1. Estrogenic Hormone Modulation Abrogates Changes in Red Blood Cell Deformability and Neutrophil Activation in Trauma Hemorrhagic Shock
- Author
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Iriana Colorado, Danielle Doucet, Edwin A. Deitch, George W. Machiedo, Carl J. Hauser, Da-Zhong Xu, R Paul Bonitz, Michael R. Condon, Mahdury Ramanathan, Eleanora Feketeova, and Rena Feinman
- Subjects
medicine.medical_specialty ,Neutrophils ,medicine.drug_class ,Ovariectomy ,Estrogen receptor ,Shock, Hemorrhagic ,Critical Care and Intensive Care Medicine ,Article ,Neutrophil Activation ,Rats, Sprague-Dawley ,Sepsis ,Phenols ,Erythrocyte Deformability ,Internal medicine ,Nitriles ,medicine ,Animals ,Estrogen Receptor beta ,Erythrocyte deformability ,Shock, Traumatic ,Estrogen receptor beta ,Respiratory Burst ,business.industry ,Organ dysfunction ,Estrogen Receptor alpha ,medicine.disease ,Rats ,Endocrinology ,Estrogen ,Pyrazoles ,Female ,Surgery ,Propionates ,medicine.symptom ,Multiple organ dysfunction syndrome ,business ,Estrogen receptor alpha - Abstract
Organ failure is a common cause of morbidity and mortality in patients sustaining major trauma, and hence, the pathophysiology of trauma-induced organ injury and dysfunction has been an important line of research.1 Based on these trauma studies, it is clear that shock-induced changes and trauma-induced changes in neutrophil activation are involved in the pathogenesis of the adult respiratory distress syndrome and contribute to the development of the multiple organ dysfunction syndrome.1 Likewise, recent work suggests that impaired red blood cell (RBC) deformability, which occurs in sepsis, after trauma, and during shock states,2–4 contributes to the development of multiple organ dysfunction syndrome by impairing tissue microvascular blood flow.5 Consequently, understanding the factors that modulate the magnitude and extent of neutrophil activation and RBC deformability might provide important insights into ways to limit post-trauma organ dysfunction.1 Because gender and sex hormones have been shown to modulate the development of organ injury as well as the immune system in preclinical models of trauma-hemorrhagic shock (T/HS)6–10 and in some but not all clinical studies,11 we have been interested in investigating the effects of gender and sex hormones on T/HS-induced changes in neutrophil and RBC function. Our earlier studies documented that neutrophil activation12 and RBC rigidification13 were reduced in female as opposed to male rats subjected to T/HS and that estrogen played a protective role in these studies. Because the beneficial effects of estrogen (17β-estradiol) seem to occur through high-affinity estrogen receptors (ER), the major goal of this study was to investigate the relative role that each of the two principal ERs (ER-α and -β) played in protecting against trauma-shock-induced RBC dysfunction, as measured by RBC deformability and neutrophil activation. To accomplish this goal, we administered either the ER-α agonist propyl pyrazole triol (PPT) or the ER-β agonist diarylpropiolnitrile (DPN) to ovariectomized (OVX) rats. These agents were chosen as PPT has a 410-fold higher binding affinity preference for ER-α over ER-β,14 whereas DPN exhibits a 70-fold higher binding affinity to ER-β than ER-α.15
- Published
- 2010