Specific microRNAs are downregulated in human thyroid anaplastic carcinomas (original) (raw)
Bartel DP . (2004). MicroRNAs: genomics, biogenesis, mechanism, and function. Cell116: 281–297. ArticleCAS Google Scholar
Berlingieri MT, Pierantoni GM, Giancotti V, Santoro M, Fusco A . (2002). Thyroid cell transformation requires the expression of the HMGA1 proteins. Oncogene21: 2971–2980. ArticleCAS Google Scholar
Califano D, Monaco C, Santelli G, Giuliano A, Veronese ML, Berlingieri MT et al. (1998). Thymosin beta-10 gene overexpression correlated with the highly malignant neoplastic phenotype of transformed thyroid cells in vivo and in vitro. Cancer Res58: 823–828. CASPubMed Google Scholar
Calin GA, Dumitru CD, Shimizu M, Bichi R, Zupo S, Noch E et al. (2002). Frequent deletions and down-regulation of micro-RNA genes miR15 and miR16 at 13q14 in chronic lymphocytic leukemia. Proc Natl Acad Sci USA99: 15524–15529. ArticleCAS Google Scholar
Calin GA, Ferracin M, Cimmino A, Di Leva G, Shimizu M, Wojcik SE et al. (2005). A MicroRNA signature associated with prognosis and progression in chronic lymphocytic leukemia. N Engl J Med353: 1793–1801. ArticleCAS Google Scholar
Cerutti J, Trapasso F, Battaglia C, Zhang L, Martelli ML, Visconti R et al. (1996). Block of c-myc expression by antisense oligonucleotides inhibits proliferation of human thyroid carcinoma cell lines. Clin Cancer Res2: 119–126. CASPubMed Google Scholar
Chan JA, Krichevsky AM, Kosik KS . (2005). MicroRNA-21 is an antiapoptotic factor in human glioblastoma cells. Cancer Res65: 6029–6033. ArticleCAS Google Scholar
Chiappetta G, Bandiera A, Berlingieri MT, Visconti R, Manfioletti G, Battista S et al. (1995). The expression of the high mobility group HMGI (Y) proteins correlates with the malignant phenotype of human thyroid neoplasias. Oncogene10: 1307–1314. CASPubMed Google Scholar
De Nigris F, Visconti R, Cerutti J, Califano D, Mineo A, Santoro M et al. (1998). Overexpression of the HIP gene coding for a heparin/heparan sulfate-binding protein in human thyroid carcinomas. Cancer Res58: 4745–4751. CASPubMed Google Scholar
Donghi R, Longoni A, Pilotti S, Michieli P, Della Porta G, Pierotti MA . (1993). Gene p53 mutations are restricted to poorly differentiated and undifferentiated carcinomas of the thyroid gland. J Clin Invest91: 1753–1760. ArticleCAS Google Scholar
Fagin JA, Matsuo K, Karmakar A, Chen DL, Tang SH, Koeffler HP . (1993). High prevalence of mutations of p53 gene in poorly differentiated human thyroid carcinomas. J Clin Invest91: 179–184. ArticleCAS Google Scholar
Fedele M, Battista S, Manfioletti G, Croce CM, Giancotti V, Fusco A . (2001). Role of the high mobility group A proteins in human lipomas. Carcinogenesis22: 1583–1591. ArticleCAS Google Scholar
He H, Jazdzewski K, Li W, Liyanarachchi S, Nagy R, Volinia S et al. (2005). The role of microRNA genes in papillary thyroid carcinoma. Proc Natl Acad Sci USA102: 19075–19080. ArticleCAS Google Scholar
He L, Hannon GJ . (2004). MicroRNAs: small RNAs with a big role in gene regulation. Nat Rev Genet5: 522–531. ArticleCAS Google Scholar
Hunt JL, Tometsko M, LiVolsi VA, Swalsky P, Finkelstein SD, Barnes EL . (2003). Molecular evidence of anaplastic transformation in coexisting well-differentiated and anaplastic carcinomas of the thyroid. Am J Surg Pathol27: 1559–1564. Article Google Scholar
Iorio MV, Ferracin M, Liu CG, Veronese A, Spizzo R, Sabbioni S et al. (2005). MicroRNA gene expression deregulation in human breast cancer. Cancer Res65: 7065–7070. ArticleCAS Google Scholar
Ledent C, Dumont J, Vassart G, Parmentier M . (1991). Thyroid adenocarcinomas secondary to tissue-specific expression of simian virus-40 large T-antigen in transgenic mice. Endocrinology129: 1391–1401. ArticleCAS Google Scholar
Lee YS, Kim HK, Chung S, Kim KS, Dutta A . (2005). Depletion of human micro-RNA miR-125b reveals that it is critical for the proliferation of differentiated cells but not for the down-regulation of putative targets during differentiation. J Biol Chem280: 16635–16641. ArticleCAS Google Scholar
Liu CG, Calin GA, Meloon B, Gamliel N, Sevignani C, Ferracin M et al. (2004). An oligonucleotide microchip for genome-wide microRNA profiling in human and mouse tissues. Proc Natl Acad Sci USA101: 9740–9744. ArticleCAS Google Scholar
Martelli ML, Miano MG, Battaglia C, Trapasso F, Stella A, Iuliano R et al. (2000). The highly malignant phenotype of anaplastic thyroid carcinoma cell lines is recessive. Eur J Endocrinol143: 515–521. ArticleCAS Google Scholar
Metzler M, Wilda M, Busch K, Viehmann S, Borkhardt A . (2004). High expression of precursor microRNA-155/BIC RNA in children with Burkitt lymphoma. Genes Chromosome Cancer39: 167–169. ArticleCAS Google Scholar
Michael MZ, O'Connor SM, van Holst Pellekaan NG, Young GP, James RJ . (2003). Reduced accumulation of specific microRNAs in colorectal neoplasia. Mol Cancer Res1: 882–891. CAS Google Scholar
Pallante P, Berlingieri MT, Troncone G, Kruhoffer M, Orntoft TF, Viglietto G et al. (2005). UbcH10 overexpression may represent a marker of anaplastic thyroid carcinomas. Br J Cancer93: 464–471. ArticleCAS Google Scholar
Pallante P, Visone R, Ferracin M, Ferraro A, Berlingieri MT, Troncone G et al. (2006). MicroRNA deregulation in human thyroid papillary carcinomas. Endocr Relat Cancer13: 497–508. ArticleCAS Google Scholar
Ros P, Rossi DL, Acebron A, Santisteban P . (1999). Thyroid-specific gene expression in the multi-step process of thyroid carcinogenesis. Biochimie81: 389–396. ArticleCAS Google Scholar
Sempere LF, Freemantle S, Pitha-Rowe I, Moss E, Dmitrovsky E, Ambros V . (2004). Expression profiling of mammalian microRNAs uncovers a subset of brain-expressed microRNAs with possible roles in murine and human neuronal differentiation. Genome Biol5: R13. Article Google Scholar
Takamizawa J, Konishi H, Yanagisawa K, Tomida S, Osada H, Endoh H et al. (2004). Reduced expression of the let-7 microRNAs in human lung cancers in association with shortened postoperative survival. Cancer Res64: 3753–3756. ArticleCAS Google Scholar
Tallini G, Dal Cin P . (1999). HMGI(Y) and HMGI-C dysregulation: a common occurrence in human tumors. Adv Anat Pathol6: 237–246. ArticleCAS Google Scholar
Volinia S, Calin GA, Liu CG, Ambs S, Cimmino A, Petrocca F et al. (2006). A microRNA expression signature of human solid tumors defines cancer gene targets. Proc Natl Acad Sci USA103: 2257–2261. ArticleCAS Google Scholar
Weber F, Teresi RE, Broelsch CE, Frilling A, Eng C . (2006). A limited set of human MicroRNA is deregulated in follicular thyroid carcinoma. J Clin Endocrinol Metab91: 3584–3591. ArticleCAS Google Scholar