期刊
JOURNAL OF IMMUNOLOGY
卷 177, 期 7, 页码 4853-4860出版社
AMER ASSOC IMMUNOLOGISTS
DOI: 10.4049/jimmunol.177.7.4853
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资金
- NHLBI NIH HHS [T32 HL 07829, HL 077806, HL 60678, HL 46350] Funding Source: Medline
Caveolin-1, the principal structural and signaling protein of caveolae, is implicated in NO-mediated cell signaling events, but its precise role in inflammation is not well understood. Using caveolin-1-knockout (Cav-1(-/-)) mice, we addressed the role of caveolin-1 in the lung inflammatory response to sepsis induced by i.p. injection of LPS. LPS-challenged wild-type (WT) lungs exhibited significant increases in neutrophil sequestration (-16-fold), lung microvascular permeability K-f,K-c (similar to 5.7-fold), and edema formation (similar to 1.6-fold). Compared with WT, Cav-1(-/-) lungs showed marked attenuation of LPS-induced neutrophil sequestration (similar to 11-fold increase) and inhibition of microvascular barrier breakdown and edema formation. Prevention of lung injury in Cav-1(-/-) mice was associated with decreased mortality in response to LPS challenge. To address the basis of the reduced inflammation and injury in Cav-1(-/-) lungs, we examined the role of NO because its plasma concentration is known to be increased in Cav-1(-/-) mice. Cav-1(-/-) mouse lungs demonstrated a significant increase in endotheliall NO synthase (eNOS)-derived NO production relative to WT, which is consistent with the role of caveolin-1 as a negative regulator of eNOS activity. Cav-1(-/-) lungs concurrently showed suppression of NF-kappa B activity and decreased transcription of inducible NO synthase and ICAM-1. Co-administration of LPS with the NO synthase inhibitor nitro-L-arginine in Cav-1(-/-) mice prevented the suppression of NF-kappa B activity and restored lung polymorphonuclear leukocyte sequestration in response to LPS challenge. Thus, caveolin-1, through its ability to regulate eNOS-derived NO production, is a crucial determinant of NF-kappa B activation and the lung inflammatory response to LPS.
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