The mechanism by which Bordetella pertussis organisms and their products induce lymphocytosis in mice was analyzed in terms of the localization of syngeneic Cr-51-labeled lymph node cells. Labeled lymphoid cells incubated in vitro with the supernatant of B. pertussis cultures and then injected intravenously into normal recipients, or labeled cells injected into pertussis-treated recipients were unable to "home" to lymphoid organs but persisted for long periods in the blood. In animals "equipped" with a population of Cr-51-labeled lymphoid cells, administration of B. pertussis organisms or culture supernatant effected a shift of radioactivity from lymph nodes and spleen into the peripheral blood, coincident with the lymphocytosis. In in vitro experiments it was found that the active principle could bind to both erythrocytes and lymphocytes and could spontaneously elute from these cells onto labeled lymphocytes which were then unable to home efficiently. The data suggest that Bordetella pertussis-induced lymphocytosis involves a reversible attachment of the pertussis factor onto the surfaces of lymphocytes which prevents their recirculation to lymphoid organs. Recirculating lymphocytes are presumably affected as they emerge from lymphoid organs to enter the blood.
Single clinical isolates of eight species of microorganisms were incubated in solutions of heparin and brain heart infusion broth at various concentrations to determine the possible antibacterial effect of heparin. At heparin concentrations ranging from 12.5 to 400 U/ml, the effect on Escherichia coli, Pseudomonas aeruginosa, Candida albicans, Staphylococcus aureus, and S. epidermidis varied with brain heart infusion broth concentrations of 1.2 to 10% and inocula of 102 to 106 colony-forming units per ml; similar effects were not observed with Klebsiella pneumoniae, Enterobacter aerogenes, and Citrobacter spp. The minimal inhibitory concentrations of heparin for ten strains of each species were determined in 2.5% brain heart infusion broth with inocula of 104 colony-forming units per ml. All 10 isolates of S. aureus and all 10 of S. epidermidis were inhibited by heparin concentrations of 125 to 500 U/ml. Three E. coli, four P. aeruginosa, and nine C. albicans strains were inhibited by c500 U of heparin per ml. None of the K. pneumoniae, E. aerogenes, Enterobacter cloacae, and Citrobacter spp. was inhibited by heparin at <500 U/ml. Heparin inhibition of S. aureus in 2.5% brain heart infusion broth-500 U of heparin per ml could be quantitatively overcome by addition of magnesium, calcium, or magnesium and calcium. These data suggest that the growth of microorganisms from heparin-containing material may be suppressed.
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