Fibrates down-regulate IL-1-stimulated C-reactive protein gene expression in hepatocytes by reducing nuclear p50-NFκB-C/EBP-β complex formation

C-reactive protein (CRIP) is a major acute-phase protein in humans. Elevated plasma CRP levels are a risk factor for cardiovascular disease. CRP is predominantly expressed in hepatocytes and is induced by Interleukin-1 (IL-1) and IL-6 under inflammatory situations, such as the acute phase. Fibrates are hypolipidemic drugs that act through the nuclear receptor peroxisome proliferator-activated receptor-alpha (PPAR-alpha). Fibrates have been shown to reduce elevated CRP levels in humans, but the molecular mechanism is unknown. In this study, we demonstrate that different PPAR-alpha activators suppress IL-1-induced, but not IL-6-induced, expression of CRP in primary human hepatocytes and HuH7 hepatoma cells. Induction of CRP expression by IL-1 occurs at the transcriptional level. Site-directed mutagenesis experiments show that IL-1 induces CRP expression through 2 overlapping response elements, the binding sites for CCAAT-box/enhancer-binding protein-beta (C/EBP-beta) and p50-nuclear factor-kappaB (p50-NFkappaB). Cotransfection of C/EBP-beta and p50-NFkappaB enhances CRP promoter activity, and coimmunoprecipitation experiments indicate that the increase in CRP promoter activity by IL-1 is related to the generation and nuclear accumulation of C/EBP-beta-p50-NFkappaB complexes. Interestingly, PPAR-alpha activators reduce the formation of nuclear C/EBP-beta-p50-NFkappaB complexes, and thereby CRP promoter activity, by 2 mechanisms. First, PPAR-alpha increases IkappaB-alpha expression and thus prevents p50-NFkappaB translocation to the nucleus. Second, fibrates decrease hepatic C/EBP-beta and p50-NFkappaB protein levels in mice in a PPAR-alpha-dependent way. Our findings identify C/EBP-beta and p50-NFkappaB as novel targets for PPAR-alpha, and provide a molecular explanation for the reduction of plasma CRP levels by fibrates. (C) 2003 by The American Society of Hematology.