Cyclic GMP/protein kinase G type-Iα (PKG-Iα) signaling pathway promotes CREB phosphorylation and maintains higher c-IAP1, livin, survivin, and Mcl-1 expression and the inhibition of PKG-Iα kinase activity synergizes with cisplatin in non-small cell lung cancer cells

Previously, our laboratory showed that nitric oxide (NO)/cyclic GMP (cGMP)/protein kinase G type‐Iα (PKG‐Iα) signaling pathway plays an important role in preventing spontaneous apoptosis and promoting cell proliferation in both normal cells (bone marrow stromal cells and vascular smooth muscle cells) and certain cancer cells (ovarian cancer cells). In the present study, we investigated the novel role of the cGMP/PKG‐Iα pathway in preventing spontaneous apoptosis, promoting colony formation and regulating phosphorylation of cAMP response element binding (CREB) protein and protein expression of inhibitor of apoptosis proteins (IAPs) and anti‐apoptotic Bcl‐2‐related proteins in NCI‐H460 and A549 non‐small cell lung cancer (NSCLC) cells. 1H‐(1,2,4)oxadiazolo(4,3‐a)quinoxalin‐1‐one (ODQ), which blocks endogenous NO‐induced activation of cGMP/PKG‐Iα, induced apoptosis and decreased colony formation. ODQ also decreased CREB ser133 phosphorylation and protein expression of c‐IAP1, livin, and survivin. DT‐2 (inhibitor of PKG‐Iα kinase activity) increased apoptosis by twofold and decreased CREB ser133 phosphorylation and c‐IAP1, livin, and survivin expression. Gene knockdown of PKG‐Iα expression using small‐interfering RNA increased apoptosis and decreased CREB ser133 phosphorylation, and c‐IAP1, livin, survivin, and Mcl‐1 expression. Inhibition of PKG‐Iα kinase activity with DT‐2 dramatically enhanced pro‐apoptotic effects of the chemotherapeutic agent cisplatin. Combined treatment of DT‐2 and cisplatin increased apoptosis compared with cisplatin or DT‐2 alone, showing a synergistic effect. The data suggest that the PKG‐Iα kinase activity is necessary for maintaining higher levels of CREB phosphorylation at ser133 and protein expression of c‐IAP1, livin, survivin, and Mcl‐1, preventing spontaneous apoptosis and promoting colony formation in NSCLC cells, which may limit the effectiveness of chemotherapeutic agents like cisplatin. J. Cell. Biochem. 113: 3587–3598, 2012. © 2012 Wiley Periodicals, Inc.     

Restoration of miR-34a in p53 deficient cells unexpectedly promotes the cell survival by increasing NFκB activity

Upregulation of miR-34a by p53 is recently believed to be a key mediator in the pro-apoptotic effects of this tumor suppressor. We sought to determine whether restoration of miR-34a levels in p53 deficient cells could rescue the response to DNA damage. Compared with the p53 wildtype U2OS cells, miR-34a expression was much lower in p53 deficient Saos2 cells upon cisplatin treatment. Unexpectedly, delivery of miR-34a in Saos2 cells does not increase the cell sensitivity to apoptosis. This effect was mediated by direct downregulation of SirT1 expression by miR-34a, which in turn increased the NFκB activity. Inhibition of NFκB activity in Saos2 cells by Aspirin sensitized the miR-34a overexpressing cells to cell death. Thus, in tumors with p53 deficiency, miR-34a restoration alone confers drug resistance through Sirt1-NFκB pathway and combination of miR-34a and NFκB inhibitor could be considered as a promising therapeutic strategy.