The 3′UTR of the pseudogene CYP4Z2P promotes tumor angiogenesis in breast cancer by acting as a ceRNA for CYP4Z1
详细信息 查看全文
- 作者:Lufeng Zheng ; Xiaoman Li ; Yi Gu ; Xiaobo Lv ; Tao Xi
- 关键词:3′UTR ; ceRNA ; CYP4Z2P ; Pseudogene ; Breast cancer
- 刊名:Breast Cancer Research and Treatment
- 出版年:2015
- 出版时间:February 2015
- 年:2015
- 卷:150
- 期:1
- 页码:105-118
- 全文大小:7,742 KB
- 参考文献:1. Perry, MM, Tsitsiou, E, Austin, PJ, Lindsay, MA, Gibeon, DS, Adcock, IM, Chung, KF (2014) Role of non-coding RNAs in maintaining primary airway smooth muscle cells. Respir Res 15: pp. 58 CrossRef
2. Zovoilis, A, Mungall, AJ, Moore, R, Varhol, R, Chu, A, Wong, T, Marra, M, Jones, SJ (2014) The expression level of small non-coding RNAs derived from the first exon of protein-coding genes is predictive of cancer status. EMBO Rep 15: pp. 402-410 CrossRef
3. Chendrimada, TP, Gregory, RI, Kumaraswamy, E, Norman, J, Cooch, N, Nishikura, K, Shiekhattar, R (2005) TRBP recruits the Dicer complex to Ago2 for microRNA processing and gene silencing. Nature 436: pp. 740-744 CrossRef
4. Chen, CH, Cheng, CY, Chen, YC, Sue, YM, Liu, CT, Cheng, TH, Hsu, YH, Chen, TH (2014) MicroRNA-328 inhibits renal tubular cell epithelial-to-mesenchymal transition by targeting the CD44 in pressure-induced renal fibrosis. PLoS One 9: pp. e99802 CrossRef
5. Cao, M, Li, Y, Lu, H, Meng, Q, Wang, L, Cai, L, Dong, X (2014) miR-23a-mediated migration/invasion is rescued by its target, IRS-1, in non-small cell lung cancer cells. J Cancer Res Clin Oncol 140: pp. 1661-1670 CrossRef
6. Ling, S, Birnbaum, Y, Nanhwan, MK, Thomas, B, Bajaj, M, Ye, Y (2013) MicroRNA-dependent cross-talk between VEGF and HIF1alpha in the diabetic retina. Cell Signal 25: pp. 2840-2847 CrossRef
7. Tay, Y, Kats, L, Salmena, L, Weiss, D, Tan, SM, Ala, U, Karreth, F, Poliseno, L, Provero, P, Cunto, F (2011) Coding-independent regulation of the tumor suppressor PTEN by competing endogenous mRNAs. Cell 147: pp. 344-357 CrossRef
8. Tam, OH, Aravin, AA, Stein, P, Girard, A, Murchison, EP, Cheloufi, S, Hodges, E, Anger, M, Sachidanandam, R, Schultz, RM (2008) Pseudogene-derived small interfering RNAs regulate gene expression in mouse oocytes. Nature 453: pp. 534-538 CrossRef
9. Han, YJ, Ma, SF, Yourek, G, Park, YD, Garcia, JGN (2011) A transcribed pseudogene of MYLK promotes cell proliferation. FASEB J 25: pp. 2305-2312 CrossRef
10. Guo, X, Tang, Y (2011) OCT4 pseudogenes present in human leukemia cells. Clin Exp Med 12: pp. 207-216 CrossRef
11. Yang, J, Li, T, Gao, C, Lv, X, Liu, K, Song, H, Xing, Y, Xi, T (2014) FOXO1 3′UTR functions as a ceRNA in repressing the metastases of breast cancer cells via regulating miRNA activity. FEBS Lett 588: pp. 3218-3224 CrossRef
12. Jia, J, Yao, P, Arif, A, Fox, PL (2013) Regulation and dysregulation of 3′UTR-mediated translational control. Curr Opin Genet Dev 23: pp. 29-34 CrossRef
13. Nakagawa, Y, Minato, M, Sumiyoshi, K, Maeda, A, Hara, C, Murase, Y, Nishida, T, Kubota, S, Takigawa, M (2013) Regulation of CCN1 via the 3-untranslated region. J Cell Commun Signal 7: pp. 207-217 CrossRef
14. Mercer, TR, Wilhelm, D, Dinger, ME, Solda, G, Korbie, DJ, Glazov, EA, Truong, V, Schwenke, M, Simons, C, Matthaei, KI (2011) Expression of distinct RNAs from 3-untranslated regions. Nucleic Acids Res 39: pp. 2393-2403 CrossRef
15. Swart, M, Dandara, C (2014) Genetic variation in the 3-UTR of CYP1A2, CYP2B6, CYP2D6, CYP3A4, NR1I2, and UGT2B7: potential effects on regulation by microRNA and pharmacogenomics relevance. Front Genet 5: pp. 167- 刊物类别:Medicine
- 刊物主题:Medicine & Public Health
Oncology- 出版者:Springer Netherlands
- ISSN:1573-7217
文摘
Pseudogenes are now known to regulate their protein-coding counterparts. Additionally, disturbances of 3′UTRs could increase the risk of cancer susceptibility by acting as modulators of gene expression. The aim of this study was to investigate the roles of the pseudogene CYP4Z2P-3′UTR and functional gene CYP4Z1-3′UTR in breast cancer angiogenesis process. The levels of CYP4Z2P- and CYP4Z1-3′UTR and miRNA of interests were measured in 22 cancerous tissues paired with non-cancerous samples by qRT-PCR. The effects of CYP4Z2P- and CYP4Z1-3′UTR were studied by overexpression and RNA interference approaches in vitro and ex vivo. Insights of the mechanism of competitive endogenous RNAs were gained from bioinformatic analysis, luciferase assays, and western blot. The positive CYP4Z2P/CYP4Z1 interaction and negative interaction between predicted miRNAs and CYP4Z2P or CYP4Z1 were identified via qRT-PCR assay and bivariate correlation analysis. CYP4Z2P- and CYP4Z1-3′UTR share several miRNA-binding sites, including miR-211, miR-125a-3p, miR-197, miR-1226, and miR-204. The CYP4Z2P- and CYP4Z1-3′UTRs arrest the interference caused by of these miRNAs, resulting in increased translation of CYP4Z1. Moreover, ectopic expression of the CYP4Z2P- and CYP4Z1-3′UTRs exhibit tumor angiogenesis-promoting properties in breast cancer collectively by inducing the phosphorylation of ERK1/2 and PI3K/Akt. Co-transfection with Dicer siRNA reversed the CYP4Z2P 3′UTR-mediated changes. Additionally, PI3K or ERK inhibitors reversed CYP4Z2P- and CYP4Z1-3′UTR-mediated changes in VEGF-A expression. Increased CYP4Z2P- and CYP4Z1-3′UTR expression promotes tumor angiogenesis in breast cancer partly via miRNA-dependent activation of PI3K/Akt and ERK1/2. The CYP4Z2P- and CYP4Z1-3′UTRs could thus be used as combinatorial miRNA inhibitors.