nucleotide-induced priming in human neutrophils.     

Dissociation between alveolar transmigration of neutrophils and lung injury in hyperoxia

The objective of this study was to quantitatively assess changes in cell adhesion molecule (CAM) expression on the pulmonary endothelial surface during hyperoxia and to assess the functional significance of those changes on cellular trafficking and development of oxygen-induced lung injury. Mice were placed in >95% O(2) for 0-72 h, and pulmonary injury and neutrophil (PMN) sequestration were assessed. Specific pulmonary CAM expression was quantified with a dual-radiolabeled MAb technique. To test the role of CAMs in PMN trafficking during hyperoxia, blocking MAbs to murine P-selectin, ICAM-1, or platelet-endothelial cell adhesion molecule-1 (PECAM-1) were injected in wild-type mice. Mice genetically deficient in these CAMs and PMN-depleted mice were also evaluated. PMN sequestration occurred within 8 h of hyperoxia, although alveolar emigration occurred later (between 48 and 72 h), coincident with rapid escalation of the lung injury. Hyperoxia significantly increased pulmonary uptake of radiolabeled antibodies to P-selectin, ICAM-1, and PECAM-1, reflecting an increase in their level on pulmonary endothelium and possibly sequestered blood cells. Although both anti-PECAM-1 and anti-ICAM-1 antibodies suppressed PMN alveolar influx in wild-type mice, only mice genetically deficient in PECAM-1 showed PMN influx suppression. Neither CAM blockade, nor genetic deficiency, nor PMN depletion attenuated lung injury. We conclude that early pulmonary PMN retention during hyperoxia is not temporally associated with an increase in endothelial CAMs; however, subsequent PMN emigration into the alveolar space may be supported by PECAM-1 and ICAM-1. Blocking PMN recruitment did not prevent lung injury, supporting dissociation between PMN infiltration and lung injury during hyperoxia in mice.     

Granulocyte/macrophage colony-stimulating factor primes human neutrophils for increased diacylglycerol generation in response to chemoattractant

Pretreatment of human neutrophils with granulocyte macrophage-colony stimulating factor (GM-CSF) augments several biological responses to chemoattractants (e.g. the respiratory burst, degranulation, and chemotaxis). However, little is known regarding the intracellular effects of priming with GM-CSF. In the present study, we have investigated the effects of GM-CSF on the generation of diacylglycerol (DAG), a proposed mediator of neutrophil responses. GM-CSF alone produced only a small increase in cellular DAG mass, which was most apparent after 30 min. GM-CSF pretreatment (60 min), however, caused a striking augmentation in DAG generation in response to the chemoattractant formyl-methionyl-leucyl-phenylalanine (fMLP), compared with neutrophils preincubated without GM-CSF. The augmentation in DAG generation correlated with an enhancement by GM-CSF of superoxide generation in response to fMLP. The data suggest that GM-CSF may exert some of its biological effects by enhancing DAG generation in response to a second agonist.     

Effect of adherence to plastic on peripheral blood monocyte and alveolar macrophage chemiluminescence

The chemiluminescence of peripheral blood monocytes and alveolar macrophages was determined in the presence of luminol and lucigenin, either before or after the cell adherence to the luminometer curvettes. In the case of monocytes, cell adherence induces an increase of luminol-dependent chemiluminescence and has almost no effect on the lucigenin-dependent chemiluminescence. However, it shows a strong inhibition of the lucigenin-dependent chemiluminescence and almost no effect on luminol-dependent chemiluminescence, in the case of alveolar macrophages. These results show that adhesion to plastic alters the metabolic burst of both monocytes and alveolar macrophages. Although the mechanisms are poorly understood, they seem to be related to the modifications that take place during the differentiation of peripheral monocytes to alveolar macrophages.     

Intracellular calcium levels correlate with speed and persistent forward motion in migrating neutrophils.

The relationship between cytosolic free calcium concentration ([Ca2+]i) and human neutrophil motility was studied by video microscopy. Neutrophils stimulated by a uniform concentration of an N-formylated peptide chemoattractant (f-Met-Leu-Phe) were tracked during chemokinetic migration on albumin, fibronectin, and vitronectin. [Ca2+]i buffering with quin2 resulted in significant decreases in mean speed on albumin. To further characterize the relationship between [Ca2+]i changes and motility we carried out a cross-correlation analysis of [Ca2+]i with several motility parameters. Cross-correlations between [Ca2+]i and each cell's speed, angle changes, turn strength, and persistent forward motion revealed (i) a positive correlation between [Ca2+]i and cell speed (p < 0.05), (ii) no significant correlation between turns and calcium spikes, and (iii) the occurrence of turns during periods of low speed. Significant negative correlations between [Ca2+]i and angle change were noted on the high adhesion substrates vitronectin and fibronectin but not on the low adhesion substrate albumin. These data imply that there is a general temporal relationship between [Ca2+]i, speed, and persistent motion. However, the correlations are not sufficiently strong to imply that changes in [Ca2+]i are required proximal signals for velocity changes.     

Properties and localisation of rabbit alveolar macrophage 5'-nucleotidase

5'-Nucleotidase has been demonstrated in rabbit alveolar macrophages. This enzyme has been found to be localised on the plasma membrane as have alkaline phosphodiesterase I and leucyl-2-naphthylamidase. Heterogeneity of the plasma membrane has been evidenced by the behaviour of these enzymes during isopycnic centrifugation.