A therapeutic intervention that could decrease tumor burden and increase sensitivity to chemotherapy would have a significant impact on the high morbidity rate associated with ovarian cancer. MicroRNAs (miRNAs) have emerged as potential therapeutic candidates due to their ability to down regulate multiple targets involved in tumor progression and chemoresistance. MiR-200c is down regulated in ovarian cancer cell lines and stage III ovarian tumors, and low miR-200c correlates with poor prognosis. MiR-200c increases sensitivity to taxanes in vitro, by targeting TUBB3, a tubulin known to mediate chemoresistance. Indeed, we find that patients with tumors with low TUBB3 had significantly prolonged survival (average survival 52.73 ± 4.08 months) compared to those with high TUBB3 (average survival 42.56 ±3.19 months). MiR-200c also targets TrkB, a mediator of resistance to anoikis. We demonstrate that restoration of miR-200c to ovarian cancer cells results in increased anoikis sensitivity and reduced adherence to biological substrates in vitro. Since both chemo- and anoikis-resistance are critical steps in the progression of ovarian cancer, we sought to determine how restoration of miR-200c affects tumor burden and chemosensitivity in an in vivo preclinical model of ovarian cancer. Restoration of miR-200c in an intraperitoneal xenograft model of human ovarian cancer, results in decreased tumor formation and tumor burden. Furthermore, even in established tumors, restoration of miR-200c, alone or in combination with paclitaxel, results in significantly decreased tumor burden. Our study suggests that restoration of miR-200c immediately prior to cytotoxic chemotherapy may allow for a better response or lower effective dose.
MicroRNAs (miRNAs) are a class of small non-coding RNAs, which are negative regulators of gene expression. Many genes in human uterine leiomyoma (ULM) are aberrantly expressed and in some cases this can be due to dysregulation of miRNAs. Here we present the first study to determine genome-wide miRNA expression patterns in uterine leiomyoma and myometrium using Solexa high-throughput sequencing. We found more than 50 miRNAs, which were differentially expressed, and furthermore we extend the list of putative new miRNA genes. The top five significantly de-regulated miRNAs in ULMs that we found in our libraries were miR-363, miR-490, miR-137, miR-217 and miR-4792. We also observed "isomiRs" with higher copy number than referenced mature miRNA specific for the leiomyoma libraries, which have a potential role in tumorigenesis. The microRNA transcriptomes obtained in this study deliver insights and further expand our understanding the role of small RNAs in uterine leiomyoma development.
Endometrial cancer is the most common gynecologic malignancy in the United States. However, its underlying molecular mechanisms are poorly understood; and few prognostic indicators have been identified. The protein kinase C (PKC) family has been shown to regulate pathways critical to malignant transformation; and in endometrial tumors, changes in PKC expression and activity have been linked to a more aggressive phenotype and poor prognosis. We have recently shown that PKC delta is a critical regulator of apoptosis and cell survival in endometrial cancer cells; however, PKC delta levels in endometrial tumors had not been determined. We used immunohistochemistry to examine PKC delta protein levels in normal endometrium and endometrioid carcinomas of increasing grade. Normal endometrium exhibited abundant nuclear and cytoplasmic staining of PKC delta confined to glandular epithelium. In endometrial tumors, decreased PKC delta expression, both in intensity and fraction of epithelial cells stained, was observed with increasing tumor grade, with PKC delta being preferentially lost from the nucleus. Consistent with these observations, endometrial cancer cell lines derived from poorly differentiated tumors exhibited reduced PKC delta levels relative to well-differentiated lines. Treatment of endometrial cancer cells with etoposide resulted in a translocation of PKC delta from cytoplasm to nucleus concomitant with induction of apoptosis. Decreased PKC delta expression, particularly in the nucleus, may compromise the ability of cells to undergo apoptosis, perhaps conferring resistance to chemotherapy. Our results indicate that loss of PKC delta is an indicator of endometrial malignancy and increasing grade of cancer. Thus, PKC delta may function as a tumor suppressor in endometrial cancer.
-Hydroxyeicosatetraenoic acid (20-HETE) is a cytochrome P-450 (Cyp)-derived arachidonic acid metabolite that has been shown to increase smooth muscle contractions and proliferation, stimulate endothelial dysfunction and activation, and promote hypertension. We examined if 20-HETE contributes to microvascular remodeling in hypertension. In Sprague-Dawley rats, administration of the 20-HETE biosynthesis inhibitor HET0016 or the ,15(Z)-dienoic acid (20-HEDE) prevented 5␣-dihydrotestosterone (DHT)-induced increases in blood pressure as well as abrogated DHT-induced increases in the media-to-lumen ratio (M/L), media thickness, and collagen IV deposition in renal interlobar arteries. Reserpine prevented blood pressure elevation in DHT-treated rats but did not affect microvascular remodeling (M/L, media thickness, and collagen deposition); under these conditions, treatment with the 20-HETE antagonist attenuated microvascular remodeling, suggesting that 20-HETE contributes to DHT-induced vascular remodeling independent of blood pressure elevation. In Cyp4a14 Ϫ/Ϫ mice, which display androgen-driven and 20-HETE-dependent hypertension, treatment with the 20-HETE antagonist abolished remodeling of renal resistance arteries measured as media thickness (24 Ϯ 1 vs. 15 Ϯ 1 m) and M/L (0.29 Ϯ 0.03 vs. 0.17 Ϯ 0.01). Moreover, in Cyp4a12 transgenic mice in which the expression of Cyp4a12-20-HETE synthase is driven by a tetracycline-sensitive promoter, treatment with doxycycline resulted in blood pressure elevation (140 Ϯ 4 vs. 92 Ϯ 5 mmHg) and a significant increase in remodeling of renal resistance arteries (media thickness: 23 Ϯ 1 vs. 16 Ϯ 1 m; M/L: 0.39 Ϯ 0.04 vs. 0.23 Ϯ 0.02); these increases were abrogated by cotreatment with 20-HEDE. This study demonstrated that 20-HETE is a key regulator of microvascular remodeling in hypertension; its effect is independent of blood pressure elevation and androgen levels. 20-hydroxyeicosatetraenoic acid; cytochrome P-450 4A; blood pressure; androgen VASCULAR REMODELING of large and small arteries contributes to the development and complications of hypertension (25). This process renders arteries stiffer and thicker, leading to detrimental effects on blood pressure regulation (14). Structural alterations of the microcirculation, of which the media-to-lumen ratio (M/L) is the most important predictor, are likely to occur in renal microvessels, as previously shown in experimental models of hypertension (7), including spontaneously hypertensive rats (SHRs), DOCA-salt rats, and one-kidney, one-clip Goldblatt hypertensive rats (12). The mechanisms that contribute to arterial remodeling in hypertension are numerous and include stimulation of growth and apoptosis and increased inflammation and fibrosis. Numerous autacoids have been implicated as mediators of arterial remodeling in hypertension. The most prominent is ANG II, which has been shown to exert the capacity of stimulating vasoconstriction, smooth muscle growth, production of inflammatory cytokines and chemokines, and activating extracellul...
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