메뉴 건너뛰기




Volumn 7, Issue 4, 2012, Pages

MicroRNA-22 can reduce parathymosin expression in transdifferentiated hepatocytes

Author keywords

[No Author keywords available]

Indexed keywords

DEXAMETHASONE; MICRORNA; MICRORNA 122A; MICRORNA 130B; MICRORNA 21; MICRORNA 22; MICRORNA 93; PARATHYMOSIN; UNCLASSIFIED DRUG; DRUG DERIVATIVE; THYMOSIN;

EID: 84859492679     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0034116     Document Type: Article
Times cited : (6)

References (42)
  • 1
    • 0024286321 scopus 로고
    • Almost total conversion of pancreas to liver in the adult rat: a reliable model to study transdifferentiation
    • Rao MS, Dwivedi RS, Subbarao V, Usman MI, Scarpelli DG, et al. (1988) Almost total conversion of pancreas to liver in the adult rat: a reliable model to study transdifferentiation. Biochem Biophys Res Commun 156: 131-136.
    • (1988) Biochem Biophys Res Commun , vol.156 , pp. 131-136
    • Rao, M.S.1    Dwivedi, R.S.2    Subbarao, V.3    Usman, M.I.4    Scarpelli, D.G.5
  • 2
    • 33846229571 scopus 로고    scopus 로고
    • Copper deprivation in rats induces islet hyperplasia and hepatic metaplasia in the pancreas
    • Tosh D, Shen CN, Alison MR, Sarraf CE, Slack JM, (2007) Copper deprivation in rats induces islet hyperplasia and hepatic metaplasia in the pancreas. Biol Cell 99: 37-44.
    • (2007) Biol Cell , vol.99 , pp. 37-44
    • Tosh, D.1    Shen, C.N.2    Alison, M.R.3    Sarraf, C.E.4    Slack, J.M.5
  • 3
    • 0033672199 scopus 로고    scopus 로고
    • Molecular basis of transdifferentiation of pancreas to liver
    • Shen CN, Slack JM, Tosh D, (2000) Molecular basis of transdifferentiation of pancreas to liver. Nat Cell Biol 2: 879-887.
    • (2000) Nat Cell Biol , vol.2 , pp. 879-887
    • Shen, C.N.1    Slack, J.M.2    Tosh, D.3
  • 4
    • 26444463776 scopus 로고    scopus 로고
    • Hepatocyte-like cells transdifferentiated from a pancreatic origin can support replication of hepatitis B virus
    • Wang RY, Shen CN, Lin MH, Tosh D, Shih C, (2005) Hepatocyte-like cells transdifferentiated from a pancreatic origin can support replication of hepatitis B virus. J Virol 79: 13116-13128.
    • (2005) J Virol , vol.79 , pp. 13116-13128
    • Wang, R.Y.1    Shen, C.N.2    Lin, M.H.3    Tosh, D.4    Shih, C.5
  • 5
    • 2142738979 scopus 로고
    • In vitro propagation of human hepatitis B virus in a rat hepatoma cell line
    • Shih CH, Li LS, Roychoudhury S, Ho MH, (1989) In vitro propagation of human hepatitis B virus in a rat hepatoma cell line. Proc Natl Acad Sci U S A 86: 6323-6327.
    • (1989) Proc Natl Acad Sci U S A , vol.86 , pp. 6323-6327
    • Shih, C.H.1    Li, L.S.2    Roychoudhury, S.3    Ho, M.H.4
  • 6
    • 58249088751 scopus 로고    scopus 로고
    • MicroRNAs: target recognition and regulatory functions
    • Bartel DP, (2009) MicroRNAs: target recognition and regulatory functions. Cell 136: 215-233.
    • (2009) Cell , vol.136 , pp. 215-233
    • Bartel, D.P.1
  • 7
    • 77956370863 scopus 로고    scopus 로고
    • microRNA-1 and microRNA-206 regulate skeletal muscle satellite cell proliferation and differentiation by repressing Pax7
    • Chen JF, Tao Y, Li J, Deng Z, Yan Z, et al. (2010) microRNA-1 and microRNA-206 regulate skeletal muscle satellite cell proliferation and differentiation by repressing Pax7. J Cell Biol 190: 867-879.
    • (2010) J Cell Biol , vol.190 , pp. 867-879
    • Chen, J.F.1    Tao, Y.2    Li, J.3    Deng, Z.4    Yan, Z.5
  • 9
    • 77957954445 scopus 로고    scopus 로고
    • Liver-enriched transcription factors regulate microRNA-122 that targets CUTL1 during liver development
    • Xu H, He JH, Xiao ZD, Zhang QQ, Chen YQ, et al. (2010) Liver-enriched transcription factors regulate microRNA-122 that targets CUTL1 during liver development. Hepatology 52: 1431-1442.
    • (2010) Hepatology , vol.52 , pp. 1431-1442
    • Xu, H.1    He, J.H.2    Xiao, Z.D.3    Zhang, Q.Q.4    Chen, Y.Q.5
  • 10
    • 33645075443 scopus 로고    scopus 로고
    • miR-122 regulation of lipid metabolism revealed by in vivo antisense targeting
    • Esau C, Davis S, Murray SF, Yu XX, Pandey SK, et al. (2006) miR-122 regulation of lipid metabolism revealed by in vivo antisense targeting. Cell Metab 3: 87-98.
    • (2006) Cell Metab , vol.3 , pp. 87-98
    • Esau, C.1    Davis, S.2    Murray, S.F.3    Yu, X.X.4    Pandey, S.K.5
  • 12
    • 34250877841 scopus 로고    scopus 로고
    • A mammalian microRNA expression atlas based on small RNA library sequencing
    • Landgraf P, Rusu M, Sheridan R, Sewer A, Iovino N, et al. (2007) A mammalian microRNA expression atlas based on small RNA library sequencing. Cell 129: 1401-1414.
    • (2007) Cell , vol.129 , pp. 1401-1414
    • Landgraf, P.1    Rusu, M.2    Sheridan, R.3    Sewer, A.4    Iovino, N.5
  • 13
    • 77956292550 scopus 로고    scopus 로고
    • miR-22 forms a regulatory loop in PTEN/AKT pathway and modulates signaling kinetics
    • Bar N, Dikstein R, (2010) miR-22 forms a regulatory loop in PTEN/AKT pathway and modulates signaling kinetics. PLoS One 5: e10859.
    • (2010) PLoS One , vol.5
    • Bar, N.1    Dikstein, R.2
  • 14
    • 67650135755 scopus 로고    scopus 로고
    • miR-22 inhibits estrogen signaling by directly targeting the estrogen receptor alpha mRNA
    • Pandey DP, Picard D, (2009) miR-22 inhibits estrogen signaling by directly targeting the estrogen receptor alpha mRNA. Mol Cell Biol 29: 3783-3790.
    • (2009) Mol Cell Biol , vol.29 , pp. 3783-3790
    • Pandey, D.P.1    Picard, D.2
  • 15
    • 77956338502 scopus 로고    scopus 로고
    • Tumor-suppressive microRNA-22 inhibits the transcription of E-box-containing c-Myc target genes by silencing c-Myc binding protein
    • Xiong J, Du Q, Liang Z, (2010) Tumor-suppressive microRNA-22 inhibits the transcription of E-box-containing c-Myc target genes by silencing c-Myc binding protein. Oncogene 29: 4980-4988.
    • (2010) Oncogene , vol.29 , pp. 4980-4988
    • Xiong, J.1    Du, Q.2    Liang, Z.3
  • 16
    • 77950518701 scopus 로고    scopus 로고
    • Differentiation-associated miR-22 represses Max expression and inhibits cell cycle progression
    • Ting Y, Medina DJ, Strair RK, Schaar DG, (2010) Differentiation-associated miR-22 represses Max expression and inhibits cell cycle progression. Biochem Biophys Res Commun 394: 606-611.
    • (2010) Biochem Biophys Res Commun , vol.394 , pp. 606-611
    • Ting, Y.1    Medina, D.J.2    Strair, R.K.3    Schaar, D.G.4
  • 17
    • 77957982588 scopus 로고    scopus 로고
    • microRNA-22, downregulated in hepatocellular carcinoma and correlated with prognosis, suppresses cell proliferation and tumourigenicity
    • Zhang J, Yang Y, Yang T, Liu Y, Li A, et al. (2010) microRNA-22, downregulated in hepatocellular carcinoma and correlated with prognosis, suppresses cell proliferation and tumourigenicity. Br J Cancer 103: 1215-1220.
    • (2010) Br J Cancer , vol.103 , pp. 1215-1220
    • Zhang, J.1    Yang, Y.2    Yang, T.3    Liu, Y.4    Li, A.5
  • 18
    • 18144401201 scopus 로고    scopus 로고
    • Parathymosin affects the binding of linker histone H1 to nucleosomes and remodels chromatin structure
    • Martic G, Karetsou Z, Kefala K, Politou AS, Clapier CR, et al. (2005) Parathymosin affects the binding of linker histone H1 to nucleosomes and remodels chromatin structure. J Biol Chem 280: 16143-16150.
    • (2005) J Biol Chem , vol.280 , pp. 16143-16150
    • Martic, G.1    Karetsou, Z.2    Kefala, K.3    Politou, A.S.4    Clapier, C.R.5
  • 19
    • 27744441713 scopus 로고    scopus 로고
    • Macromolecular translocation inhibitor II (Zn(2+)-binding protein, parathymosin) interacts with the glucocorticoid receptor and enhances transcription in vivo
    • Okamoto K, Isohashi F, (2005) Macromolecular translocation inhibitor II (Zn(2+)-binding protein, parathymosin) interacts with the glucocorticoid receptor and enhances transcription in vivo. J Biol Chem 280: 36986-36993.
    • (2005) J Biol Chem , vol.280 , pp. 36986-36993
    • Okamoto, K.1    Isohashi, F.2
  • 20
    • 79952742813 scopus 로고    scopus 로고
    • Control of EVI-1 oncogene expression in metastatic breast cancer cells through microRNA miR-22
    • Patel JB, Appaiah HN, Burnett RM, Bhat-Nakshatri P, Wang G, et al. (2011) Control of EVI-1 oncogene expression in metastatic breast cancer cells through microRNA miR-22. Oncogene 30: 1290-1301.
    • (2011) Oncogene , vol.30 , pp. 1290-1301
    • Patel, J.B.1    Appaiah, H.N.2    Burnett, R.M.3    Bhat-Nakshatri, P.4    Wang, G.5
  • 21
    • 78649752499 scopus 로고    scopus 로고
    • Regulation and biological function of the liver-specific miR-122
    • Lewis AP, Jopling CL, (2010) Regulation and biological function of the liver-specific miR-122. Biochem Soc Trans 38: 1553-1557.
    • (2010) Biochem Soc Trans , vol.38 , pp. 1553-1557
    • Lewis, A.P.1    Jopling, C.L.2
  • 23
    • 4644237189 scopus 로고    scopus 로고
    • Fast and effective prediction of microRNA/target duplexes
    • Rehmsmeier M, Steffen P, Hochsmann M, Giegerich R, (2004) Fast and effective prediction of microRNA/target duplexes. RNA 10: 1507-1517.
    • (2004) RNA , vol.10 , pp. 1507-1517
    • Rehmsmeier, M.1    Steffen, P.2    Hochsmann, M.3    Giegerich, R.4
  • 25
    • 34247244657 scopus 로고    scopus 로고
    • The MicroRNA let-7a modulates interleukin-6-dependent STAT-3 survival signaling in malignant human cholangiocytes
    • Meng F, Henson R, Wehbe-Janek H, Smith H, Ueno Y, et al. (2007) The MicroRNA let-7a modulates interleukin-6-dependent STAT-3 survival signaling in malignant human cholangiocytes. J Biol Chem 282: 8256-8264.
    • (2007) J Biol Chem , vol.282 , pp. 8256-8264
    • Meng, F.1    Henson, R.2    Wehbe-Janek, H.3    Smith, H.4    Ueno, Y.5
  • 26
    • 69949098536 scopus 로고    scopus 로고
    • miR-24 Inhibits cell proliferation by targeting E2F2, MYC, and other cell-cycle genes via binding to "seedless" 3′UTR microRNA recognition elements
    • Lal A, Navarro F, Maher CA, Maliszewski LE, Yan N, et al. (2009) miR-24 Inhibits cell proliferation by targeting E2F2, MYC, and other cell-cycle genes via binding to "seedless" 3′UTR microRNA recognition elements. Mol Cell 35: 610-625.
    • (2009) Mol Cell , vol.35 , pp. 610-625
    • Lal, A.1    Navarro, F.2    Maher, C.A.3    Maliszewski, L.E.4    Yan, N.5
  • 27
    • 0029960055 scopus 로고    scopus 로고
    • TRANSFAC: a database on transcription factors and their DNA binding sites
    • Wingender E, Dietze P, Karas H, Knuppel R, (1996) TRANSFAC: a database on transcription factors and their DNA binding sites. Nucleic Acids Res 24: 238-241.
    • (1996) Nucleic Acids Res , vol.24 , pp. 238-241
    • Wingender, E.1    Dietze, P.2    Karas, H.3    Knuppel, R.4
  • 28
    • 0033499662 scopus 로고    scopus 로고
    • Paired-homeodomain transcription factor PAX4 acts as a transcriptional repressor in early pancreatic development
    • Smith SB, Ee HC, Conners JR, German MS, (1999) Paired-homeodomain transcription factor PAX4 acts as a transcriptional repressor in early pancreatic development. Mol Cell Biol 19: 8272-8280.
    • (1999) Mol Cell Biol , vol.19 , pp. 8272-8280
    • Smith, S.B.1    Ee, H.C.2    Conners, J.R.3    German, M.S.4
  • 30
    • 33746055678 scopus 로고    scopus 로고
    • mRNA degradation by miRNAs and GW182 requires both CCR4:NOT deadenylase and DCP1:DCP2 decapping complexes
    • Behm-Ansmant I, Rehwinkel J, Doerks T, Stark A, Bork P, et al. (2006) mRNA degradation by miRNAs and GW182 requires both CCR4:NOT deadenylase and DCP1:DCP2 decapping complexes. Genes Dev 20: 1885-1898.
    • (2006) Genes Dev , vol.20 , pp. 1885-1898
    • Behm-Ansmant, I.1    Rehwinkel, J.2    Doerks, T.3    Stark, A.4    Bork, P.5
  • 31
    • 34247364093 scopus 로고    scopus 로고
    • Mechanisms of microRNA-mediated gene regulation in animal cells
    • Nilsen TW, (2007) Mechanisms of microRNA-mediated gene regulation in animal cells. Trends Genet 23: 243-249.
    • (2007) Trends Genet , vol.23 , pp. 243-249
    • Nilsen, T.W.1
  • 32
    • 24644483623 scopus 로고    scopus 로고
    • Modulation of hepatitis C virus RNA abundance by a liver-specific MicroRNA
    • Jopling CL, Yi M, Lancaster AM, Lemon SM, Sarnow P, (2005) Modulation of hepatitis C virus RNA abundance by a liver-specific MicroRNA. Science 309: 1577-1581.
    • (2005) Science , vol.309 , pp. 1577-1581
    • Jopling, C.L.1    Yi, M.2    Lancaster, A.M.3    Lemon, S.M.4    Sarnow, P.5
  • 33
    • 51049123624 scopus 로고    scopus 로고
    • Genomic profiling of microRNA and messenger RNA reveals deregulated microRNA expression in prostate cancer
    • Ambs S, Prueitt RL, Yi M, Hudson RS, Howe TM, et al. (2008) Genomic profiling of microRNA and messenger RNA reveals deregulated microRNA expression in prostate cancer. Cancer Res 68: 6162-6170.
    • (2008) Cancer Res , vol.68 , pp. 6162-6170
    • Ambs, S.1    Prueitt, R.L.2    Yi, M.3    Hudson, R.S.4    Howe, T.M.5
  • 34
    • 84860389869 scopus 로고    scopus 로고
    • Microarray profiling of monocytic differentiation reveals miRNA-mRNA intrinsic correlation
    • Wang J, Xiang G, Mitchelson K, Zhou Y, (2011) Microarray profiling of monocytic differentiation reveals miRNA-mRNA intrinsic correlation. J Cell Biochem.
    • (2011) J Cell Biochem
    • Wang, J.1    Xiang, G.2    Mitchelson, K.3    Zhou, Y.4
  • 36
    • 45749135780 scopus 로고    scopus 로고
    • Inducible expression of microRNA-194 is regulated by HNF-1alpha during intestinal epithelial cell differentiation
    • Hino K, Tsuchiya K, Fukao T, Kiga K, Okamoto R, et al. (2008) Inducible expression of microRNA-194 is regulated by HNF-1alpha during intestinal epithelial cell differentiation. RNA 14: 1433-1442.
    • (2008) RNA , vol.14 , pp. 1433-1442
    • Hino, K.1    Tsuchiya, K.2    Fukao, T.3    Kiga, K.4    Okamoto, R.5
  • 37
    • 0021921960 scopus 로고
    • Parathymosin alpha: a peptide from rat tissues with structural homology to prothymosin alpha
    • Haritos AA, Salvin SB, Blacher R, Stein S, Horecker BL, (1985) Parathymosin alpha: a peptide from rat tissues with structural homology to prothymosin alpha. Proc Natl Acad Sci U S A 82: 1050-1053.
    • (1985) Proc Natl Acad Sci U S A , vol.82 , pp. 1050-1053
    • Haritos, A.A.1    Salvin, S.B.2    Blacher, R.3    Stein, S.4    Horecker, B.L.5
  • 38
    • 0025822026 scopus 로고
    • Localization of a 11.5 kDa Zn(2+)-binding protein (parathymosin) in different rat tissues. Cell type-specific distribution between cytosolic and nuclear compartment
    • Brand IA, Heinickel A, Soling HD, (1991) Localization of a 11.5 kDa Zn(2+)-binding protein (parathymosin) in different rat tissues. Cell type-specific distribution between cytosolic and nuclear compartment. Eur J Cell Biol 54: 157-165.
    • (1991) Eur J Cell Biol , vol.54 , pp. 157-165
    • Brand, I.A.1    Heinickel, A.2    Soling, H.D.3
  • 39
    • 55349109615 scopus 로고    scopus 로고
    • Roles for microRNAs, miR-93 and miR-130b, and tumor protein 53-induced nuclear protein 1 tumor suppressor in cell growth dysregulation by human T-cell lymphotrophic virus 1
    • Yeung ML, Yasunaga J, Bennasser Y, Dusetti N, Harris D, et al. (2008) Roles for microRNAs, miR-93 and miR-130b, and tumor protein 53-induced nuclear protein 1 tumor suppressor in cell growth dysregulation by human T-cell lymphotrophic virus 1. Cancer Res 68: 8976-8985.
    • (2008) Cancer Res , vol.68 , pp. 8976-8985
    • Yeung, M.L.1    Yasunaga, J.2    Bennasser, Y.3    Dusetti, N.4    Harris, D.5
  • 41
    • 0019966544 scopus 로고
    • Growth of human hepatoma cells lines with differentiated functions in chemically defined medium
    • Nakabayashi H, Taketa K, Miyano K, Yamane T, Sato J, (1982) Growth of human hepatoma cells lines with differentiated functions in chemically defined medium. Cancer Res 42: 3858-3863.
    • (1982) Cancer Res , vol.42 , pp. 3858-3863
    • Nakabayashi, H.1    Taketa, K.2    Miyano, K.3    Yamane, T.4    Sato, J.5
  • 42
    • 0018718742 scopus 로고
    • Controlled synthesis of HBsAg in a differentiated human liver carcinoma-derived cell line
    • Aden DP, Fogel A, Plotkin S, Damjanov I, Knowles BB, (1979) Controlled synthesis of HBsAg in a differentiated human liver carcinoma-derived cell line. Nature 282: 615-616.
    • (1979) Nature , vol.282 , pp. 615-616
    • Aden, D.P.1    Fogel, A.2    Plotkin, S.3    Damjanov, I.4    Knowles, B.B.5


* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.