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Journal of Translational Medicine
Published in: Journal of Translational Medicine 1/2014

Open Access 01-12-2014 | Research

Chemokine receptor CCR6 expression is regulated by miR-518a-5p in colorectal cancer cells

Authors: Claudia Rubie, Bianca Kruse, Vilma Oliveira Frick, Kathrin Kölsch, Pirus Ghadjar, Mathias Wagner, Friedrich Grässer, Stefan Wagenpfeil, Mathias Glanemann

Published in: Journal of Translational Medicine | Issue 1/2014

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Abstract

Background

Recently, involvement of the chemokine/receptor system CCL20/CCR6 in colorectal cancer (CRC) progression was shown. Here, we analyzed the functional interaction of miRNA-518-5p (miR-518a-5p) with CCR6 and its impact on CCR6 expression in CRC cells.

Methods

MiR-518a-5p was identified by computer software to potentially interact with CCR6. Hence, functional implications of miR-518a-5p with the 3′UTR of CCR6 were analyzed using the Dual Luciferase Reporter assay system. Confirmation of the predicted target site for miR-518a-5p was achieved by site-directed mutagenesis of the seed sequence in the 3′UTR of CCR6 and subsequent application of the mutated seed sequence in a luciferase assay with miR-518a-5p mimics. Accordingly, two CRC cell lines (Caco-2 and HT-29) were transfected with miR-518a-5p miRNA mimics and gene and protein expression of CCR6 was monitored using qRT PCR and immunocytochemistry, respectively.

Results

Addition of miR-518a-5p led to significant down-regulation of luciferase activity (P < 0.05), which was significantly reversed in a reporter test system containing the mutated seed sequences in the 3′UTR of CCR6. Following transfection of CRC cell lines with miR-518a-5p mimics and subsequent monitoring of CCR6 expression showed significant down-regulation of CCR6 mRNA and CCR6 protein expression in both CRC cell lines under investigation (P < 0.05).

Conclusions

We have shown that miR-518a-5p functionally interacts with CCR6 and that transfection of CRC cells with miR-518a-5p leads to significant CCR6 down-regulation. Consequently, CCR6 expression is regulated by miR-518a-5p in CRC cells indicating that regulation of CCR6 expression by miR-518a-5p might be a regulatory mechanism involved in CRC pathogenesis.
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Literature
1.
Huntzinger E, Izaurralde E: Gene silencing by microRNAs: contributions of translational repression and mRNA decay. Nat Rev Genet. 2011, 12: 99-110. 10.1038/nrg2936.CrossRefPubMed
2.
3.
Filipowicz W, Bhattacharyya SN, Sonenberg N: Mechanisms of post-transcriptional regulation by microRNAs: are the answers in sight?. Nat Rev Genet. 2008, 9: 102-114.CrossRefPubMed
4.
Wu L, Belasco JG: Let me count the ways: mechanisms of gene regulation by miRNA s and siRNAs. Mol Cell. 2008, 29: 1-7. 10.1016/j.molcel.2007.12.010.CrossRefPubMed
5.
Baer C, Claus R, Plass C: Genome-wide epigenetic regulation of miRNAs in cancer. Cancer Res. 2013, 73: 473-477. 10.1158/0008-5472.CAN-12-3731.CrossRefPubMed
6.
Grund SE, Polycarpou-Schwarz M, Luo C, Eichmüller SB, Diederichs S: Rare Drosha splice variants are deficient in microRNA processing but do not affect general microRNA expression in cancer cells. Neoplasia. 2012, 14: 238-248.PubMedCentralCrossRefPubMed
7.
Cowland JB, Hother C, Grønbaek K: MicroRNAs and cancer. APMIS. 2007, 115: 1090-1106. 10.1111/j.1600-0463.2007.apm_775.xml.x.CrossRefPubMed
8.
Muller A, Homey B, Soto H, Ge N, Catron D, Buchanan ME, McClanahan T, Murphy E, Yuan W, Wagner SN, Barrera JL, Mohar A, Verastegui E, Zlotnik A: Involvement of chemokine receptors in breast cancer metastasis. Nature. 2001, 410: 50-56. 10.1038/35065016.CrossRefPubMed
9.
Ghadjar P, Coupland SE, Na IK, Noutsias M, Letsch A, Stroux A, Bauer S, Buhr HJ, Thiel E, Scheibenbogen C, Keilholz U: Chemokine receptor CCR6 expression level and liver metastasis in colorectal cancer. J Clin Oncol. 2006, 24: 1910-1916. 10.1200/JCO.2005.04.1822.CrossRefPubMed
10.
Ghadjar P, Rubie C, Aebersold DM, Keilholz U: The chemokine CCR6 and its receptor CCR6 in human malignancy with focus on colorectal cancer. Int J Cancer. 2009, 125: 741-745. 10.1002/ijc.24468.CrossRefPubMed
11.
Rubie C1, Frick VO, Pfeil S, Wagner M, Kollmar O, Kopp B, Graber S, Rau BM, Schilling MK: Correlation of IL-8 with induction, progression and metastatic potential of colorectal cancer. World J Gastroenterol. 2007, 13: 4996-5002.PubMedCentralCrossRefPubMed
12.
Rubie C1, Frick VO, Wagner M, Schuld J, Gräber S, Brittner B, Bohle RM, Schilling MK: ELR + CXC chemokine expression in benign and malignant colorectal conditions. BMC Cancer. 2008, 8: 178-187. 10.1186/1471-2407-8-178.PubMedCentralCrossRefPubMed
13.
Rubie C1, Frick VO, Ghadjar P, Wagner M, Justinger C, Faust SK, Vicinus B, Gräber S, Kollmar O, Schilling MK: CXC receptor-4 mRNA silencing abrogates CXCL12-induced migration of colorectal cancer cells. J Transl Med. 2011, 9: 22-35. 10.1186/1479-5876-9-22.PubMedCentralCrossRefPubMed
14.
Sun W, Julie Li YS, Huang HD, Shyy JY, Chien S: MicroRNA: a master regulator of cellular processes for bioengineering systems. Annu Rev Biomed Eng. 2010, 12: 1-27. 10.1146/annurev-bioeng-070909-105314.CrossRefPubMed
15.
Rubie C1, Oliveira V, Kempf K, Wagner M, Tilton B, Rau B, Kruse B, Konig J, Schilling M: Involvement of chemokine receptor CCR6 in colorectal cancer metastasis. Tumour Biol. 2006, 27: 166-174. 10.1159/000092777.CrossRefPubMed
16.
Frick VO, Rubie C, Kölsch K, Wagner M, Ghadjar P, Graeber S, Glanemann M: CCR6/CCL20 chemokine expression profile in distinct colorectal malignancies. Scand J Immunol. 2013, [Epub ahead of print]
17.
Rubie C, Frick VO, Ghadjar P, Wagner M, Justinger C, Graeber S, Sperling J, Kollmar O, Schilling MK: Effect of preoperative FOLFOX chemotherapy on CCL20/CCR6 expression in colorectal liver metastases. World J Gastroenterol. 2011, 17: 3109-3116.PubMedCentralPubMed
18.
Yang CC, Ogawa H, Dwinell MB, McCole DF, Eckmann L, Kagnoff MF: Chemokine receptor CCR6 transduces signals that activate p130Cas and alter cAMP-stimulated ion transport in human intestinal epithelial cells. Am J Physiol Cell Physiol. 2005, 288: 321-328. 10.1152/ajpcell.00171.2004.CrossRef
19.
Brand S, Olszak T, Beigel F, Diebold J, Otte JM, Eichhorst ST, Göke B, Dambacher J: Cell differentiation dependent expressed CCR6 mediates ERK-1/2. SAPK/J. NK, and Akt signaling resulting in proliferation and migration of colorectal cancer cells. J Cell Biochem. 2006, 97: 709-723. 10.1002/jcb.20672.CrossRefPubMed
20.
Cummins JM, He Y, Leary RJ, Pagliarini R, Diaz LA, Sjoblom T, Barad O, Bentwich Z, Szafranska AE, Labourier E, Raymond CK, Roberts BS, Juhl H, Kinzler KW, Vogelstein B, Velculescu VE: The colorectal microRNAome. Proc Natl Acad Sci U S A. 2006, 103: 3687-3692. 10.1073/pnas.0511155103.PubMedCentralCrossRefPubMed
21.
Bandrés E, Cubedo E, Agirre X, Malumbres R, Zárate R, Ramirez N, Abajo A, Navarro A, Moreno I, Monzó M, García-Foncillas J: Identification by Real-time PCR of 13 mature microRNAs differentially expressed in colorectal cancer and non-tumoral tissues. Mol Cancer. 2006, 5: 29-38.PubMedCentralCrossRefPubMed
22.
Vicinus B, Rubie C, Faust SK, Frick VO, Ghadjar P, Wagner M, Graeber S, Schilling MK: miR-21 functionally interacts with the 3′UTR of chemokine CCL20 and down-regulates CCL20 expression in miR-21 transfected colorectal cancer cells. Cancer Lett. 2012, 316: 105-112. 10.1016/j.canlet.2011.10.031.CrossRefPubMed
23.
Vicinus B, Rubie C, Stegmaier N, Frick VO, Kölsch K, Kauffels A, Ghadjar P, Wagner M, Glanemann M: miR-21 and its target gene CCL20 are both highly overexpressed in the microenvironment of colorectal tumors: Significance of their regulation. Oncol Rep. 2013, 30: 1285-1292.PubMed
24.
Bustin SA: Absolute quantification of mRNA using real time reverse transcription polymerase chain reaction assays. J Mol Endocrinol. 2000, 25: 169-193. 10.1677/jme.0.0250169.CrossRefPubMed
25.
Rubie C, Kempf K, Hans J, Su T, Tilton B, Georg T, Brittner B, Ludwig B, Schilling M: Housekeeping gene variability in normal and cancerous colorectal, pancreatic, esophageal, gastric and hepatic tissues. Mol Cell Probes. 2005, 19: 101-109.CrossRefPubMed
26.
Szczyrba J, Löprich E, Wach S, Jung V, Unteregger G, Barth S, Grobholz R, Wieland W, Stöhr R, Hartmann A, Wullich B, Grässer F: The microRNA profile of prostate carcinoma obtained by deep sequencing. Mol Cancer Res. 2010, 8: 29-38.CrossRef
27.
Yi YH, Sun XS, Qin JM, Zhao QH, Liao WP, Long YS: Experimental identification of microRNA targets on the 3′ untranslated region of human FMR1 gene. J Neurosci Methods. 2010, 190: 34-38. 10.1016/j.jneumeth.2010.04.022.CrossRefPubMed
28.
Jennewein C, von Knethen A, Schmid T, Brüne B: MicroRNA-27b contributes to lipopolysaccharide-mediated peroxisome proliferator-activated receptor gamma (PPARgamma) mRNA destabilization. J Biol Chem. 2010, 285: 11846-11853. 10.1074/jbc.M109.066399.PubMedCentralCrossRefPubMed
29.
Hutvágner G, Zamore PD: A microRNA in a multiple-turnover RNAi enzyme complex. Science. 2002, 297: 2056-2060. 10.1126/science.1073827.CrossRefPubMed
30.
Rubie C, Kollmar O, Frick VO, Wagner M, Brittner B, Gräber S, Schilling MK: Differential CXC receptor expression in colorectal carcinomas. Scand J Immunol. 2008, 68: 635-644.PubMed
31.
Liu J, Zhang N, Li Q, Zhang W, Ke F, Leng Q, Wang H, Chen J, Wang H: Tumor-associated macrophages recruit CCR6+ regulatory T cells and promote the development of colorectal cancer via enhancing CCL20 production in mice. PLoS One. 2011, 6: 19495-19507. 10.1371/journal.pone.0019495.CrossRef
32.
Hu D, Du C, Xue W, Dou F, Yao Y, Gu J: The expression of chemokine receptors CCR6, CXCR2 and CXCR4 is not organ-specific for distant metastasis in colorectal cancer: a comparative study. Histopathology. 2013, [Epub ahead of print]
33.
Slaby O, Svoboda M, Michalek J, Vyzula R: MiRNAs in colorectal cancer: translation of molecular biology into clinical application. Mol Cancer. 2009, 8: 102-114. 10.1186/1476-4598-8-102.PubMedCentralCrossRefPubMed
34.
35.
Asangani IA, Rasheed SA, Nikolova DA, Leupold JH, Colburn NH, Post S, Allgayer H: MicroRNA-21 (miR-518a-5p) post-transcriptionally downregulates tumor suppressor Pdcd4 and stimulates invasion, intravasation and metastasis in colorectal cancer. Oncogene. 2008, 27: 2128-2136. 10.1038/sj.onc.1210856.CrossRefPubMed
36.
Cheung TH, Man KN, Yu MY, Yim SF, Siu NS, Lo KW, Doran G, Wong RR, Wang VW, Smith DI, Worley MJ, Berkowitz RS, Chung TK, Wong YF: Dysregulated microRNAs in the pathogenesis and progression of cervical neoplasm. Cell Cycle. 2012, 11: 2876-2884. 10.4161/cc.21278.CrossRefPubMed
37.
Balaguer F, Link A, Lozano JJ, Cuatrecasas M, Nagasaka T, Boland CR, Goel A: Epigenetic silencing of miR-137 is an early event in colorectal carcinogenesis. Cancer Res. 2010, 70: 6609-6618. 10.1158/0008-5472.CAN-10-0622.PubMedCentralCrossRefPubMed
38.
Grady WM1, Parkin RK, Mitchell PS, Lee JH, Kim YH, Tsuchiya KD, Washington MK, Paraskeva C, Willson JK, Kaz AM, Kroh EM, Allen A, Fritz BR, Markowitz SD, Tewari M: Epigenetic silencing of the intronic miRNA hsa-miR-342 and its host gene EVL in colorectal cancer. Oncogene. 2008, 27: 3880-3888. 10.1038/onc.2008.10.CrossRefPubMed
39.
Liu M1, Lang N, Qiu M, Xu F, Li Q, Tang Q, Chen J, Chen X, Zhang S, Liu Z, Zhou J, Zhu Y, Deng Y, Zheng Y, Bi F: Mir-137 targets cdc42 expression, induces cell cycle g1 arrest and inhibits invasion in colorectal cancer cells. Int J Cancer. 2011, 128: 1269-1279. 10.1002/ijc.25452.CrossRefPubMed
40.
Liu M, Lang N, Chen X, Tang Q, Liu S, Huang J, Zheng Y, Bi F: Mir-185 targets RhoA and cdc42 expression and inhibits the proliferation potential of colorectal cancer cells. Cancer Lett. 2011, 301: 151-160. 10.1016/j.canlet.2010.11.009.CrossRefPubMed
41.
Nagel R1, le Sage C, Diosdado B, van der Waal M, Oude Vrielink JA, Bolijn A, Meijer GA, Agami R: Regulation of the adenomatous polyposis coli gene by the miR-135 family in colorectal cancer. Cancer Res. 2008, 68: 5795-5802. 10.1158/0008-5472.CAN-08-0951.CrossRefPubMed
42.
Ng EK, Tsang WP, Ng SS, Jin HC, Yu J, Li JJ, Röcken C, Ebert MP, Kwok TT, Sung JJ: MiRNA-143 targets DNA methyltransferases 3A in colorectal cancer. Br J Cancer. 2009, 101: 699-706. 10.1038/sj.bjc.6605195.PubMedCentralCrossRefPubMed
43.
Chang TC, Wentzel EA, Kent OA, Ramachandran K, Mullendore M, Lee KH, Feldmann G, Yamakuchi M, Ferlito M, Lowenstein CJ, Arking DE, Beer MA, Maitra A, Mendell JT: Transactivation of miR-34a by p53 broadly influences gene expression and promotes apoptosis. Mol Cell. 2007, 26: 745-752. 10.1016/j.molcel.2007.05.010.PubMedCentralCrossRefPubMed
44.
Tazawa H, Tsuchiya N, Izumiya M, Nakagama H: Tumor-suppressive miR-34a induces senescence-like growth arrest through modulation of the E2F pathway in human colon cancer cells. Proc Natl Acad Sci USA. 2007, 104: 15472-15477. 10.1073/pnas.0707351104.PubMedCentralCrossRefPubMed
45.
Vogelstein B, Lane D, Levine AJ: Surfing the p53 network. Nature. 2000, 408: 307-310. 10.1038/35042675.CrossRefPubMed
46.
Lodygin D, Tarasov V, Epanchintsev A, Berking C, Knyazeva T, Körner H, Knyazev P, Diebold J, Hermeking H: Inactivation of miR- 34a by aberrant CpG methylation in multiple types of cancer. Cell Cycle. 2008, 7: 2591-2600. 10.4161/cc.7.16.6533.CrossRefPubMed
47.
Toyota M, Suzuki H, Sasaki Y, Maruyama R, Imai K, Shinomura Y, Tokino T: Epigenetic silencing of miRNA-34b/c and B-cell translocation gene 4 is associated with CpG island methylation in colorectal cancer. Cancer Res. 2008, 68: 4123-4132. 10.1158/0008-5472.CAN-08-0325.CrossRefPubMed
48.
Cannell IG, Bushell M: Regulation of Myc by miR-34c: a mechanism to prevent genomic instability?. Cell Cycle. 2010, 9: 2726-2730.CrossRefPubMed
49.
Cannell IG, Kong YW, Johnston SJ, Chen ML, Collins HM, Dobbyn HC, Elia A, Kress TR, Dickens M, Clemens MJ, Heery DM, Gaestel M, Eilers M, Willis AE, Bushell M: p38 MAPK/MK2-mediated induction of miR-34c following DNA damage prevents Myc-dependent DNA replication. Proc Natl Acad Sci USA. 2010, 107: 5375-5380. 10.1073/pnas.0910015107.PubMedCentralCrossRefPubMed
Metadata
Title
Chemokine receptor CCR6 expression is regulated by miR-518a-5p in colorectal cancer cells
Authors
Claudia Rubie
Bianca Kruse
Vilma Oliveira Frick
Kathrin Kölsch
Pirus Ghadjar
Mathias Wagner
Friedrich Grässer
Stefan Wagenpfeil
Mathias Glanemann
Publication date
01-12-2014
Publisher
BioMed Central
Published in
Journal of Translational Medicine / Issue 1/2014
Electronic ISSN: 1479-5876
DOI
https://doi.org/10.1186/1479-5876-12-48

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