Hydrocortisone inhibits rat basophilic leukemia cell mediator release induced by neutrophil-derived histamine releasing activity as well as by anti-IgE. |
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Authors: | M V White Y Igarashi J D Lundgren J Shelhamer M Kaliner |
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Institution: | National Institutes of Health, National Institute of Allergy and Infectious Diseases, Allergic Diseases Section, Bethesda, MD 20892. |
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Abstract: | We determined the ability of hydrocortisone to inhibit rat basophilic leukemia cell mediator release induced by anti-IgE and by neutrophil-derived histamine-releasing activity (HRA-N). Serotonin release induced by HRA-N and anti-IgE was inhibited by 78 +/- 5 and 70 +/- 4%, respectively (IC50 7.5 x 10(-7)M) by hydrocortisone (10(-5)M). HRA-N does not cause arachidonic acid metabolism, however, anti-IgE induced the generation of PGD2 and leukotriene (LT)C4, and the generation of both mediators was inhibited by 10(-5)M hydrocortisone (IC50 = 4.8 x 10(-7)M, and 3.6 x 10(-9)M, respectively). Inhibition required at least 5 to 6 h of hydrocortisone exposure and was maximal after 22 h. The observed effects of hydrocortisone could be reproduced by human recombinant lipocortin-I (5 x 10(-7)M). Hydrocortisone, 10(-5)M, was a less potent inhibitor of calcium ionophore A23187-mediated serotonin release and PGD2 and LTC4 generation (inhibition of 20 +/- 2, 17 +/- 10, and 37 +/- 10%, respectively). Inasmuch as A23187-induced stimulation is not dependent on receptor coupling, the enhanced ability of hydrocortisone to inhibit IgE- and HRA-N-mediated events as compared with A23187 suggests that one possible site of action of hydrocortisone may be interruption of receptor-effector signals. In the presence of arachidonic acid, hydrocortisone-treated cells released as much LTB4 and PGD2 as control cells, however, serotonin release and LTC4 generation were inhibited 50 and 55%, respectively. Thus, these data suggest that hydrocortisone has three possible sites of action: 1) inhibition of phospholipase A2 activity, 2) inhibition of glutathione-s-transferase, and 3) inhibition of serotonin release by a third mechanism, possibly by interrupting the coupling of receptor and effector systems. |
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