Recombinant IL-3 induces histamine release from human basophils

Human rIL-3 induces histamine release from some human basophils, with cells from atopics responding to a greater extent than non-atopic donors. The dose response curves were highly variable. IL-3 was active on purified basophils and the release process was slower and required more calcium than anti-IgE. Removal of surface IgE from basophils rendered them unresponsive to IL-3. The response could be restored by passive sensitization of basophils with IgE+, IgE known to bind histamine-releasing factors, and not IgE-, IgE unreactive with histamine-releasing factors. Thus, IL-3 uncovers IgE heterogeneity. IL-3 does not, however, directly interact with IgE+. Rather, passive sensitization with IgE+ or stimulation of basophils with low concentrations of several secretagogues renders the cells sensitive to IL-3. IL-3 may well play a pro-inflammatory role by potentiating the effects of IgE+ or various secretagogues.     

Lactoferrin: affinity purification from human milk and polymorphonuclear neutrophils using monoclonal antibody (II 2C) to human lactoferrin, development of an immunoradiometric assay using II 2C, and myelopoietic regulation and receptor-binding characteristics

Several investigators have now confirmed our original report demonstrating the myelopoietic suppressive activity of lactoferrin (LF) in vitro. In order to further clarify this activity, we used the recently produced and purified neutralizing antibody (II 2C) to LF to set up an immunoradiometric assay specific for LF and to affinity purify LF from lysates of peripheral blood polymorphonuclear neutrophils (PMN) obtained from healthy donors. Iron-saturated purified PMN LF was as active as iron-saturated affinity purified milk LF as a suppressor of the release of granulocyte-macrophage colony stimulating factors (GM-CSF) from mononuclear human peripheral blood leukocytes. The activities of both the PMN LF and milk LF were inactivated by preincubation with monoclonal anti-LF antibody (II 2C). In order to evaluate the methods of iron saturation of LF in vitro as measures of their functional activities, milk LF was iron saturated by four different methods, including ferric citrate, ferric ammonium sulphate, ferric chloride with nitriloacetate, and ferric chloride alone. The functional characteristics of all four preparations of LF saturated with iron in vitro were relatively equal and were more active than native LF. Resident mouse peritoneal macrophages separated into subpopulations of GM-CSF-producing cells by velocity sedimentation were evaluated for their LF-receptor binding capacity and for sensitivity to the suppression of GM-CSF release by LF. Iron saturated LF suppressed release of GM-CSF from only those fractions containing LF-receptor bearing cells, although not all fractions containing cells bearing receptors for LF responded to the suppressive activity of LF. These studies provide further evidence for the myelopoietic regulatory activity in vitro of PMN-derived LF, which is mediated through populations of mononuclear phagocytes having receptors for LF.     

Rapid increases in respiratory epithelial permeability occur after intratracheal instillation of PMA

We measured pulmonary epithelial permeability by quantifying the disappearance of two water-soluble compounds, [14C]mannitol and [3H]inulin, after their instillation, with and without phorbol myristate acetate (PMA), into gas-filled perfused (50 ml/min) rabbit lungs in situ. Both tracers disappeared in a monoexponential fashion over 30 min with calculated first-order rate constants (control; n = 11) of 0.0008 +/- 0.0002 and 0.0027 +/- 0.0008 min-1 for inulin and mannitol, respectively. The ratio of the rate constants (3.1 +/- 0.5) was not significantly different from the ratio of diffusivities of mannitol:inulin (3.7). Addition of PMA (250 micrograms) significantly (n = 9, P less than 0.05) increased the rate constants for both inulin and mannitol to 0.0024 +/- 0.0007 and 0.0087 +/- 0.0025 min-1, respectively, while not affecting their ratio (4.3 +/- 0.5). Addition of human leukocytes (4-8 X 10(8)/l) to the perfusate did not exacerbate the effect of 250 micrograms PMA (n = 3). The addition of catalase (n = 7) completely inhibited the effect of 250 micrograms PMA. PMA (250 micrograms) did not significantly affect perfusion pressure but increased wet-to-dry weight ratios. Light microscopic histology showed damage to epithelial and endothelial cells after 250 micrograms PMA which was not seen after coinstillation of catalase. Catalase sensitivity of functional and structural effects of PMA suggests that the effect was secondary to production of hydrogen peroxide. Since this effect was noted in lungs not perfused with neutrophils and addition of leukocytes did not exacerbate the increase in permeability, we hypothesize that an undetermined pulmonary cell type was the source of hydrogen peroxide. Finally, we found no evidence for restrictive pores with radii of 0.4-1.4 nm.     

Properties of avian, bovine and porcine erythrocyte membranes

Bovine, porcine and avian EMP were isolated and compared for some physical and chemical properties. Some differences in the compositions of three EMPs were observed. The avian EMP contained less carbohydrate than the bovine and porcine EMPs. Some differences in the monosaccharide distributions for the three preparations were revealed. The profiles obtained by SDS-polyacrylamide gel electrophoresis of the preparation indicated a complex (and different for each preparation) nature of the component polypeptides and glycopeptides.