Article date: February 1989
By: Marco A. Martins, Patricia M.R. Silva, Hugo C. Castro Faria Neto, Patricia T. Bozza, Paulo M.F.L. Dias, Marcia C.R. Lima, Renato S.B. Cordeiro, B. Boris Vargaftig in Volume 96, Issue 2, pages 363-371
The intrapleural injection of Paf‐acether into rats caused, at 30 min, a marked exudation accompanied by a reduction in the pleural leucocyte count. At 6 h, the exudate volume had decreased and a significant increase in the total leucocyte count, particularly eosinophils was noted.
Two Paf‐acether antagonists, WEB 2086 and 48740 RP abrogated the pleural leucopenia observed 30 min after Paf‐acether administration, whereas the exudation was inhibited only by the former. Pleurisy was also reduced by about 60% with dexamethasone, by about 45% with BW 755C or LY 171883, a mixed cyclo‐oxygenase/lipoxygenase inhibitor and a peptido‐leukotriene antagonist respectively, and by about 30% with indomethacin, flurbiprofen or piroxicam.
Repeated daily intrapleural injections of Paf‐acether led to a state of progressive desensitization to Paf‐acether itself, whereas responsiveness to 5‐hydroxytryptamine was maintained. In addition, the Paf‐induced auto‐desensitization was largely inhibited by WEB 2086.
Pleurisy induced by zymosan, but not by carrageenin, was significantly reduced in Paf‐acether‐desensitized animals. These results were consistent with those obtained with WEB 2086 which supressed zymosan‐induced but not carrageenin‐induced pleurisy.
This study suggests that Paf‐acether‐induced pleurisy in the rat may be mediated by lipoxygenase arachidonic acid metabolites and that pleurisy induced by zymosan, but not by carrageenin, is largely dependent upon Paf‐acether.
The intrapleural injection of Paf‐acether into rats caused, at 30 min, a marked exudation accompanied by a reduction in the pleural leucocyte count. At 6 h, the exudate volume had decreased and a significant increase in the total leucocyte count, particularly eosinophils was noted.
Two Paf‐acether antagonists, WEB 2086 and 48740 RP abrogated the pleural leucopenia observed 30 min after Paf‐acether administration, whereas the exudation was inhibited only by the former. Pleurisy was also reduced by about 60% with dexamethasone, by about 45% with BW 755C or LY 171883, a mixed cyclo‐oxygenase/lipoxygenase inhibitor and a peptido‐leukotriene antagonist respectively, and by about 30% with indomethacin, flurbiprofen or piroxicam.
Repeated daily intrapleural injections of Paf‐acether led to a state of progressive desensitization to Paf‐acether itself, whereas responsiveness to 5‐hydroxytryptamine was maintained. In addition, the Paf‐induced auto‐desensitization was largely inhibited by WEB 2086.
Pleurisy induced by zymosan, but not by carrageenin, was significantly reduced in Paf‐acether‐desensitized animals. These results were consistent with those obtained with WEB 2086 which supressed zymosan‐induced but not carrageenin‐induced pleurisy.
This study suggests that Paf‐acether‐induced pleurisy in the rat may be mediated by lipoxygenase arachidonic acid metabolites and that pleurisy induced by zymosan, but not by carrageenin, is largely dependent upon Paf‐acether.
DOI: 10.1111/j.1476-5381.1989.tb11826.x
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