mir-17 microRNA precursor family

mir-17 microRNA precursor family

Identifiers
Symbol mir-17
Rfam RF00051
miRBase MI0000071
miRBase family MIPF0000001
Other data
RNA type Gene; miRNA
Domain(s) Eukaryota
GO 0035195 0035068
SO 0001244

The miR-17 microRNA precursor family are a group of related small non-coding RNA genes called microRNAs that regulate gene expression. The microRNA precursor miR-17 family, includes miR-20a/b, miR-93, and miR-106a/b. With the exception of miR-93, these microRNAs are produced from several microRNA gene clusters, which apparently arose from a series of ancient evolutionary genetic duplication events, and also include members of the miR-19, and miR-25 families.[1] These clusters are transcribed as long non-coding RNA transcripts that are processed to form ~70 nucleotide microRNA precursors, that are subsequently processed by the Dicer enzyme to give a ~22 nucleotide products. The mature microRNA products are thought to regulate expression levels of other genes through complementarity to the 3' UTR of specific target messenger RNA.[2][3]

The paralogous miRNA gene clusters that give rise to miR-17 family microRNAs (miR-17~92, miR-106a~363, and miR-106b~25) have been implicated in a wide variety of malignancies and are sometimes referred to as oncomirs.[4] The oncogenic potential of these non-protein encoding genes was first identified in mouse viral tumorigenesis screens.[5][6][7] In humans, the activating mutations of miR-17~92 have been identified in non-Hodgkin's lymphoma, whereas the miRNA constituents of the clusters are overexpressed in a multiple cancer types.[8][9][10] High level expression of miR-17 family members induces cell proliferation, whereas deletion of the miR-17~92 cluster, in mice, is lethal and causes lung and lymphoid cell developmental defects.[11] In addition, in the nasopharyngeal carcinoma cell line, miR-20a and miR-20b has been shown to target the 3’ UTR of vascular endothelial growth factor (VEGF) and repress the expression of VEGF, which is an important angiogenic factor.[12][13]

References

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  7. Landais S, Landry S, Legault P, Rassart E (2007). "Oncogenic potential of the miR-106-363 cluster and its implication in human T-cell leukemia.". Cancer Res. 67 (12): 5699–707. PMID 17575136. doi:10.1158/0008-5472.CAN-06-4478.
  8. Ota A, Tagawa H, Karnan S, Tsuzuki S, Karpas A, Kira S, Yoshida Y, Seto M (2004). "Identification and characterization of a novel gene, C13orf25, as a target for 13q31-q32 amplification in malignant lymphoma.". Cancer Res. 64 (9): 3087–95. PMID 15126345. doi:10.1158/0008-5472.CAN-03-3773.
  9. Rinaldi A, Poretti G, Kwee I, Zucca E, Catapano CV, Tibiletti MG, Bertoni F (2007). "Concomitant MYC and microRNA cluster miR-17-92 (C13orf25) amplification in human mantle cell lymphoma.". Leuk Lymphoma. 48 (2): 410–2. PMID 17325905. doi:10.1080/10428190601059738.
  10. Mendell JT (2008). "miRiad roles for the miR-17-92 cluster in development and disease.". Cell. 133 (2): 217–22. PMC 2732113Freely accessible. PMID 18423194. doi:10.1016/j.cell.2008.04.001.
  11. Ventura A, Young AG, Winslow MM, Lintault L, Meissner A, Erkeland SJ, Newman J, Bronson RT, Crowley D, Stone JR, et al. (2008). "Targeted deletion reveals essential and overlapping functions of the miR-17~92 family of miRNA clusters.". Cell. 132 (5): 875–86. PMC 2323338Freely accessible. PMID 18329372. doi:10.1016/j.cell.2008.02.019.
  12. Hua Z, Lv Q, Ye W, Wong CK, Cai G, Gu D, Ji Y, Zhao C, Wang J, Yang BB, Zhang Y (Dec 27, 2006). "MiRNA-directed regulation of VEGF and other angiogenic factors under hypoxia". PLOS ONE. 1 (1): e116. PMC 1762435Freely accessible. PMID 17205120. doi:10.1371/journal.pone.0000116.
  13. Ye W, Lv Q, Wong CK, Hu S, Fu C, Hua Z, Cai G, Li G, Yang BB, Zhang Y (Mar 5, 2008). "The effect of central loops in miRNA:MRE duplexes on the efficiency of miRNA-mediated gene regulation". PLOS ONE. 3 (3): e1719. PMC 2248708Freely accessible. PMID 18320040. doi:10.1371/journal.pone.0001719.

Further reading

  1. Dews M, Fox JL, Hultine S, Sundaram P, Wang W, Liu YY, Furth E, Enders GH, El-Deiry W, Schelter JM, Cleary MA, Thomas-Tikhonenko A (2010). "The myc-miR-17~92 axis blunts TGF{beta} signaling and production of multiple TGF{beta}-dependent antiangiogenic factors.". Cancer Res. 70 (20): 8233–46. PMID 20940405. doi:10.1158/0008-5472.CAN-10-2412.
  2. Xiang J, Wu J (2010). "Feud or Friend? The Role of the miR-17-92 Cluster in Tumorigenesis.". Curr Genomics. 11 (2): 129–35. PMC 2874222Freely accessible. PMID 20885820. doi:10.2174/138920210790886853.
  3. Wang Z, Liu M, Zhu H, Zhang W, He S, Hu C, Quan L, Bai J, Xu N (2010). "Suppression of p21 by c-Myc through members of miR-17 family at the post-transcriptional level.". Int J Oncol. 37 (5): 1315–21. PMID 20878079. doi:10.3892/ijo_00000783.
  4. Hong L, Lai M, Chen M, Xie C, Liao R, Kang YJ, Xiao C, Hu WY, Han J, Sun P (2010). "The miR-17-92 cluster of microRNAs confers tumorigenicity by inhibiting oncogene-induced senescence.". Cancer Res. 70 (21): 8547–57. PMC 2970743Freely accessible. PMID 20851997. doi:10.1158/0008-5472.CAN-10-1938.
  5. Osada H, Takahashi T (2010). "Review Article: let-7 and miR-17-92: Small-sized major players in lung cancer development.". Cancer Sci. 102 (1): 9–17. PMID 20735434. doi:10.1111/j.1349-7006.2010.01707.x.
  6. Cox MB, Cairns MJ, Gandhi KS, Carroll AP, Moscovis S, Stewart GJ, Broadley S, Scott RJ, Booth DR, Lechner-Scott J, ANZgene Multiple Sclerosis Genetics Consortium (2010). Jacobson S, ed. "MicroRNAs miR-17 and miR-20a inhibit T cell activation genes and are under-expressed in MS whole blood.". PLoS ONE. 5 (8): e12132. PMC 2920328Freely accessible. PMID 20711463. doi:10.1371/journal.pone.0012132.
  7. Yu J, Ohuchida K, Mizumoto K, Fujita H, Nakata K, Tanaka M (2010). "MicroRNA miR-17-5p is overexpressed in pancreatic cancer, associated with a poor prognosis and involved in cancer cell proliferation and invasion.". Cancer Biol Ther. 10 (8): 748. PMID 20703102. doi:10.4161/cbt.10.8.13083.
  8. Zhuo de X, Niu XH, Chen YC, Xin DQ, Guo YL, Mao ZB (2010). "Vitamin D3 up-regulated protein 1(VDUP1) is regulated by FOXO3A and miR-17-5p at the transcriptional and post-transcriptional levels, respectively, in senescent fibroblasts.". J Biol Chem. 285 (41): 31491–501. PMC 2951223Freely accessible. PMID 20656682. doi:10.1074/jbc.M109.068387.
  9. Kuhnert F, Kuo CJ (2010). "miR-17-92 angiogenesis micromanagement.". Blood. 115 (23): 4631–3. PMID 20538815. doi:10.1182/blood-2010-03-276428.
  10. Li H, Bian C, Liao L, Li J, Zhao RC (2010). "miR-17-5p promotes human breast cancer cell migration and invasion through suppression of HBP1.". Breast Cancer Res Treat. 126 (3): 565–575. PMID 20505989. doi:10.1007/s10549-010-0954-4.
  11. Budde H, Schmitt S, Fitzner D, Opitz L, Salinas-Riester G, Simons M (2010). "Control of oligodendroglial cell number by the miR-17-92 cluster". Development. 137 (13): 2127–32. PMID 20504959. doi:10.1242/dev.050633.
  12. Grillari J, Hackl M, Grillari-Voglauer R (2010). "miR-17-92 cluster: ups and downs in cancer and aging". Biogerontology. 11 (4): 501–6. PMC 2899009Freely accessible. PMID 20437201. doi:10.1007/s10522-010-9272-9.
  13. Wong P, Iwasaki M, Somervaille TC, Ficara F, Carico C, Arnold C, Chen CZ, Cleary ML (2010). "The miR-17-92 microRNA polycistron regulates MLL leukemia stem cell potential by modulating p21 expression". Cancer Res. 70 (9): 3833–42. PMC 2862107Freely accessible. PMID 20406979. doi:10.1158/0008-5472.CAN-09-3268.
  14. Ernst A, Campos B, Meier J, Devens F, Liesenberg F, Wolter M, Reifenberger G, Herold-Mende C, Lichter P, Radlwimmer B (2010). "De-repression of CTGF via the miR-17-92 cluster upon differentiation of human glioblastoma spheroid cultures". Oncogene. 29 (23): 3411–22. PMID 20305691. doi:10.1038/onc.2010.83.
  15. He S, Yang S, Deng G, Liu M, Zhu H, Zhang W, Yan S, Quan L, Bai J, Xu N (2010). "Aurora kinase A induces miR-17-92 cluster through regulation of E2F1 transcription factor". Cell Mol Life Sci. 67 (12): 2069–76. PMID 20300951. doi:10.1007/s00018-010-0340-8.
  16. Olive V, Jiang I, He L (2010). "mir-17-92, a cluster of miRNAs in the midst of the cancer network". Int J Biochem Cell Biol. 42 (8): 1348–54. PMID 20227518. doi:10.1016/j.biocel.2010.03.004.
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  18. Yang F, Yin Y, Wang F, Wang Y, Zhang L, Tang Y, Sun S (2010). "miR-17-5p Promotes migration of human hepatocellular carcinoma cells through the p38 mitogen-activated protein kinase-heat shock protein 27 pathway". Hepatology. 51 (5): 1614–23. PMID 20209605. doi:10.1002/hep.23566.
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