John A. Rankin

Airway epithelial cell expression of interleukin-6 in transgenic mice. Uncoupling of airway inflammation and bronchial hyperreactivity.

We produced transgenic mice which overexpress human IL-6 in the airway epithelial cells. Transgenic mice develop a mononuclear cell infiltrate adjacent to large and mid-sized airways. Immunohistochemistry reveals these cells to be predominantly CD4+ cells, MHC class II+ cells, and B220+ cells. Transgenic mice and nontransgenic mice had similar baseline respiratory system resistance (0.47 +/- 0.06 vs 0.43 +/- 0.04 cmH2O/ml per s at 9 wk of age, P = NS and 0.45 +/- 0.07 vs 0.43 +/- 0.09 cmH2O/ml per s at 17 wk of age, P = NS). Transgenic mice, however, required a significantly higher log dose of methacholine to produce a 100% increase in respiratory system resistance as compared with non-transgenic littermates (1.34 +/- 0.24 vs 0.34 +/- 0.05 mg/ml, P < or = 0.01). We conclude that the expression of human IL-6 in the airways of transgenic mice results in a CD4+, MHC class II+, B220+ lymphocytic infiltrate surrounding large and mid-sized airways that does not alter basal respiratory resistance, but does diminish airway reactivity to methacholine. These findings demonstrate an uncoupling of IL-6-induced airway lymphocytic inflammation and airway hyperresponsiveness and suggest that some forms of airway inflammation may serve to restore altered airway physiology.

Macrophages cultured in vitro release leukotriene B4 and neutrophil attractant/activation protein (interleukin 8) sequentially in response to stimulation with lipopolysaccharide and zymosan.

The capacity of lipopolysaccharide (LPS), zymosan, and calcium ionophore A23187 to induce neutrophil chemotactic activity (NCA), leukotriene B4 (LTB4), and neutrophil attractant/activation protein (NAP-1) release from human alveolar macrophages (AM) retrieved from normal nonsmokers was evaluated. LPS induced a dose-dependent release of LTB4 that began by 1 h, 4.0 +/- 3.2 ng/10(6) viable AM; peaked at 3 h, 24.7 +/- 13.5 ng/10(6) viable AM; and decreased by 24 h, 1.2 +/- 1.0 ng/10(6) viable AM (n = 8). Quantities of LTB4 in cell-free supernatants of AM stimulated with LPS were determined by reverse-phase high-performance liquid chromatography and corresponded well with results obtained by radioimmunoassay. By contrast, NAP-1 release began approximately 3-5 h after stimulation of AM with LPS, 197 +/- 192 ng/ml, and peaked at 24 h, 790 +/- 124 ng/ml. Release of NAP-1 was stimulus specific because A23187 evoked the release of LTB4 but not NAP-1, whereas LPS and zymosan induced the release of both LTB4 and NAP-1. The appearance of neutrophil chemotactic activity in supernatants of AM challenged with LPS for 3 h could be explained completely by the quantities of LTB4 present. After stimulation with LPS or zymosan for 24 h, AM had metabolized almost all generated LTB4. Preincubation of AM with nordihydroguiaretic acid (10(-4) M) completely abolished the appearance of NCA, LTB4, and NAP-1 in supernatants of AM challenged with LPS. Therefore, LPS and zymosan particles were potent stimuli of the sequential release of LTB4 and NAP-1 from AM.

The contribution of alveolar macrophages to hyperreactive airway disease.

Thus, there is substantial evidence that favors a role for macrophages in subjects with atopic asthma. The precise manner in which these cells participate and the relative degree to which these cells contribute to, or orchestrate, events remains to be delineated. Research on the potential role of macrophages in asthma syndromes remains in its infancy. In time we will discover new roles for mononuclear phagocyte-derived mediators and many more new mediators that will play a role in the complex immunologic events ongoing in the airways of patients with asthma. Also, future research will continue to explore what promises to be a productive area of research, namely, cell-cell interactions and the manner in which many cells participate together in the pathophysiology of asthma. If macrophages can be demonstrated to influence airway inflammation associated with atopic disease, they may be appropriate targets for therapeutic intervention.

Histamine levels in bronchoalveolar lavage from patients with asthma, sarcoidosis, and idiopathic pulmonary fibrosis

Bronchoalveolar lavage (BAL) has been used extensively as a research tool to elucidate immunologic events occurring in the lower respiratory tract of patients with numerous diseases and, most recently, to study patients with asthma. We assessed mast-basophiloid cell numbers and histamine levels with a sensitive histamine assay, lower limit of sensitivity, 25 pg/ml, in BAL fluid from normal individuals (n = 9) and compared these results to those obtained from patients with sarcoidosis (n = 31), idiopathic pulmonary fibrosis (IPF) (n = 8), and mild asthma (n = 7). Patients with sarcoidosis demonstrated a significant increase in total BAL mast-basophiloid cells, 9.6 +/- 4.1 X 10(4), compared to total cells in normal individuals, 0.0, p = 0.03, whereas only patients with IPF had significant elevations in BAL histamine levels, 1315 +/- 737 pg/ml, versus levels in normal individuals, 161 +/- 54 pg/ml, p = 0.002. A good correlation existed between histamine levels on an aliquot of lysed BAL cells and BAL histamine levels, R = 0.655 and p = 0.02, but not with either the total number or percent mast-basophiloid cells in BAL assessed on Wrights stained cytocentrifuge preparations. Subjects with asthma had both normal numbers of BAL mast-basophiloid cells and histamine levels. These data suggest that BAL histamine levels are easily quantified, the reason(s) for elevations in BAL histamine levels in IPF need further investigation, BAL histamine levels in subjects with asthma are not elevated in those with mild and stable disease, and lumenal mast-basophiloid cells are one major source of BAL histamine.

Recombinant interferon-gamma primes alveolar macrophages cultured in vitro for the release of leukotriene B4 in response to IgG stimulation.

The capacity of interferon-gamma to regulate the generation and release of leukotriene B4 (LTB4) from human alveolar macrophages of normal nonsmoking individuals was evaluated. When alveolar macrophages were incubated for 60 min with heat aggregated IgG (HAIgG), they generated and released 5.7 +/- 1.7 ng of LT B4 per 10(6) cells compared to 1.9 +/- 0.4 ng from cells incubated with buffer alone, P = 0.02. When alveolar macrophages were preincubated with interferon-gamma for 24 h before activation for 60 min with heat-aggregated IgG, the soluble IgG aggregates became a significantly more effective stimulus for LTB4 release, 17.0 +/- 3.9 ng/10(6) cells, P = 0.001, compared to cells incubated in the absence of interferon-gamma and challenged with HAIgG. Interferon-gamma did not alter the response to A23187. This effect of interferon-gamma was both time and dose dependent; it also was specific since neither interferon-alpha nor interferon-beta had a regulatory effect on the release of LTB4 from cells in response to challenge with HAIgG. Preincubation of the alveolar macrophages with interferon-gamma augmented the density of IgG1 receptors by 81.5 +/- 17.3%; neither interferon-alpha nor interferon-beta effected this parameter. Furthermore, monomeric IgG1 blocked HAIgG induced LTB4 release from alveolar macrophages primed with interferon-gamma. Therefore, at least one of the mechanisms by which interferon-gamma primes alveolar macrophages for the production and release of LTB4 in response to stimulation by aggregates of IgG is that of increasing the number of receptors for this stimulus.

Secretion of Monocyte Chemoattractant Protein-1 (MCP-1) by Human Mononuclear Phagocytes

Concentrations of MCP-1 and NAP-1 in culture fluids of human leukocytes were measured by sandwich ELISA. PPD caused PBMCs from tuberculin-sensitive subjects to secrete MCP-1 and NAP-1. PPD did not stimulate secretion by cells from a tuberculin-negative subject. Since the amounts secreted were more than could be produced by the few PPD-sensitized lymphocytes in the culture, we postulate that other cells were stimulated to secrete these chemoattractants. This study evaluated secretory capacity of one of the cell types in the PBMC culture. Unstimulated monocytes did not secrete MCP-1 or NAP-1. In order of increasing effect, IL-2 + IFN gamma, IL-1 alpha, and LPS caused monocyte secretion of MCP-1. The rank order for NAP-1 secretion was the same. TNF alpha did not cause secretion of MCP-1, but caused about the same amount of NAP-1 secretion as IL-2 + IFN gamma. Composition of the culture medium was especially critical for LPS-induced secretion of MCP-1, which was greatly enhanced by FCS and by Iscoves DMEM compared to RPMI 1640. IL-4 inhibited LPS-induced secretion of both MCP-1 and NAP-1. Secretory patterns were also a function of mononuclear phagocyte phenotype. LPS-induced secretion of MCP-1 was much greater for monocytes cultured several days in CSF-1 than for freshly isolated monocytes. LPS stimulation of bronchoalveolar macrophages caused NAP-1 secretion, but no secretion of MCP-1 above a relatively low baseline level.

Sensitivity of basophils to histamine releasing factor(s) of various origin: Dependency on allergic phenotype of the donor and surface-bound IgE

Certain species of histamine-releasing factor (HRF) have been demonstrated to distinguish a select group of allergic patients from healthy subjects. An IgE-dependent mechanism of action has been suggested. The donor and IgE dependency of HRF produced by peripheral blood mononuclear cells (PBMCs) has not been clearly demonstrated. In this study, we have compared the response of basophils from normal subjects versus allergic patients with and without asthma. In addition, we have addressed the IgE dependency of HRF recovered from cultures of PBMCs, T cells, B cells, macrophages, and bronchoalveolar lavage fluid. We have demonstrated that basophils from allergic as well as normal subjects respond to PBMC-HRF. The response of basophils from allergic patients with asthma is significantly increased. This heightened response to HRF does not correlate with the severity of disease as assessed by baseline spirometry, medication, and skin test scores. Stripping of the membrane-bound IgE by incubating basophils with lactic acid causes a significant loss of sensitivity to HRF generated by PBMCs, T cells, B cells, and macrophages, as well as to HRF recovered from bronchoalveolar fluid. The loss of response can be restored by sera from patients with asthma but not from normal subjects or by myeloma IgE. In addition, poorly responsive basophils from normal subjects can be rendered sensitive by incubating with sera from patients with asthma. The capacity of a given serum from a patient with asthma to restore the response to HRF is not correlated with the total concentration of IgE in the serum.(ABSTRACT TRUNCATED AT 250 WORDS)

The effects of eosinophil-granule major basic protein on lung-macrophage superoxide anion generation

The effects of major basic protein (MBP) on superoxide anion release in vitro from normal guinea pig (GP) alveolar macrophages (AM) was determined. Native MBP at 55 micrograms/ml had an immediate effect (reduction) on phorbol myristate acetate (PMA)-induced (p less than 0.01) and spontaneous (p = 0.055) superoxide (O2-) release by GP AMs. A similar effect was not observed from AMs incubated for 24 hours with MBP before assessment of O2- release. However, after AMs were incubated with MBP for 48 hours, again there was a significant reduction observed in both PMA-induced (p = 0.01) and spontaneous (p = 0.002) O2- release compared to that of control cultures. The immediate effect of MBP on AM O2- release was not due to cytotoxicity of MBP for AM. In contrast, the effect observed after 48 hours of culture was due, in part, to a direct toxic effect of the MBP on the AM because the viability of AM cultured for 48 hours with MBP (55 micrograms/ml) was 63.6% +/- 13% compared to the viability of control cultures of AM that was 83.9% +/- 7%; p = 0.03. The effect of MBP on AM O2- release at 48 hours was progressive over concentrations ranging from 2 to 55 micrograms/ml. These data suggest that native MBP can affect adversely PMA-induced and spontaneous release of O2- by GP AMs and that this effect depends only in part on the cytotoxic properties of MBP.

Lymphocyte subpopulations in the peripheral blood of patients with farmer's lung.

The numbers of mononuclear cells having receptors for sheep red blood cells (T lymphocytes) or complement (B lymphocytes) in the peripheral blood of farmers lung patients were determined. In patients recovering from a clinical episode of farmers lung or exposed to moldy hay or fodder, both the percentage of T lymphocytes and the T lymphocytes per mm3 were reduced, whereas the number of B lymphocytes remained within normal limits. Farmers lung patients having no exposure to moldy hay or fodder had T and B lymphocyte numbers similar to a normal population.

Gram Staining of Pneumocystis Sporozoites

Excerpt To the editor: Recently, Macher and coworkers (1) have described the usefulness of gram-staining touch preparations of lung biopsy material for the diagnosis ofPneumocystis cariniipneumonia...