Ventilation-Induced Chemokine and Cytokine Release Is Associated with Activation of Nuclear Factor-{kappa}B and Is Blocked by Steroids

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Ventilation-Induced Chemokine and Cytokine Release Is Associated with Activation of Nuclear Factor- $kappa$ B and Is Blocked by Steroids

HEINZ-DIETER HELD, SILKE BOETTCHER, LUTZ HAMANN, and STEFAN UHLIG

Divisions of Pulmonary Pharmacology and Cellular Immunology, Research Center Borstel, Borstel, Germany

Recent clinical trials have shown that the survival of patients with acute respiratory distress syndrome (ARDS) is improvedby ventilation with reduced volumes. These studies suggested thatoverinflation of the lungs causes overactivation of the immunesystem. The present study investigated the hypothesis that ventilationwith increased tidal volumes results in early responses similarto those caused by stimulation with one of the major risk factorsfor ARDS: bacterial lipopolysaccharide (LPS). We therefore comparedthe effects of ventilation ( $-$ 10 cm H₂O or $-$ 25 cm H₂O end-inspiratorypressure) and LPS (50 µg/ml) on nuclear factor (NF)- $kappa$ B activation,chemokine release, and cytokine release in isolated perfused lungsobtained from BALB/C mice. We found that both LPS and ventilationwith $-$ 25 cm H₂O (overventilation; OV) caused translocation ofNF- $kappa$ B, which was abolished by pretreatment with the steroid dexamethasone.Furthermore, both treatments resulted in similar increases inperfusate levels of $alpha$ -chemokines (macrophage inflammatory protein;[MIP]-2; KC), $beta$ -chemokines (macrophage chemotactic protein-1;MIP-1 $alpha$ ), and cytokines (tumor necrosis factor- $alpha$ , interleukin-6),which were largely prevented by dexamethasone pretreatment. InLPS-resistant C3H/HeJ mice, only OV, and not LPS, caused translocationof NF- $kappa$ B and release of MIP-2. We conclude that OV evokes earlyinflammatory responses similar to those evoked by LPS (i.e., NF- $kappa$ Btranslocation and release of proinflammatory mediators). The NF- $kappa$ Btranslocation elicited by OV appears to be independent of Toll-likereceptor 4 and not due to LPS contamination introduced by theventilator. Our data further suggest that steroids might be consideredas a subsidiary treatment during artificial mechanicalventilation.

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