GAS5, a non-protein-coding RNA, controls apoptosis and is downregulated in breast cancer (original) (raw)
Berthon P, Cussenot O, Hopwood L, Le Duc A, Maitland NJ . (1995). Functional expression of SV40 in human prostatic epithelial and fibroblastic cells: differentiation pattern of non-tumorigenic cell lines. Int J Oncol6: 333–343. CASPubMed Google Scholar
Bialik S, Kimchi A . (2006). The death-associated protein kinases: Structure, function and beyond. Ann Rev Biochem75: 189–210. ArticleCASPubMed Google Scholar
Chinnaiyan AM, Prasad U, Shankar S, Hamstra DA, Shanaiah M, Chenevert TL et al. (2000). Combined effect of tumor necrosis factor-related apoptosis-inducing ligand and ionizing radiation in breast cancer therapy. Proc Natl Acad Sci USA97: 1754–1759. ArticleCASPubMedPubMed Central Google Scholar
Chirgwin JM, Przybyla AE, Macdonald RJ, Rutter WJ . (1979). Isolation of biologically-active ribonucleic-acid from sources enriched in ribonuclease. Biochemistry18: 5294–5299. ArticleCASPubMed Google Scholar
Coccia EM, Cicala C, Charlesworth A, Ciccarelli C, Rossi GB, Philipson L et al. (1992). Regulation and expression of a growth arrest-specific gene (Gas5) during growth, differentiation, and development. Mole Cell Biol12: 3514–3521. ArticleCAS Google Scholar
Danielsen M, Peterson DO, Stallcup MR . (1983). Immunological selection of variant mouse lymphoid-cells with altered glucocorticoid responsiveness. Mol Cell Biol3: 1310–1316. ArticleCASPubMedPubMed Central Google Scholar
Deiss LP, Feinstein E, Berissi H, Cohen O, Kimchi A . (1995). Identification of a novel serine threonine kinase and a novel 15-Kd protein as potential mediators of the gamma-interferon-induced cell-death. Genes Dev9: 15–30. ArticleCASPubMed Google Scholar
Dong XY, Rodriguez C, Guo P, Sun X, Talbot JT, Zhou W et al. (2008). SnoRNA U50 is a candidate tumor suppressor gene at 6q14.3 with a mutation associated with clinically significant prostate cancer. Hum Mol Genet17: 1031–1042. ArticleCASPubMed Google Scholar
Fan SJ, Smith ML, Rivet DJ, Duba D, Zhan QM, Kohn KW et al. (1995). Disruption of P53 function sensitizes breast-cancer Mcf-7 cells to cisplatin and pentoxifylline. Cancer Res55: 1649–1654. CASPubMed Google Scholar
Fleming JV, Hay SM, Harries DN, Rees WD . (1998). Effects of nutrient deprivation and differentiation on the expression of growth-arrest genes (gas and gadd) in F9 embryonal carcinoma cells. Biochem J330: 573–579. ArticleCASPubMedPubMed Central Google Scholar
Fontanier-Razzaq N, Harries DN, Hay SM, Rees WD . (2002). Amino acid deficiency up-regulates specific mRNAs in murine embryonic cells. J Nutr132: 2137–2142. ArticleCASPubMed Google Scholar
Hale AJ, Smith CA, Sutherland LC, Stoneman VEA, Longthorne VL, Culhane AC et al. (1996). Apoptosis: molecular regulation of cell death. Eur J Biochem236: 1–26. ArticleCASPubMed Google Scholar
Horoszewicz JS, Leong SS, Kawinski E, Karr JP, Rosenthal H, Chu TM et al. (1983). LNCaP model of human prostatic carcinoma. Cancer Res43: 1809–1818. CASPubMed Google Scholar
Inbal B, Cohen O, PolakCharcon S, Kopolovic J, Vadai E, Eisenbach L et al. (1997). DAP kinase links the control of apoptosis to metastasis. Nature390: 180–184. ArticleCASPubMed Google Scholar
Johnstone RW, Ruefli AA, Lowe SW . (2002). Apoptosis: a link between cancer genetics and chemotherapy. Cell108: 153–164. ArticleCASPubMed Google Scholar
Kaighn ME, Narayan KS, Ohnuki Y, Lechner JF, Jones LW . (1979). Establishment and characterization of a human prostatic carcinoma cell line (PC-3). Invest Urol17: 16–23. CASPubMed Google Scholar
Kerr JFR, Wyllie AH, Currie AR . (1972). Apoptosis—basic biological phenomenon with wide-ranging implications in tissue kinetics. Br J Cancer26: 239–257. ArticleCASPubMedPubMed Central Google Scholar
Kerr JFR, Winterford CM, Harmon BV . (1994). Apoptosis—its significance in cancer and cancer-therapy. Cancer73: 2013–2026. ArticleCASPubMed Google Scholar
Kishore S, Stamm S . (2006). The snoRNA HBII-52 regulates alternative splicing of the serotonin receptor 2C. Science311: 230–232. ArticleCASPubMed Google Scholar
Kiss T . (2002). Small nucleolar RNAs: an abundant group of noncoding RNAs with diverse cellular functions. Cell109: 145–148. ArticleCASPubMed Google Scholar
Lacroix M, Leclercq G . (2004). Relevance of breast cancer cell lines as models for breast tumours: an update. Breast Cancer Res Treat83: 249–289. ArticleCASPubMed Google Scholar
Lam M, Stallcup M, Distelhorst CW . (1997). Expression of a defective mouse mammary tumor virus envelope glycoprotein precursor which binds stably to GRP78 within the lumen of the endoplasmic reticulum is associated with decreased glucocorticoid-induced apoptosis in mouse lymphoma cells. Cell Death Differ4: 283–288. ArticleCASPubMed Google Scholar
Li F, Srinivasan A, Wang Y, Armstrong RC, Tomaselli KJ, Fritz LC . (1997). Cell-specific induction of apoptosis by microinjection of cytochrome _c_—Bcl-x(L) has activity independent of cytochrome c release. J Biol Chem272: 30299–30305. ArticleCASPubMed Google Scholar
Lowe SW, Ruley HE, Jacks T, Housman DE . (1993). P53-dependent apoptosis modulates the cytotoxicity of anticancer agents. Cell74: 957–967. ArticleCASPubMed Google Scholar
Maitland NJ, Macintosh CA, Hall J, Sharrard M, Quinn G, Lang S . (2001). In vitro models to study cellular differentiation and function in human prostate cancers. Radiat Res155: 133–142. ArticleCASPubMed Google Scholar
Matera AG, Terns RM, Terns MP . (2007). Non-coding RNAs: lessons from the small nuclear and small nucleolar RNAs. Nat Rev Mol Cell Biol8: 209–220. ArticleCASPubMed Google Scholar
Morrison LE, Jewell SS, Usha L, Blondin BA, Rao RD, Tabesh B et al. (2007). Effects of ERBB2 amplicon size and genomic alterations of chromosomes 1, 3, and 10 on patient response to trastuzumab in metastatic breast cancer. Genes Chromosomes Cancer46: 397–405. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Hedge VL, Kirkham L, Farzaneh F, Williams GT . (2008). Growth arrest in human T-cells is controlled by growth arrest specific transcript 5 (GAS5), a non-coding RNA. J Cell Sci121 (Part 7): 939–946. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Keen J, Clark J, Cooper CS, Williams GT . (2006). Candidate tumor suppressor LUCA-15/RBM5/H37 modulates expression of apoptosis and cell cycle genes. Exp Cell Res312: 1745–1752. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Kirkham L, Farzaneh F, Williams GT . (2005). Functional expression cloning reveals a central role for the receptor for activated protein kinase C 1 (RACK1) in T cell apoptosis. J Leukoc Biol78: 503–514. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Kirkham L, Farzaneh F, Williams GT . (2004). Regulation of apoptosis by fau revealed by functional expression cloning and antisense expression. Oncogene23: 9419–9426. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Kirkham L, Jenkins B, Rayner J, Gonda TJ, Starr R et al. (2003a). Functional expression cloning reveals proapoptotic role for protein phosphatase 4. Cell Death Differ10: 1016–1024. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Sutherland LC, Meredith JM, Williams GT . (2003b). Simultaneous acceleration of the cell cycle and suppression of apoptosis by splice variant delta-6 of the candidate tumour suppressor LUCA-15/RBM5. Genes Cells8: 109–119. ArticleCASPubMed Google Scholar
Mourtada-Maarabouni M, Sutherland LC, Williams GT . (2002). Candidate tumour suppressor LUCA-15 can regulate multiple apoptotic pathways. Apoptosis7: 421–432. ArticleCASPubMed Google Scholar
Muller AJ, Chatterjee S, Teresky A, Levine AJ . (1998). The gas5 gene is disrupted by a frameshift mutation within its longest open reading frame in several inbred mouse strains and maps to murine chromosome 1. Mamm Genome9: 773–774. ArticleCASPubMed Google Scholar
Nakamura Y, Takahashi N, Kakegawa E, Yoshida K, Ito Y, Kayano H et al. (2008). The GAS5 (growth arrest specific transcript 5) gene fuses to BCL6 as a result of t(1;3)(q25;q27) in a patient with b-cell lymphoma. Cancer Genet Cytogenet182: 144–149. ArticleCASPubMed Google Scholar
Nupponen NN, Carpten JD . (2001). Prostate cancer susceptibility genes: many studies, many results, no answers. Cancer Metastasis Rev20: 155–164. ArticleCASPubMed Google Scholar
Raho G, Barone V, Rossi D, Philipson L, Sorrentino V . (2000). The gas 5 gene shows four alternative splicing patterns without coding for a protein. Gene256: 13–17. ArticleCASPubMed Google Scholar
Rossini GP, Sgarbi N, Malaguti C . (2001). The toxic responses induced by okadaic acid involve processing of multiple caspase isoforms. Toxicon39: 763–770. ArticleCASPubMed Google Scholar
Sax JK, Fei PW, Murphy ME, Bernhard E, Korsmeyer SJ, El-Deiry WS . (2002). BID regulation by p53 contributes to chemosensitivity. Nat Cell Biol4: 842–849. ArticleCASPubMed Google Scholar
Schneider C, King RM, Philipson L . (1988). Genes specifically expressed at growth arrest of mammalian-cells. Cell54: 787–793. ArticleCASPubMed Google Scholar
Smale G, Sasse J . (1992). RNA isolation from cartilage using density gradient centrifugation in cesium trifluoroacetate—an RNA preparation technique effective in the presence of high proteoglycan content. Anal Biochem203: 352–356. ArticleCASPubMed Google Scholar
Smedley D, Sidhar S, Birdsall S, Bennett D, Herlyn M, Cooper C et al. (2000). Characterization of chromosome I abnormalities in malignant melanomas. Genes Chromosomes Cancer28: 121–125. ArticleCASPubMed Google Scholar
Smith CM, Steitz JA . (1998). Classification of gas5 as a multi-small-nucleolar-RNA (snoRNA) host gene and a member of the 5′-terminal oligopyrimidine gene family reveals common features of snoRNA host genes. Mol Cell Biol18: 6897–6909. ArticleCASPubMedPubMed Central Google Scholar
Sramkoski RM, Pretlow TG, Giaconia JM, Pretlow TP, Schwartz S, Sy MS et al. (1999). A new human prostate carcinoma cell line, 22Rv1. In Vitro Cell Dev Biol Anim35: 403–409. ArticleCASPubMed Google Scholar
Stange DE, Radlwimmer B, Schubert F, Traub F, Pich A, Toedt G et al. (2006). High-resolution genomic profiling reveals association of chromosomal aberrations on 1q and 16p with histologic and genetic subgroups of invasive breast cancer. Clin Cancer Res12: 345–352. ArticleCASPubMed Google Scholar
Sutherland LC, Edwards SE, Cable HC, Poirier GG, Miller BA, Cooper CS et al. (2000). LUCA-15-encoded sequence variants regulate CD95-mediated apoptosis. Oncogene19: 3774–3781. ArticleCASPubMed Google Scholar
Tanaka R, Satoh H, Moriyama M, Satoh K, Morishita Y, Yoshida S et al. (2000). Intronic U50 small-nucleolar-RNA (snoRNA) host gene of no protein-coding potential is mapped at the chromosome breakpoint t(3;6)(q27;q15) of human B-cell lymphoma. Genes Cells5: 277–287. ArticleCASPubMed Google Scholar
Thomadaki H, Scorilas A . (2007). Breast cancer cells response to the antineoplastic agents cisplatin, carboplatin, and doxorubicin at the mRNA expression levels of distinct apoptosis-related genes, including the new member, BCL2L12. Ann N Y Acad Sci1095: 35–44. ArticleCASPubMed Google Scholar
Tsuji H, Ishii-Ohba H, Ukai H, Katsube T, Ogiu T . (2003). Radiation-induced deletions in the 5′ end region of Notch1 lead to the formation of truncated proteins and are involved in the development of mouse thymic lymphomas. Carcinogenesis24: 1257–1268. ArticleCASPubMed Google Scholar
Vaux DL, Cory S, Adams JM . (1988). Bcl-2 gene promotes hematopoietic-cell survival and cooperates with C-Myc to immortalize Pre-B-cells. Nature335: 440–442. ArticleCASPubMed Google Scholar
Vitali P, Cavaille J . (2005). Small ARN C/D and Prader–Willi syndrome. Med Sci (Paris)21: 1017–1019. Article Google Scholar
Warri AM, Huovinen RL, Laine AM, Martikainen PM, Harkonen PL (1993). Apoptosis in toremifene-induced growth-inhibition of human breast cancer cells in vivo and in vitro. J Natl Cancer Inst85: 1412–1418. ArticleCASPubMed Google Scholar
Williams GT, Farzaneh F . (2004). The use of gene function to identify the rate-limiting steps controlling cell fate. Cancer Immunol Immunother53: 160–165. ArticlePubMed Google Scholar
Williams GT, Hughes JP, Stoneman V, Anderson CL, McCarthy NJ, Mourtada-Maarabouni M et al. (2006). Isolation of genes controlling apoptosis through their effects on cell survival—research article. Gene Ther Mol Biol10B: 255–261. Google Scholar
Williams GT, Smith CA . (1993). Molecular regulation of apoptosis—genetic-controls on cell-death. Cell74: 777–779. ArticleCASPubMed Google Scholar
Williams GT, Smith CA, Spooncer E, Dexter TM, Taylor DR . (1990). Hematopoietic colony stimulating factors promote cell-survival by suppressing apoptosis. Nature343: 76–79. ArticleCASPubMed Google Scholar