Hee Jun Na scite author profile

Abstractβ-Carotene has shown antioxidant and antiinflammatory activities; however, its molecular mechanism has not been clearly defined. We examined in vitro and in vivo regulatory function of β-carotene on the production of nitric oxide (NO) and PGE2 as well as expression of inducible NO synthase (iNOS), cyclooxygenase-2, TNF-α, and IL-1β. β-Carotene inhibited the expression and production of these inflammatory mediators in both LPSstimulated RAW264.7 cells and primary macrophages in a dose-dependent fashion as well as in LPS-administrated mice. Furthermore, this compound suppressed NF-κB activation and iNOS promoter activity in RAW264.7 cells stimulated with LPS. β-Carotene blocked nuclear translocation of NF-κB p65 subunit, which correlated with its inhibitory effect on IκBα phosphorylation and degradation. This compound directly blocked the intracellular accumulation of reactive oxygen species in RAW264.7 cells stimulated with LPS as both the NADPH oxidase inhibitor diphenylene iodonium and antioxidant pyrrolidine dithiocarbamate did. The inhibition of NADPH oxidase also inhibited NO production, iNOS expression, and iNOS promoter activity. These results suggest that β-carotene possesses anti-inflammatory activity by functioning as a potential inhibitor for redox-based NF-κB activation, probably due to its antioxidant activity.

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Antiangiogenic activity of 4-O-methylgallic acid from Canavalia gladiata, a dietary legume

Jeon

Kim

et al. 2005

Biochemical and Biophysical Research Communications

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Inhibition of Farnesyltransferase Prevents Collagen-Induced Arthritis by Down-Regulation of Inflammatory Gene Expression through Suppression of p21ras-Dependent NF-κB Activation

Na¹,

Lee²,

Kang³

et al. 2004

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Farnesylation of p21ras is an important step in the intracellular signaling pathway of growth factors, hormones, and immune stimulants. We synthesized a potent and selective farnesyltransferase inhibitor (LB42708) with IC50 values of 0.8 nM in vitro and 8 nM in cultured cells against p21ras farnesylation and examined the effects of this inhibitor in the settings of inflammation and arthritis. LB42708 suppressed NF-κB activation and iNOS promoter activity by suppressing the I-κB kinase activity and I-κBα degradation. The inhibitor suppressed the expression of inducible NO synthase, cyclooxygenase-2, TNF-α, and IL-1β and the production of NO and PGE2 in immune-activated macrophages and osteoblasts as well as LPS-administrated mice. Furthermore, in vivo administration of LB42708 significantly decreased the incidence and severity of arthritis as well as mRNA expression of inducible NO synthase, cyclooxygenase-2, TNF-α, and IL-1β in the paws of collagen-induced arthritic mice compared with controls. These observations indicate that the anti-inflammatory and antiarthritic effects of the farnesyltransferase inhibitor may be ascribed to the inhibition of I-κB kinase activity and subsequent suppression of NF-κB-dependent inflammatory gene expression through the suppression of p21ras farnesylation. Together, these findings reveal that the inhibitory effect of LB42708 on p21ras-dependent NF-κB activation may have potential therapeutic value for arthritis and other inflammatory diseases.

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4-O-Methylgallic acid suppresses inflammation-associated gene expression by inhibition of redox-based NF-κB activation

Lee

et al. 2006

International Immunopharmacology

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Hee Jun Na

The non-provitamin A carotenoid, lutein, inhibits NF-κB-dependent gene expression through redox-based regulation of the phosphatidylinositol 3-kinase/PTEN/Akt and NF-κB-inducing kinase pathways: Role of H2O2 in NF-κB activation

β-Carotene inhibits inflammatory gene expression in lipopolysaccharide-stimulated macrophages by suppressing redox-based NF-κB activation

Antiangiogenic activity of 4-O-methylgallic acid from Canavalia gladiata, a dietary legume

Inhibition of Farnesyltransferase Prevents Collagen-Induced Arthritis by Down-Regulation of Inflammatory Gene Expression through Suppression of p21ras-Dependent NF-κB Activation

4-O-Methylgallic acid suppresses inflammation-associated gene expression by inhibition of redox-based NF-κB activation

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