The Journal of immunology : official journal of the American Association of Immunologists
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Mycobacterium tuberculosis (M. tb) must cause lung disease to spread. Matrix metalloproteinases (MMPs) degrade the extracellular matrix and are implicated in tuberculosis-driven tissue destruction. We investigated signaling pathways regulating macrophage MMP-1 and -7 in human pulmonary tuberculosis and examine the hypothesis that the antimycobacterial drug p-aminosalicylic acid acts by inhibiting such pathways. ⋯ In vitro, M. tb drives p38 phosphorylation. p38 inhibition suppresses M. tb-dependent MMP-1 secretion by 57.8% and concurrently increases secretion of its specific inhibitor TIMP-1 by 243.7%, demonstrating that p38 activity regulates matrix degradation by macrophages. p38 signals downstream to the cyclooxygenase 2/PGE(2) pathway. p-Aminosalicyclic acid, an agent used to treat drug-resistant tuberculosis, inhibits M. tb-driven MMP-1 but not MMP-7 gene expression and secretion. PAS acts by blocking PGE(2) production without affecting M. tb growth. In summary, p-aminosalicyclic acid decreases MMP-1 activity by inhibiting a p38 MAPK-PG signaling cascade, suggesting that this pathway is a therapeutic target to reduce inflammatory tissue destruction in tuberculosis.
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Peroxisome proliferator-activated receptor gamma (PPARgamma) is constitutively expressed at high levels in healthy alveolar macrophages, in contrast to other tissue macrophages and blood monocytes. PPARgamma ligands have been shown to down-regulate IFN-gamma-stimulated inducible NO synthase (iNOS) in macrophages. Because NO is an important inflammatory mediator in the lung, we hypothesized that deletion of alveolar macrophage PPARgamma in vivo would result in up-regulation of iNOS and other inflammatory mediators. ⋯ To test whether these alterations were due to the lack of PPARgamma, PPARgamma KO mice were intratracheally inoculated with a PPARgamma lentivirus construct. PPARgamma transduction resulted in significantly decreased iNOS and IFN-gamma mRNA expression, as well as reduced BAL lymphocytes. These results suggest that lack of PPARgamma in alveolar macrophages disrupts lung homeostasis and results in a Th1-like inflammatory response.