Anil Sadarangani

Lipophilic but not hydrophilic statins selectively induce cell death in gynaecological cancers expressing high levels of HMGCoA reductase

Recent reports have suggested that statins induce cell death in certain epithelial cancers and that patients taking statins to reduce cholesterol levels possess lower cancer incidence. However, little is known about the mechanisms of action of different statins or the effects of these statins in gynaecological malignancies. The apoptotic potential of two lipophilic statins (lovastatin and simvastatin) and one hydrophilic statin (pravastatin) was assessed in cancer cell lines (ovarian, endometrial and cervical) and primary cultured cancerous and normal tissues. Cell viability was studied by MTS assays and apoptosis was confirmed by Western blotting of PARP and flow cytometry. The expressions of key apoptotic cascade proteins were analysed. Our results demonstrate that both lovastatin and simvastatin, but not pravastatin, selectively induced cell death in dose‐ and time‐dependent manner in ovarian, endometrial and cervical cancers. Little or no toxicity was observed with any statin on normal cells. Lipophilic statins induced activation of caspase‐8 and ‐9; BID cleavage, cytochrome C release and PARP cleavage. Statin‐sensitive cancers expressed high levels of HMG‐CoA reductase compared with resistant cultures. The effect of lipophilic statins was dependent on inhibition of enzymatic activity of HMG‐CoA reductase since mevalonate pre‐incubation almost completely abrogated the apoptotic effect. Moreover, the apoptotic effect involved the inhibition of synthesis of geranylgeranyl pyrophosphate rather than farnesyl pyrophosphate. In conclusion, lipophilic but not hydrophilic statins induce cell death through activation of extrinsic and intrinsic apoptotic cascades in cancerous cells from the human female genital tract, which express high levels of HMG‐CoA reductase. These results promote further investigation in the use of lipophilic statins as anticancer agents in gynaecological malignancies.

2-methoxyestradiol mediates apoptosis through caspase-dependent and independent mechanisms in ovarian cancer cells but not in normal counterparts.

Objective: The estrogen metabolite 2-methoxyestradiol has shown antitumorigenic action in some epithelial tumors. In the present work we investigate its effects in ovarian cancer used alone or in combination with other apoptotic-inducing reagents such as tumor necrosis factor-related apoptosis-inducing ligand. Methods: To assess the effect of 2-methoxyestradiol, dose response and time courses in ovarian cancer and normal cells were conducted. Apoptosis was confirmed through DNA laddering, by flow cytometry, and Western blotting of proteins involved in the apoptotic cascade. Results: 2-Methoxyestradiol induced apoptosis in ovarian cancer cells but not in normal counterparts. 2-Methoxyestradiol activates both the intrinsic and extrinsic apoptotic pathways. 2-Methoxyestradiol—mediated apoptosis involves reactive oxygen species generation and caspase-dependent and caspase-independent mechanisms. We also demonstrate that 2-methoxyestradiol selectively induces an additive/synergistic apoptotic response in ovarian cancer cells when used in combination with tumor necrosis factor-related apoptosis-inducing ligand. Conclusions: 2-Methoxyestradiol, alone or in combination with tumor necrosis factor-related apoptosis-inducing ligand, should be considered as a potential treatment for ovarian cancer.

The oestrogen metabolite 2-methoxyoestradiol alone or in combination with tumour necrosis factor-related apoptosis-inducing ligand mediates apoptosis in cancerous but not healthy cells of the human endometrium.

Cancers of the reproductive tract account for 12% of all malignancies in women. As previous studies have shown that oestrogen metabolites can cause apoptosis, we characterised the effect of oestrogen and oestrogen metabolites on non-cancerous and cancerous human endometrial cells. Herein, we demonstrate that 2-methoxyoestradiol (2ME), but not 17beta-oestradiol, induces apoptosis in cancer cell lines and primary cultured tumours of endometrial origin. In contrast, 2ME had no effect on cell viability of corresponding normal tissue. This ability of 2ME to induce apoptosis does not require oestrogen receptor activation, but is associated with increased entry into the G2/M phases of the cell cycle and the activation of both the intrinsic and the extrinsic apoptotic pathways. The selective behaviour of 2ME on cancerous as opposed to normal tissue may be due to a reduction in 17beta-hydroxysteroid dehydrogenase type II levels in cancer cells and to a differential down-regulation of superoxide dismutase. Furthermore, we demonstrate that pre-treatment with 2ME enhances the sensitivity of reproductive tract cancer cells to the apoptotic drug tumour necrosis factor-related apoptosis-inducing ligand (TRAIL), without the loss in cell viability to normal cells incurred by currently chemotherapeutic drugs. In conclusion, 2ME, alone or in combination with TRAIL, may be an effective treatment for cancers of uterine origin with minimal toxicity to corresponding healthy female reproductive tissue.

Progesterone pre-treatment potentiates EGF pathway signaling in the breast cancer cell line ZR-75.

SummaryProgesterone in hormone replacement therapy (HRT) preparations increases, while hysterectomy greatly reduces, the incidence of breast cancer. Cross-talk between the progesterone and growth factor signaling pathways occurs at multiple levels and this maybe a key factor in breast cancer survival and progression. To test this hypothesis, we characterized the effect of progesterone pre-treatment on the sensitization of the epidermal growth factor (EGF) signaling pathway to EGF in the breast cancer cell line ZR-75. For the first time in ZR-75 cells and in agreement with previous work using synthetic progestins, we demonstrate that pre-treatment with the natural ligand progesterone increases EGF receptor (EGFR) levels and subsequent ligand-dependent phosphorylation. Downstream we demonstrate that progesterone alone increases erk-1xa0+xa02 phosphorylation, potentiates EGF-phosphorylated erk-1xa0+xa02 and maintains these levels elevated for 24xa0h; over 20xa0h longer than in vehicle treated cells. Additionally, progesterone increased the levels of STAT5, another component of the EGF signaling cascade. Progesterone increased EGF mediated transcription of a c-fos promoter reporter and the nuclear localization of the native c-fos protein. Furthermore, progesterone and EGF both alone and in combination, significantly increase cell proliferation. Several results presented herein demonstrate the conformity between the action of the natural ligand progesterone with that of synthetic progestins such as MPA and R5020 and allows the postulation that the progestin/progesterone-dependent increase of EGF signaling provides a survival advantage to burgeoning cancer cells and may contribute to the breast cancer risk associated with endogenous progesterone and with progestin-containing HRT.

In vivo and in vitro estrogenic and progestagenic actions of Tibolone.

Estrogen and progestin combination in hormone replacement therapy (HRT) increases the incidence of breast cancer, but decreases the endometrial cancer risk of unopposed estrogen. Therefore, a SERM such as Tibolone, that delivers the beneficial, but not the adverse side effects, of steroid hormones would be clinically advantageous. However, data from the Million Women Study suggests that Tibolone increases the risk of both breast and endometrial cancer. Herein, we assessed the estrogenic and progestagenic actions of Tibolone using transvaginal sonography studies and an in vitro model of breast (ZR-75, MCF7) and endometrial cancer (Ishikawa). The known cancer associated proteins (ER, EGFR, STATS, tissue factor and Bcl-xL) were selected for study. Transvaginal sonography demonstrated that postmenopausal women treated with Tibolone displayed a thinner endometrium than in the late proliferative phase, but had a phenotype characteristic of the secretory phase, thus demonstrating the estrogenic and progestagenic actions of this SERM. In vitro, Tibolone acted as an estrogen in downregulating ER and upregulating Bcl-xL, yet as progesterone, increasing STAT5 and tissue factor in breast cancer cells. The increase in tissue factor by Tibolone correlated with its coagulative potential. Interestingly, EGFR was up-regulated by progesterone in the breast and by estrogen in endometrial cells, while Tibolone increased protein levels in both cell types. In conclusion, this study further demonstrates the estrogenic and progestagenic nature of Tibolone. The pattern of regulation of known oncogenes in cells of breast and endometrial origin dictates caution and vigilance in the prescription of Tibolone and subsequent patient monitoring.

Abstract 4798: The niche specific role of CD44 splice isoform expression in blast crisis leukemia stem cell generation

Proceedings: AACR Annual Meeting 2014; April 5-9, 2014; San Diego, CAnnIntroductionnnChronic myeloid leukemia (CML) is a myeloproliferative neoplasm initiated in hematopoietic stem cells by expression of the BCR-ABL1 fusion oncogene and its protein product, which enhances ABL1 kinase activity. Targeted BCR-ABL tyrosine kinase inhibitors (TKIs), such as Imatinib, and the second generation TKIs like Nilotinib as well as the dual specific SCR and ABL inhibitor Dasatinib have significantly slowed disease progression by eradicating the bulk of BCR-ABL1 expressing cells in the circulation. However, progression to a therapeutically resistant blast crisis (BC) phase is driven by CD34+CD38+Lin- progenitors that co-opt stem cell properties, such as enhanced self-renewal and survival, albeit in a deregulated manner. These BC leukemia stem cells (BC LSC) harbor enhanced BCL2 and beta-catenin expression. Seminal research shows that a key Wnt/beta-catenin target gene, CD44, plays a vital role in cancer stem cell survival and retention in the malignant microenvironment. Because alternative mRNA splicing in humans generates many CD44 isoforms, we investigated CD44 variant expression and retention of human BC LSC in specific hematopoietic niches.nnMethods and ResultsnnWe performed whole transcriptome RNA sequencing (RNA Seq) of FACS sorted progenitors (Lin-CD34+CD38+) from chronic phase (CP)(n=8) and blast crisis (BC)(n=8) CML patients as well as from normal cord blood (CB) (n=7) and adult peripheral blood (NPB)(n=4). A number of CD44 transcript variants were detected: 3, 4 (CD44s), 5, 6, 7, 8 plus additional variants. RNA seq analysis uncovered a higher overall CD44 expression in BC compared to CP progenitors. Notably, one isoform of CD44, variant 3, was highly upregulated in BC compared to CP progenitors and minimally expressed by their normal counterparts. Moreover, BC progenitors that engrafted in RAG2-/-γc-/- harbored CD44v3 expression in the bone marrow and the splenic niche and this differential BC LSC isoform expression was reduced after dasatinib treatment. In addition, BC LSC in the spleen showed a reduction of migration specific markers, such as RHAMM, ICAM-1 and Osteopontin, compared with the bone marrow resident BC LSC. Furthermore, a comparative splice isoform specific qRT-PCR analysis of CD44 variants expression in young versus old bone marrow showed no correlation with aging. In fact, human embryonic stem cells harbored variant 3 expression.nnConclusionsnnThese data suggest that CD44 transcript variant 3 upregulation occurs following malignant reprogramming of hematopoietic progenitors that enables them to adopt features of an embryonic transcriptional program in select microenvironments. Detection of CD44 variant 3 has the potential to more precisely identify patients at risk for relapse and progression, suggest that combined therapeutic strategies involving a BCR-ABL specific TKI and a CD44 monoclonal antibody may decrease relapse and BC transformation rates.nnCitation Format: Frida L. Holm, Eva Hellqvist, Cayla Mason, Christian Barrett, Kelly A. Frazer, Anil Sadarangani, Catriona HM Jamieson. The niche specific role of CD44 splice isoform expression in blast crisis leukemia stem cell generation. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4798. doi:10.1158/1538-7445.AM2014-4798