• J. Surg. Res. · Nov 2007

    Gelsolin is depleted in post-shock mesenteric lymph.

    • Janeen R Jordan, Ernest E Moore, Sagar S Damle, Phillip Eckels, Jeffrey L Johnson, Jonathan P Roach, Jasmina S Redzic, Kirk C Hansen, and Anirban Banerjee.
    • Department of Surgery, University of Colorado Health Science, Denver, Colorado 80204, USA.
    • J. Surg. Res. 2007 Nov 1;143(1):130-5.

    BackgroundGelsolin is a plasma protein that functions to depolymerize actin filaments preventing capillary plug formation following tissue injury. It also functions to mediate the inflammatory response by binding proinflammatory lipids such as lysophosphatidic acid, sphingosine-1-phosphate and phosphoinositides. Clinically, reduced gelsolin concentrations have been associated with increased mortality in critically ill, trauma, and burn patients. We have previously shown that following hemorrhagic shock with splanchnic hypoperfusion, mesenteric lymph contains lipid components that cause neutrophil and EC activation and that protein concentrations are severely diluted due to resuscitation. We hypothesized that lipid binding proteins such as gelsolin may be depleted after trauma/hemorrhagic shock leading to increased lipid bioactivity.MethodsShock was induced in SD rats by controlled hemorrhage and the mesenteric duct cannulated for lymph collection. Resuscitation was performed by infusing 2x SB volume in NS over 30 min, followed by 1/2 SB volume over 30 min, then 2x SB volume in NS over 60 min. Pre and post-shock lymph was loaded at equal protein concentrations on 2D-gels, followed by trypsin digestion and identification with mass spectrometry (MS-MS). Proteomics data were confirmed with Western blotting then quantitated by densitometry. Analysis of variance was used evaluate statistical data.ResultsGelsolin decreased in mesenteric lymph following hemorrhagic shock.ConclusionsGelsolin is found at high levels (comparable to plasma) in mesenteric lymph. Following hemorrhagic shock, gelsolin levels decrease significantly, possibly due to consumption by the actin scavenging system. The magnitude of this change in concentration could release lipid bioactivity and predispose the lung and other organs to capillary injury.

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