J Trauma
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We previously reported enhanced expression of nuclear factor kappa B (NF-kappaB) in activated polymorphonuclear leukocytes (PMNLs) from patients with systemic inflammatory response syndrome (SIRS). Inflammatory response, however, is not regulated only by stimulatory transcription factors. Glucocorticoid receptor (GR) has been recently reported to play an important role in anti-inflammatory signal transduction. The objective of our study was to evaluate the balance between expression of intranuclear NF-kappaB and GR in PMNLs from SIRS patients. ⋯ In activated PMNLs from SIRS patients, levels of both intranuclear NF-kappaB and GR were elevated and strongly correlated. In trauma patients, NF-kappaB and GR in PMNLs changed serially with strong mutual correlation. Further studies are needed to clarify the effect of the balance of NF-kappaB and GR on PMNL activation and systemic inflammatory process.
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Hypertonic saline (HS) and pentoxifylline (PTX) have been shown to modulate polymorphonuclear neutrophil (PMN) functions after shock and sepsis. We hypothesized that a combination of HS and PTX (HSPTX) would down-regulate PMN functions and inflammatory mediator synthesis more effectively than each alone, possibly by acting at different steps of the signaling pathways, ultimately leading to an enhanced effect. ⋯ HSPTX down-regulates neutrophil activation and proinflammatory mediator synthesis more effectively that HS alone. HSPTX may have significant applications as a novel fluid resuscitation strategy in hemorrhagic shock.
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Endothelial cell receptors involved in post-injury/sepsis fluid extravasation are coupled to G-proteins that stimulate production of cGMP and cAMP. We hypothesize that cGMP and cAMP are endothelial second messengers that control microvascular permeability. The purposes of this series of experiments are to determine microvascular permeability under the following conditions: 1) reduced cGMP levels, 2) elevated cGMP levels, 3) reduced cAMP levels, and 4) elevated cAMP levels. ⋯ The second messengers, cGMP and cAMP, contribute to the control mechanisms that govern fluid leak across the endothelial barrier: cGMP increases microvascular permeability, while cAMP decreases microvascular permeability. Endothelial cell cyclic nucleotide second messengers are pharmacologically accessible and may be targeted during post-injury/sepsis-associated microvascular fluid leak.