New Mechanism Based Anticancer Drugs for Treatment of Pancreatic and Bladder Cancers

Methyl 2-cyano-3,11-dioxo-18b-olean-1,12-dien-30-oate (CDODA-Me) is a synthetic triterpenoid that inhibits growth of Panc1 and Panc28 pancreatic cancer cell lines and activates peroxisome proliferator-activated receptor B (PPARB)-dependent transactivation in these cells. CDODA-Me has also induced p21 and p27 protein expression and downregulated cyclin D1; however, these responses were receptor-independent. CDODA-Me induced apoptosis, which was accompanied by receptor-independent induction of the proapoptotic proteins early growth response-1 (Egr-1), nonsteroidal anti-inflammatory drug-activated gene-1 (NAG-1), and activating transcription factor-3 (ATF3). Induction of NAG-1 in Panc28 cells was p38-mitogen-activated protein kinase (MAPK) and phosphatidylinositol-3-kinase (PI3-K)-dependent, but Egr-1-independent, whereas induction in Panc1 cells was associated with activation of p38-MAPK, PI3-K and p42-MAPK and was only partially Egr-1-dependent. Specificity protein (Sp) transcription factors Sp1, Sp3 & Sp4 are overexpressed in multiple tumor types and negative prognostic factors for survival. Since Sp proteins regulate genes associated with survival (survivin), angiogenesis [vascular endothelial growth factor and its receptors] and growth [cyclin D1, epidermal growth factor receptor], research in this laboratory has focused on development of anticancer drugs that decrease Sp protein expression. Arsenic trioxide, curcumin, 2-cyano-3,12-dioxoleana-1,9-dien-28-oic acid (CDDO), CDDO-Me, and celastrol exhibit antiproliferative, antiangiogenic and proapoptotic activity in many cancer cells and tumors. Treatment of cancer cells derived from urologic and gastrointestinal tumors with arsenic trioxide decreased Sp1, Sp3 and Sp4 transcription factors and cotreatment with the proteosome inhibitor MG132 did not inhibit downregulation of Sp proteins in these cancer cells. Mechanistic studies suggested that compound-dependent downregulation of Sp and Sp-dependent genes was due to decreased mitochondrial membrane potential and induction of reactive oxygen species, and the role of peroxides in mediating these responses was confirmed using hydrogen peroxide, demonstrating that the mitochondriotoxic effects of these compounds are important for their anticancer activities. Moreover, repression of Sp and Sp-dependent genes by CDDO-Me and celastrol was due to downregulation of microRNA-27a and induction of ZBTB10, an Sp repressor, and these responses were also reversed by antioxidants. Thus, the anticancer activity of CDDO-Me and celastrol is due, in part, to activation of ROS which in turn targets the microRNA-27a:ZBTB10?Sp transcription factor axis to decrease growth inhibitory, pro-apoptotic and antiangiogenic genes and responses

Aspirin Inhibits Colon Cancer Cell and Tumor Growth and Downregulates Specificity Protein (Sp) Transcription Factors

Acetylsalicylic acid (aspirin) is highly effective for treating colon cancer patients postdiagnosis; however, the mechanisms of action of aspirin in colon cancer are not well defined. Aspirin and its major metabolite sodium salicylate induced apoptosis and decreased colon cancer cell growth and the sodium salt of aspirin also inhibited tumor growth in an athymic nude mouse xenograft model. Colon cancer cell growth inhibition was accompanied by downregulation of Sp1, Sp3 and Sp4 proteins and decreased expression of Sp-regulated gene products including bcl-2, survivin, VEGF, VEGFR1, cyclin D1, c-MET and p65 (NFκB). Moreover, we also showed by RNA interference that β-catenin, an important target of aspirin in some studies, is an Sp-regulated gene. Aspirin induced nuclear caspase-dependent cleavage of Sp1, Sp3 and Sp4 proteins and this response was related to sequestration of zinc ions since addition of zinc sulfate blocked aspirin-mediated apoptosis and repression of Sp proteins. The results demonstrate an important underlying mechanism of action of aspirin as an anticancer agent and, based on the rapid metabolism of aspirin to salicylate in humans and the high salicylate/aspirin ratios in serum, it is likely that the anticancer activity of aspirin is also due to the salicylate metabolite

Mechanism of Action of Phenethylisothiocyanate and Other Reactive Oxygen Species-Inducing Anticancer Agents

Reactive oxygen species (ROS)-inducing anticancer agents such as phenethylisothiocyanate (PEITC) activate stress pathways for killing cancer cells. Here we demonstrate that PEITC-induced ROS decreased expression of microRNA 27a (miR-27a)/miR-20a:miR-17-5p and induced miR-regulated ZBTB10/ZBTB4 and ZBTB34 transcriptional repressors, which, in turn, downregulate specificity protein (Sp) transcription factors (TFs) Sp1, Sp3, and Sp4 in pancreatic cancer cells. Decreased expression of miR-27a/miR-20a:miR-17-5p by PEITC-induced ROS is a key step in triggering the miR-ZBTB Sp cascade leading to downregulation of Sp TFs, and this is due to ROS-dependent epigenetic effects associated with genome-wide shifts in repressor complexes, resulting in decreased expression of Myc and the Myc-regulated miRs. Knockdown of Sp1 alone by RNA interference also induced apoptosis and decreased pancreatic cancer cell growth and invasion, indicating that downregulation of Sp transcription factors is an important common mechanism of action for PEITC and other ROS-inducing anticancer agents

Structure-dependent activity of glycyrrhetinic acid derivatives as peroxisome proliferator-activated receptor gamma agonists in colon cancer cells, Mol Cancer Ther

Abstract Glycyrrhizin, a pentacyclic triterpene glycoside, is the major phytochemical in licorice. This compound and its hydrolysis product glycyrrhetinic acid have been associated with the multiple therapeutic properties of licorice extracts. We have investigated the effects of 2-cyano substituted analogues of glycyrrhetinic acid on their cytotoxicities and activity as selective peroxisome proliferator -activated receptor ; (PPAR;) agonists. Methyl 2-cyano-3,11-dioxo-18B-olean-1,12-dien-30-oate (B-CDODA-Me) and methyl 2-cyano-3,11-dioxo-18A-olean-1,12-dien-30-oate (A-CDODA-Me) were more cytotoxic to colon cancer cells than their descyano analogues and introduction of the 2-cyano group into the pentacyclic ring system was necessary for the PPAR; agonist activity of A-CDODA-Me and B-CDODA-Me isomers. However, in mammalian two-hybrid assays, both compounds differentially induced interactions of PPAR; with coactivators, suggesting that these isomers, which differ only in the stereochemistry at C18 which affects conformation of the E-ring, are selective receptor modulators. This selectivity in colon cancer cells was shown for the induction of two proapoptotic proteins, namely caveolin-1 and the tumor-suppressor gene Krü ppel-like factor-4 (KLF-4). B-CDODA-Me but not A-CDODA-Me induced caveolin-1 in SW480 colon cancer cells, whereas caveolin-1 was induced by both compounds in HT-29 and HCT-15 colon cancer cells. The CDODA-Me isomers induced KLF-4 mRNA levels in HT-29 and SW480 cells but had minimal effects on KLF-4 expression in HCT-15 cells. These induced responses were inhibited by cotreatment with a PPAR; antagonist. This shows for the first time that PPAR; agonists derived from glycyrrhetinic acid induced cell-dependent caveolin-1 and KLF-4 expression through receptor-dependent pathways. [Mol Cancer Ther 2007;6(5):1588 -98

1,1-Bis(3'-indolyl)-1-(<it>p</it>-substituted phenyl)methanes induce autophagic cell death in estrogen receptor negative breast cancer

Abstract Background A novel series of methylene-substituted DIMs (C-DIMs), namely 1,1-bis(3'-indolyl)-1-(p-substituted phenyl)methanes containing t-butyl (DIM-C-pPhtBu) and phenyl (DIM-C-pPhC6H5) groups inhibit proliferation of invasive estrogen receptor-negative MDA-MB-231 and MDA-MB-453 human breast cancer cell lines with IC50 values between 1-5 uM. The main purpose of this study was to investigate the pathways of C-DIM-induced cell death. Methods The effects of the C-DIMs on apoptotic, necrotic and autophagic cell death were determined using caspase inhibitors, measurement of lactate dehydrogenase release, and several markers of autophagy including Beclin and light chain associated protein 3 expression (LC3). Results The C-DIM compounds did not induce apoptosis and only DIM-C-pPhCF3 exhibited necrotic effects. However, treatment of MDA-MB-231 and MDA-MB-453 cells with C-DIMs resulted in accumulation of LC3-II compared to LC3-I protein, a characteristic marker of autophagy, and transient transfection of green fluorescent protein-LC3 also revealed that treatment with C-DIMs induced a redistribution of LC3 to autophagosomes after C-DIM treatment. In addition, the autofluorescent drug monodansylcadaverine (MDC), a specific autophagolysosome marker, accumulated in vacuoles after C-DIM treatment, and western blot analysis of lysates from cells treated with C-DIMs showed that the Beclin 1/Bcl-2 protein ratio increased. Conclusion The results suggest that C-DIM compounds may represent a new mechanism-based agent for treating drug-resistant ER-negative breast tumors through induction of autophagy.</p

Aspirin decreases expressions of Sp1, Sp3, Sp4 and Sp-regulated gene products in colon cancer cells.

<p>Downregulation of Sp proteins in RKO and SW480 (A) and HT29 and HCT116 (B) and Sp-regulated gene products in RKO and SW480 (C) and HT29 and HCT116 (D) cells. Cells were treated with 5 or 10 mM aspirin for 24 or 48 hr, and whole cell lysates were analyzed by western blot analysis as described in the <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0048208#s3" target="_blank">Experimental Procedures</a>. Results are typical of duplicate experiments. (E) Aspirin decreases reporter gene activity. Cells were transfected with pSp1For4, pSp3For5, pVEGF and pSurvivin and treated with DMSO or aspirin (5 or 10 mM). Luciferase activity was determined as described in the <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0048208#s3" target="_blank">Experimental Procedures</a>. Results are expressed as means ± SE (3 replicates) and significant (p<0.05) inhibition is indicated (*).</p