Effects of histamine-1 receptor antagonism on leukocyte-independent plasma extravasation during endotoxemia

Abstract

The purpose of this study was to investigate the role of histamine in mediating leukocyte-independent microvascular permeability and mast cell activation during endotoxemia. Microvascular permeability and mast cell activity were determined after inhibition of the L-selectin mediated leukocyte-adherence by fucoidin and after inhibition of histamine effects by the histamine H1-receptor antagonist diphenhydramine. In male Wistar rats, leukocyte rolling, leukocyte adherence, microvascular permeability, and mast cell activity were determined in mesenteric postcapillary venules using intravital microscopy. After pretreatment with the histamine H1-receptor antagonist diphenhydramine, animals in the ETX/H1-ANT group received a continuous infusion of endotoxin. Animals in the ETX group underwent the same procedure, but received saline 0.9% instead of diphenhydramine. In both groups, leukocyte adherence was prevented by administration of fucoidin. Animals in the control group received volume-equivalent saline 0.9%. In the endotoxin-challenged groups, fucoidin prevented leukocyte rolling and reduced leukocyte adherence to values comparable to control group. In the ETX group and the ETX/H1-ANT group both microvascular permeability and mast cell activity increased significantly, starting at 60 minutes. Differences in mast cell activity between the ETX group and the ETX/H1-ANT group were significant at 60 minutes and at 120 minutes. Differences in microvascular permeability between the ETX/H1-ANT group and the ETX group were not significant. The leukocyte-independent microvascular damage during early endotoxemia cannot be inhibited efficiently by the H1-receptor antagonist diphenhydramine, indicating that histamine seems to play only a minor role in that pathophysiology. Furthermore, mast cells do not seem to be involved in the development of leukocyte-independent plasma extravasation during endotoxemia.