Erdosteine is widely used as a mucolytic agent and also has free radical scavenging and antioxidant activities. However, little is known about the mechanisms of the anti-inflammatory effect of erdosteine. We investigated the effect of erdosteine on the activation of the nuclear factor (NF)-kB/inhibitor of NFkB (IkB), and the mitogen-activated protein kinase (MAPK) and Akt pathways in the mouse macrophage cell line RAW 264.7. Cultured RAW 264.7 cells were pretreated with erdosteine and stimulated with lipopolysaccharide (LPS). In Western blotting, pretreatment with erdosteine inhibited the IkBα degradation induced in RAW 264.7 cells by LPS. LPS-induced IkB kinase (IKK) activity and NF-kB transcription were inhibited by pretreatment with erdosteine. Production of IL-6 and IL-1β was also inhibited by erdosteine pretreatment. However, erdosteine did not inhibit LPS-induced phosphorylation of Akt and MAPKs. These results suggest that the anti-inflammatory effect of erdosteine in mouse macrophages is mediated through inhibition of LPS-induced NF-kB activation.
Background: TRAIL is a cytokine that selectively induces apoptosis in various cancer cell lines. Gefitinib is new targeted drug applied in lung cancer that selectively inhibits EGFR tyrosine kinase. However, lung cancers have shown an initial or acquired resistance to these drugs. This study examined the effect of IGF-1R and its blockade on enhancing the sensitivity of lung cancer cell lines to TRAIL and gefitinib. Methods: Two lung cancer cell lines were used in this study. NCI H460 is very sensitive to TRAIL and gefitinib. On the other hand, A549 shows moderate resistance to TRAIL and gefitinib. The IGF-1R blockade was performed using adenoviruses expressing the dominant negative IGF-1R and shRNA to IGF-1R and AG1024 (IGF-1R tyrosine kinase inhibitor). Results: The adenovirus expressing dominant negative IGF-1R(950st) induced the increased expression of defective IGF-1R on the lung cancer cell surface, and the adenovirus-shIGF-1R effectively decreased the level of IGF-1R expression on cell surface. The genetic blockade of IGF-1R by the adenovirus-dnIGF-1R and AG1024 increased the sensitivity of A549 cells to TRAIL. The reduction of IGF-1R by transduction with ad-shIGF-1R also increased the sensitivity of the A549 cells to gefitinib. Conclusion:The blockade of IGF-1R through various mechanisms increased the sensitivity of the lung cancer cell line that was resistant to TRAIL and gefitinib. However, further studies using other cell lines showing acquired resistance as well as in vivo animal experiments will be needed. (Tuberc Respir Dis 2007; 63: 42-51)
Purpose:The recent introduction of targeted therapy for non-small cell lung cancer (NSCLC) has changed the paradigm of lung cancer chemotherapy. However, only a small portion of NSCLC patients received the benefit of these new drugs. A proteasome inhibitor (bortezomib) and a histone deacetylase inhibitor (SAHA) were approved for clinical use for treating some hematologic malignancies. In this study, we investigated the combination treatment of bortezomib and SAHA in NSCLC cell lines. Materials and Methods: The combined effects of bortezomib and SAHA on lung cancer cell lines were measured by Calcusyn software. Induction of apoptosis was examined by performing an Annexin V assay. Generation of reactive oxygen species (ROS) and protection by N-acetylcysteine were measured by flow cytometry after staining with DCFH-DA. The effect of the combination of drugs on apoptosis and autophagy was investigated by Western blot assay. Results: Strong synergism was found for the combination of bortezomib and SAHA. The synergistic interaction was mediated by strong apoptosis. Increased ROS generation was partly responsible for the induction of apoptosis, and this was suppressed by the ROS scavenger N-acetylcysteine. Combined treatment induced the strong activation of caspase-3 and the breakdown of the antiapoptotic molecule Bcl-2. Furthermore, increased breakdown of beclin-1, which is known to be an autophagic molecule, was also found. Conclusion: Combination therapy with bortezomib and SAHA showed a strong synergistic antitumor effect on human lung cancer cell lines. Enhanced induction of apoptosis was a responsible mechanism, and this was partly mediated by ROS generation. Further studies are warranted for determining the role of apoptosis and autophagy for this combination therapy. Medicine, 300,
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