Anti-rheumatoid Arthritis Effect of Kaejadan via Analgesic and Antiinflammatory Activity in vivo and in vitro.

Although Kaejadan (KJD), an herbal cocktail of three medicinal plants (Lithospermum erythrorhizon, Cinnamomum loureirii, and Salvia miltiorrhiza), has been traditionally used for the treatment of rheumatoid arthritis, its scientific evidence is not fully understood. Hence, we investigated antiinflammatory and analgesic mechanism of KJD in vivo and in vitro. Kaejadan suppressed the number of writhing responses in mice treated by acetic acid and showed antinociceptive effect by tail-flick test. Kaejadan abrogated serotonin or carrageenan or Freund's complete adjuvant (FCA)-induced paw edema and also reduced the level of Evans Blue for vascular permeability. Furthermore, KJD effectively reduced the positive responses for C-reactive protein and rheumatoid arthritis test in FCA-treated rats. Of note, KJD inhibited the level of lipid peroxide malondialdehyde and enhanced the level of superoxide dismutase in the hepatic tissues of FCA-treated rats. Additionally, KJD abrogated the levels of IL-1ß and IL-6 in lipopolysaccharide and IFN-γ-exposed RAW 264.7 cells. Also, KJD reduced the expression of cyclooxygenase 2 or inducible nitric oxide synthase at protein and mRNA levels in IFN-γ and lipopolysaccharide-exposed RAW 264.7 cells. Overall, our findings demonstrate that KJD exerts antiinflammatory and analgesic effects via enhancement of antioxidant activity and inhibition of proinflammatory cytokines. Copyright © 2017 John Wiley & Sons, Ltd.

Regulation of crosstalk between epithelial to mesenchymal transition molecules and MMP-9 mediates the antimetastatic activity of anethole in DU145 prostate cancer cells.

The underlying antimetastatic mechanism of anethole (1) still remains unclear in association with the molecules of the epithelial to mesenchymal transition (EMT). Herein, the role of the EMT molecules was elucidated in terms of the antimetastatic activity of 1 using DU145 cells. Anethole significantly inhibited the adhesion of DU145 cells to vitronectin-coated plates, as well as migration in a wound-healing assay and invasion using a Boyden chamber. Also, anethole suppressed the expression of MMP-9 in DU145 cells by zymography, ELISA, and RT-PCR. Consistently, the silencing of MMP-9 enhanced the activity of 1 to upregulate the expression of E-cadherin and to attenuate the expression of Vimentin in DU145 cells. Compound 1 enhanced E-cadherin, which is an epithelial marker and attenuated the expression of Vimentin, Twist, and Snail as mesenchymal molecules at the mRNA level. Consistently, anethole upregulated E-cadherin and downregulated the expression of Vimentin, Twist and PI3K, and AKT at the protein level in DU145 cells. Conversely, the antimetastatic effects of 1 to inhibit invasion and the expression of MMP-9 and upregulate E-cadherin were reversed by the EMT inducer TGF-ß in DU145 cells. Overall, the present findings suggest that anethole exerts antimetastatic activity via regulation of crosstalk between EMT molecules and MMP-9 on the basis of the in vitro data obtained.