Vascular invasion is one of the clinicopathologic features that are associated with early recurrence of human hepatocellular carcinoma (HCC). In this study, we have employed high-density Affymetrix oligonucleotide GeneChips (Affymetrix, Santa Clara, CA) to compare the expression profiles of HCC with and without vascular invasion. Data mining of the gene expression database established revealed that leukocyte cell-derived chemotaxin-2 (LECT2) transcripts were downregulated in HCC patients with vascular invasion. Expression of LECT2 in human HCC biopsies was significantly reduced (Po0.0001, fold change ¼ À7.2) when compared with non-tumorous adjacent liver tissues. The reduction of LECT2 expression was significantly correlated with the early recurrent and poor prognosis of the patient (P ¼ 0.024). To validate the ability of LECT2 to repress the growth of HCC, an adenoviral vector encoding the secreted human LECT2 (AdLECT2) was introduced into the human HCC cell lines Hep3B and PLC/PRF/5, which do not express endogenous LECT2. Over-expression of LECT2 resulted in the significant inhibition of in vitro migration and invasion of the AdLECT2-transfected HCC cells. Additionally, over-expression of AdLECT2 in subcutaneous Hep3B tumor xenografts in athymic nude mice resulted in significant inhibition of tumor growth (Po0.05). In summary, our data not only demonstrated that LECT2 is a candidate prognostic marker of human HCC, but also that therapeutic strategies targeting LECT2 expression is a promising therapy for human HCC.
has been reported to be involved in a variety of tumor processes, but its function in breast cancer remains unclear. In this study, we found that miR-548 was low expressed in breast cancer tissues and cells compared with normal control. We then examined whether up-regulation of miR-548 could improve the progression of breast cancer.Our results indicate that up-regulation of miR-548 significantly inhibits cell proliferation, migration andinvasion, and induces apoptosis in breast cancer cells. Further studies showed that miR-548 could specifically inhibit E2F3 expression. Moreover, rescue test showed that up-regulation of E2F2 could reverse the effect of miR-548 on proliferation, migration, invasion and apoptosis of breast cancer cells. In general, miR-548 could improve the progression of breast cancer. By targeting E2F2, which may make a potential target for the treatment of breast cancer.
We bring a "spectrum" of classical data mining and statistical analysis methods to bear on discrimination of two groups of spectra from 24 diseased and 17 normal patients. Our primary goal is to accurately estimate the generalizability of this small dataset. After an aggressive preprocessing step that reduces consideration to only 55 peaks, we conduct over 35 out-of-sample cross-validation simulations of logistic regression, binary decision trees, and linear discriminant analysis. Misclassification rates grow worse as the size of the holdout sample increases, with many exceeding 30 percent. The ability to generalize is clearly tempered by the statistical, instrumentation, and biophysical characteristics of the study.
microRNA (miR)-515-5p has been previously suggested to function as a tumor suppressor in various types of human cancer. Therefore, the role of miR-515-5p in breast cancer (BC) was explored in the present study. A series of assays were performed to study the function of miR-515-p in BC cells, including Cell Counting Kit-8, TUNEL, flow cytometric and colony formation to detect cell viability and apoptosis, wound healing and Transwell assays to measure cell motility. In addition, reverse transcription quantitative PCR and western blot analysis were used to assess miR-515-5p, CBX4, Cox-2, MMP2, MMP9, CDK2, p21 and Cyclin D1 respectively. Bioinformatics and dual-luciferase reporter assays were used to analyze the target genes of miR-515-5p, which confirmed the direct binding between miR-515-5p and polycomb chromobox 4 (CBX4). It was found that the expression of miR-515-5p is lower in BC cells compared with that in normal breast cells (MCF10A). Overexpression of miR-515-5p using the miR-515 mimic was found to reduce cell viability, facilitate cell apoptosis, inhibit cell proliferation and arrest cell cycle progressio at G 1 phase. In addition, miR-515-5p overexpression could inhibit cell migration and invasion, whilst decreasing the expression levels of prostaglandin-endoperoxide synthase 2, MMP2 and MMP9 proteins. In addition, miR-515-5p overexpression could reduce the expression levels of CBX4 in MCF7 and ZR-75-30 cells. By contrast, overexpression of CBX4 reversed the effects of the miR-515-5p mimic transfection on cell proliferation, migration and invasion in MCF7 and ZR-75-30 cells. In combination, these results suggest that miR-515-5p inhibits BC cell proliferation, migration and invasion by directly targeting CBX4.
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