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ABSTRACT: Mutation in the BRAF gene (BRAFV600E) exists in nearly 70% of human melanomas. Targeted therapy against BRAFV600E kinase using a recently identified RAF-selective inhibitor, PLX4032, has been successful in early clinical trials. However, in patients with the normal BRAF allele (wild-type), PLX4032 is protumorigenic. This conundrum identifies the unmet need for novel therapeutic agents to target BRAFV600E kinase that are not counterproductive. We have identified gossypin, a pentahydroxy flavone, as a potent antimelanoma agent. Gossypin inhibited human melanoma cell proliferation, in vitro, in melanoma cell lines that harbor both BRAFV600E kinase and cyclin-dependent kinase 4 (CDK4) as well as in cells with BRAF wild-type allele. Gossypin inhibited kinase activities of BRAFV600E and CDK4, in vitro, possibly through direct binding of gossypin with these kinases, as confirmed by molecular docking studies. For cells harboring the BRAFV600E, gossypin inhibited cell proliferation through abrogation of the MEK-ERK-cyclin D1 pathway and in cells with BRAF wild-type allele, through attenuation of the retinoblastoma-cyclin D1 pathway. Furthermore, gossypin significantly inhibited melanoma growth in an organotypic three-dimensional skin culture mimicking human skin. Gossypin (10 and 100 mg/kg) treatment for 10 days in human melanoma (A375) cell xenograft tumors harboring BRAFV600E significantly reduced tumor volume through induction of apoptosis and increased survival rate in mice, and the effect was significantly superior to that of PLX4032 (10 mg/kg) or roscovitine 10 mg/kg. In summary, this study identified gossypin as a novel agent with dual inhibitory effects for BRAFV600E kinase and CDK4 for treatment of melanoma. Mol Cancer Ther; 12(4); 1-12. ©2013 AACR.
Molecular Cancer Therapeutics 03/2013; · 5.23 Impact Factor
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ABSTRACT: Endometriosis is a hormone-sensitive gynecological disorder characterized by the benign growth of endometrial-like tissue in the pelvic cavity. Endometriotic lesions composed of endometrial stromal cells (ESC) and glandular epithelial cells (EEC) are thought to arise from menstrual endometrial tissue reaching the pelvic cavity via retrograde menstruation. The cause of endometriotic lesion formation is still not clear. Recent evidence suggest that cytokines may play a role in the early development of endometriosis lesions. Because cytokines and growth factors signal via the v-raf-1 murine leukemia viral oncogene homolog 1 (Raf-1) kinase pathway, we have examined the role of Raf-1 in early steps of endometriosis lesion formation, specifically attachment of endometrial cells to peritoneal mesothelial cells (PMC) and invasion of endometrial cells through PMC (trans-mesothelial invasion). Raf-1 antagonist GW5074 decreased attachment to PMC and trans-mesothelial invasion by primary EEC and ESC. Raf-1 also mediated TGFβ-induced trans-mesothelial invasion by the established, low-invasive EEC line EM42. TGFβ treatment of EEC resulted in Raf-1 phosphorylation at S338 and phosphorylation of ERK, suggesting that TGFβ activates Raf-1 signaling in these cells. GW5074 had little effect on ESC proliferation but inhibited EEC growth significantly under reduced serum conditions. Antagonizing Raf-1 activity and expression via GW5074 and specific Raf-1 small interfering RNA, respectively, did not alter EEC resistance to growth inhibition by TGFβ. Raf-1 inhibition blocked induction of EEC growth by epidermal growth factor. Our data suggest that Raf-1 may mediate pathologic steps involved in early endometriosis lesion formation and may be a mediator of TGFβ and epidermal growth factor actions in endometriosis.
Endocrinology 05/2012; 153(8):3911-21. · 4.46 Impact Factor
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ABSTRACT: Breast cancers amplified for the tyrosine kinase receptor Her-2/neu constitute ~30% of advanced breast cancer cases, and are characterized by hormone independence and aggressive growth, implicating this pathway in breast oncogenesis. The induction of Her-2/neu leads to tumor development in 60% of transgenic mice. We have previously examined the effects of estrogen in the MMTV-Her-2/neu background by generating the MMTV-Her-2/neu x aromatase double transgenic mouse strain. MMTV-Her-2/neu x aromatase mice developed fewer mammary tumors than the Her-2/neu parental strain. Our present data show the induction of several estrogen-related genes, including the tumor suppressors BRCA1 and p53, and a decrease in several angiogenic factors. The phosphorylated forms of MAPK p42/44 and AKT were lower in the MMTV-Her-2/neu x aromatase double transgenic mice compared to the MMTV-Her-2/neu parental strain; conversely, phospho-p38 levels were higher in the double transgenic strain. The ERβ-selective antagonist THC reversed these changes. The regulation of these factors by ERβ was confirmed in clones of MCF7 breast cancer cells overexpressing Her-2/neu in combination with ERβ, suggesting that ERβ may play a direct role in regulating MAPK and AKT pathways. In summary, the data suggest that ERβ may play a major role in decreasing tumorigenesis and that it may affect breast cancer cell proliferation and survival by altering MAPK and AKT activation as well as modulation of tumor suppressor and angiogenesis factors. Treatment with selective ERβ agonist may provide therapeutic advantages for the treatment and prevention of breast cancer.
Hormones and Cancer 04/2012; 3(1-2):26-36.
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ABSTRACT: Anti-oxidative extracts from the milk thistle plant (Silybum marianum) have been shown to have antiproliferative effects in several tumor types. Silibinin is the primary active component isolated from the crude seed extract, silymarin. It has been used as a dietary supplement for hepatoprotection for over 2000 years. Silibinin has been shown to be safe in multiple animal models and has had no significant adverse events in human studies. We investigated the potential for this nontoxic flavolignan to inhibit proliferation of human colon cancer.
Three well-characterized cell lines, Fet, Geo, and HCT116, were studied. The MTT cell-viability assay was performed to study the effect of silibinin on proliferation. Fluorescence-activated cell sorter (FACS) analysis was used to determine the effects of silibinin on cell cycle and apoptosis. 4', 6'-diamidine-2'-phenylindole (DAPI) staining with confocal microscopy was used to morphologically confirm these results. Poly ADP-ribose polymerase (PARP) cleavage and expression levels of p21, p27, cyclins B1/D1, and CDK-2 were measured. Cyclooxygenase-2 (COX-2) levels were also measured. The experiments were performed in triplicate and reported as mean values with standard errors. Means were contrasted using analysis of variance with Dunnet's correction for multiple testing. All statistical testing was two-sided with a significance level of 5%.
The MTT assay revealed a strong dose-dependent inhibitory effect. Treatment with 75 microg/mL resulted in 50% inhibition of cell-viability (IC-50) in Fet and Geo lines at 72 h. An IC50 dose of 40 ug/mL was obtained in HCT116, a poorly-differentiated cell line, at 72 h. FACS analysis demonstrated statistically significant cell-cycle arrest in all cell lines. G(2)-M phase arrests in Fet and Geo cell lines (P < 0.001) and a G1 arrest in HCT116 (P = 0.005) were noted. Trivial increases in early apoptotic rates (2% to 3%) for Geo and HCT116 were noted on FACS analysis via annexin V-propidium iodide technique (P < 0.05), but no evidence for apoptosis was seen on Western blot for PARP cleavage or DAPI. Cyclin B1/D1 and CDK-2 levels were inhibited. Increased expression of cell cycle inhibitors, p21 or p27, was noted, and there was no effect on COX-2 expression.
Silibinin significantly inhibits proliferation through cell-cycle arrest via inhibition of cyclin-CDK promoter activity. Despite its antioxidant profile, there is no effect on COX-2 expression. Apoptosis does not appear to be greatly increased in human colon cancer cell lines Fet, Geo, and HCT116. Rather, inhibition of cell cycle regulatory proteins plays a fundamental role in silibinin's mechanism of action, and this may serve as a basis for combined use with conventional chemotherapeutics.
Journal of Surgical Research 11/2007; 143(1):58-65. · 2.25 Impact Factor
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ABSTRACT: A considerable fraction of patients who undergo radical prostatectomy as treatment for primary prostate cancer experience biochemical recurrence detected by elevated serum levels of prostate-specific antigen. In this study, we investigate whether loss of expression of the tumor suppressor phosphatase and tensin homologue deleted on chromosome 10 (PTEN) and the phosphorylated form of the cell survival protein Akt (pAkt) predicts biochemical recurrence.
Expression of PTEN and pAkt was detected by immunohistochemistry in paraffin-embedded prostate cancer tissue obtained from men undergoing radical prostatectomy. Outcome was determined by 60-month follow-up determining serum prostate-specific antigen levels.
By itself, PTEN was not a good predictor of biochemical recurrence; however, in combination with pAkt, it was a better predictor of the risk of biochemical recurrence compared with pAkt alone. Ninety percent of all cases with high pAkt and negative PTEN were recurrent whereas 88.2% of those with low pAkt and positive PTEN were nonrecurrent. In addition, high Gleason scores resulted in reduced protection from decreased pAkt and increased PTEN. By univariate logistic regression, pAkt alone gives an area under the receiver-operator characteristic curve of 0.82 whereas the area under the receiver-operator characteristic curve for the combination of PTEN, pAkt, and Gleason based on a stepwise selection model is 0.89, indicating excellent discrimination.
Our results indicate that loss of PTEN expression, together with increased Akt phosphorylation and Gleason score, is of significant predictive value for determining, at the time of prostatectomy, the risk of biochemical recurrence.
Clinical Cancer Research 08/2007; 13(13):3860-7. · 7.74 Impact Factor
