Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Subepithelial Hydrostatic Pressure May Regulate Plasma Exudation across the Mucosa

Subepithelial Hydrostatic Pressure May Regulate Plasma Exudation across the Mucosa This study demonstrated in guinea pig tracheal tubes in vitro that small increases in serosal hydrostatic pressure caused significant mucosal crossing of serosal macromolecules. Reversibility and repeatabilityof this passage agree with inflammatory stimulus-induced appearance of exuded plasma in airway lumen invivo. Bradykinin, histamine, and terbutaline, which induce and inhibit, respectively, plasma exudation in vivo, were without effect on the present in vitro permeability. Carbachol, similar to histamine, contracted the trachea, and did not increase, but rather decreased the pressure-induced luminal entry of serosal macromolecules.It is proposed that a plasma-exudation-induced hydrostatic pressure load transiently separates epithelial cells, providing a direction-selective and non-injurious intercellular pathway for passage of bulk plasma exudateinto the airway lumen. This mechanism would allow potent plasma protein systems to operate on mucosal surfaces at sites of insults without compromising the mucosa as a barrier to luminal solutes. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png International Archives of Allergy and Immunology Karger

Subepithelial Hydrostatic Pressure May Regulate Plasma Exudation across the Mucosa

Loading next page...
 
/lp/karger/subepithelial-hydrostatic-pressure-may-regulate-plasma-exudation-03CM3plOdo

References

References for this paper are not available at this time. We will be adding them shortly, thank you for your patience.

Publisher
Karger
Copyright
© 1990 S. Karger AG, Basel
ISSN
1018-2438
eISSN
1423-0097
DOI
10.1159/000235206
Publisher site
See Article on Publisher Site

Abstract

This study demonstrated in guinea pig tracheal tubes in vitro that small increases in serosal hydrostatic pressure caused significant mucosal crossing of serosal macromolecules. Reversibility and repeatabilityof this passage agree with inflammatory stimulus-induced appearance of exuded plasma in airway lumen invivo. Bradykinin, histamine, and terbutaline, which induce and inhibit, respectively, plasma exudation in vivo, were without effect on the present in vitro permeability. Carbachol, similar to histamine, contracted the trachea, and did not increase, but rather decreased the pressure-induced luminal entry of serosal macromolecules.It is proposed that a plasma-exudation-induced hydrostatic pressure load transiently separates epithelial cells, providing a direction-selective and non-injurious intercellular pathway for passage of bulk plasma exudateinto the airway lumen. This mechanism would allow potent plasma protein systems to operate on mucosal surfaces at sites of insults without compromising the mucosa as a barrier to luminal solutes.

Journal

International Archives of Allergy and ImmunologyKarger

Published: Jan 1, 1990

There are no references for this article.