Early organ-specific endothelial activation during hemorrhagic shock and resuscitation

Multiple organ dysfunction syndrome (MODS) is a complication of hemorrhagic shock (HS) and related to high morbidity and mortality. Interaction of activated neutrophils and endothelial cells is considered to play a prominent role in the pathophysiology of MODS. Insight in the nature and molecular ba...

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Published in:Shock (Augusta, Ga.) Ga.), 2008-02, Vol.29 (2), p.291-299
Main Authors: van Meurs, Matijs, Wulfert, Francis M, Knol, Ageeth J, De Haes, Ann, Houwertjes, Martin, Aarts, Leon P H J, Molema, Grietje
Format: Article
Language:English
Subjects:
Animals
Antigens, CD - genetics
Antigens, CD - metabolism
Brain - metabolism
Cadherins - genetics
Cadherins - metabolism
E-Selectin - genetics
E-Selectin - metabolism
Endothelial Cells - metabolism
Hypoxia - physiopathology
Hypoxia-Inducible Factor 1, alpha Subunit - genetics
Hypoxia-Inducible Factor 1, alpha Subunit - metabolism
Immunohistochemistry
Intercellular Adhesion Molecule-1 - genetics
Intercellular Adhesion Molecule-1 - metabolism
Kidney - metabolism
Liver - metabolism
Lung - metabolism
Male
Mice
P-Selectin - genetics
P-Selectin - metabolism
Platelet Endothelial Cell Adhesion Molecule-1 - genetics
Platelet Endothelial Cell Adhesion Molecule-1 - metabolism
Resuscitation
Reverse Transcriptase Polymerase Chain Reaction
Shock, Hemorrhagic - physiopathology
Vascular Cell Adhesion Molecule-1 - genetics
Vascular Cell Adhesion Molecule-1 - metabolism
Vascular Endothelial Growth Factor A - genetics
Vascular Endothelial Growth Factor A - metabolism
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Summary:Multiple organ dysfunction syndrome (MODS) is a complication of hemorrhagic shock (HS) and related to high morbidity and mortality. Interaction of activated neutrophils and endothelial cells is considered to play a prominent role in the pathophysiology of MODS. Insight in the nature and molecular basis of endothelial cell activation during HS can assist in identifying new rational targets for early therapeutic intervention. In this study, we examined the kinetics and organ specificity of endothelial cell activation in a mouse model of HS. Anesthetized male mice were subjected to controlled hemorrhage to a MAP of 30 mmHg. Mice were killed after 15, 30, 60, or 90 min of HS. After 90 min of hemorrhagic shock, a group of mice was resuscitated with 6% hydroxyethyl starch 130/0.4. Untreated mice and sham shock mice that underwent instrumentation and 90 min of anesthesia without shock served as controls. Gene expression levels of inflammatory endothelial cell activation (P-selectin, E-selectin, vascular cell adhesion molecule 1, and intercellular adhesion molecule 1) and hypoxia-responsive genes (vascular endothelial growth factor and hypoxia-inducible factor 1alpha) were quantified in kidney, liver, lung, brain, and heart tissue by quantitative reverse-transcription-polymerase chain reaction. Furthermore, we examined a selection of these genes with regard to protein expression and localization using immunohistochemical analysis. Induction of inflammatory genes occurred early during HS and already before resuscitation. Expression of adhesion molecules was significantly induced in all organs, albeit to a different extent depending on the organ. Endothelial genes CD31 and VE-cadherin, which function in endothelial cell homeostasis and integrity, were not affected during the shock phase except for VE-cadherin in the liver, which showed increased mRNA levels. The rapid inflammatory activation was not paralleled by induction of hypoxia-responsive genes. This study demonstrated the occurrence of early and organ-specific endothelial cell activation during hemorrhagic shock, as presented by induced expression of inflammatory genes. This implies that early therapeutic intervention at the microvascular level may be a rational strategy to attenuate MODS.
ISSN:1073-2322
DOI:10.1097/shk.0b013e318145a7c1