3B), whereas the phosphorylation of TBK1, the phosphorylating enz

3B), whereas the phosphorylation of TBK1, the phosphorylating enzyme of IRF-3 [4], was suppressed (Fig. 3C). These results seem to imply that MKK4, MKK6, MKK7, and TBK1 upstream kinase could be directly targeted by this fraction. However, this website we did not observe any inhibitory effect of PPD-SF in a direct enzyme assay

performed with purified MKK4, MKK7, and MKK6, indicating that these enzymes are not targets of PPD-SF. Moreover, we could not test the upstream TBK1-phosphorylating enzyme, because the TBK1-phosphorylating enzymes have not yet been identified [36]. Therefore, we will continue to identify targets specifically inhibited by PPD-SF for the suppression of AP-1 and IRF-3 pathways. Meanwhile, the inhibitory activities of SP600125, a JNK inhibitor, and BX795, a TBK1 inhibitor, on the production of PGE2 (Fig. 3E) strongly suggested the critical involvement of these enzymes in the inflammatory process. Other research groups have also found that the enzymes, JNK and TBK1, play important pathological

roles in many different inflammatory responses and symptoms, such as colitis [37], [38] and [39]. To develop a strong and safe anti-inflammatory remedy, determining whether the preparation is orally active in an in vivo model is critical. selleck products Although orally administered KRG-water extract is reported to have anti-inflammatory activity in a mouse inflammation model with allergic rhinitis [40], whether PPD-SF is able to ameliorate in vivo inflammatory symptoms was examined using a HCl/ethanol-induced mouse gastritis model. As Fig. 4A shows, PPD-SF strongly suppressed the formation of gastric ulcer triggered by Tolmetin HCl/ethanol. In particular, it was also revealed that the level of phospho-JNK2 was markedly decreased by PPD-SF, according to immunoblotting analysis with stomach lysates ( Fig. 4B). Therefore, these results also strongly suggest that PPD-SF can be an orally effective anti-inflammatory preparation

with JNK inhibitory properties. In summary, we found that PPD-SF is capable of diminishing in vitro inflammatory responses mediated by macrophage-like RAW264.7 cells treated with LPS and suppressing in vivo gastritis symptoms induced by HCl/ethanol in mice. Through the analysis of transcription factors and their upstream signaling enzymes, it was demonstrated that c-Jun, ATF-2, and IRF-3 and their upstream activation pathways including p38, JNK, and TBK1 could be targeted by PPD-SF, as summarized in Fig. 5. Therefore, our results strongly suggest that PPD-SF can be developed as a KRG-derived anti-inflammatory remedy. The authors declare that there is no conflict of interests regarding the publication of this paper. This work was supported by a grant (2012-2013) from the Korean Society of Ginseng.

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