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Abstract Title:

Sensitization of lung cancer cells to cisplatin byβ-elemene is mediated through blockade of cell cycle progression: antitumor efficacies of β-elemene and its synthetic analogs.

Abstract Source:

Med Oncol. 2013 Mar ;30(1):488. Epub 2013 Feb 9. PMID: 23397083

Abstract Author(s):

Q Quentin Li, Gangduo Wang, Furong Huang, Jueli M Li, Christopher F Cuff, Eddie Reed

Article Affiliation:

Q Quentin Li

Abstract:

The development of effective agents for overcoming platinum chemoresistance in lung carcinoma continues to have high priority. We have demonstrated recently thatβ-elemene, a novel antitumor compound, enhances cisplatin activity by triggering lung cancer cell death via apoptosis. Here, we investigated whether β-elemene acts synergistically with cisplatin to inhibit non-small cell lung cancer (NSCLC) cell proliferation by blocking cell cycle progression. β-Elemene substantially increased the suppressive effect of cisplatin on cell growth and proliferation in the NSCLC cell lines H460 and A549. Furthermore, β-elemene augmented cisplatin in the cell cycle arrest of NSCLC cells at G(2)/M. This was associated with upregulated checkpoint kinase (CHK2) expression and reduced CDC2 activity (i.e., increased phosphorylation of CDC2 on Tyr-15 and decreased phosphorylation of CDC2 on Thr-161). Moreover, β-elemene and cisplatin in combination clearly decreased the protein levels of cyclin B1 and CDC25C and increased the levels of p21(Cip1/Waf1), p27(Kip1), and GADD45 in these cells, compared with the effects of either agent alone at the same concentration. These results suggest that the β-elemene-enhanced inhibitory effect of cisplatin on lung carcinoma cell proliferation is regulated by a CHK2-mediated CDC25C/CDC2/cyclin B1 signaling pathway andleads to the blockade of cell cycle progression at G(2)/M. A comparison of the cytotoxic efficacies of β-elemene and three synthetic analogs (β-elemenol, β-elemenal, and β-elemene fluoride) in the two lung cancer cell lines revealed that β-elemenol and β-elemene fluoride had the same antitumorefficacy as β-elemene, whereas β-elemenal was appreciably more potent than β-elemene. Thus, although all three synthetic analogs of β-elemene considerably suppressed NSCLC cell growth and proliferation, β-elemenal may have greater potential as an anticancer alternative to β-elemene in treating lung cancer and other tumors.

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