Oct motif variants in Beckwith-Wiedemann syndrome patients disrupt maintenance of the hypomethylated state of the H19/IGF2 imprinting control region

被引:6
作者
Kubo, Shuichi [1 ]
Murata, Chihiro [1 ]
Okamura, Hanayo [1 ]
Sakasegawa, Taku [1 ]
Sakurai, Chiye [1 ]
Hatsuzawa, Kiyotaka [1 ]
Hori, Naohiro [1 ]
机构
[1] Tottori Univ, Fac Med, Sch Life Sci, Div Mol Biol, Yonago, Tottori 6838503, Japan
来源
FEBS LETTERS | 2020年 / 594卷 / 10期
关键词
Beckwith-Wiedemann syndrome; CTCF-binding site; DNA demethylation; imprinting control center 1; Oct motif-dependent regulation; P19; cell; TRANSCRIPTIONAL REGULATION; METHYLATION; H19; DEFECTS; DNA; EXPRESSION; ALLELE; GENES; LOCUS; SOX2;
D O I
10.1002/1873-3468.13750
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The methylation status of imprinting control center 1 (IC1) regulates the monoallelic transcription of H19 and Igf2 in mammalian cells. Several single nucleotide variants in Oct motifs within IC1 occur in patients with Beckwith-Wiedemann syndrome (BWS) who have hypermethylated maternal IC1. However, the importance of Oct motifs in the regulation of IC1 methylation status remains unclear. Here, we demonstrate that three variants found in BWS (BWS variants) suppress intensive induction of DNA demethylation, whereas consensus disruption of motifs unrelated to BWS only slightly affects the induction of demethylation. BWS variants reduce DNA demethylation levels and trigger the accumulation of DNA methylation downstream of the IC1 transgenes. Thus, the risk of IC1 hypermethylation is associated with inhibitory levels of Oct motif-dependent hypomethylation maintenance activities.
引用
收藏
页码:1517 / 1531
页数:15
相关论文
共 35 条
[11]   CTCF binding sites promote transcription initiation and prevent DNA methylation on the maternal allele at the imprinted H19/Igf2 locus [J].
Engel, Nora ;
Thorvaldsen, Joanne L. ;
Bartolomei, Marisa S. .
HUMAN MOLECULAR GENETICS, 2006, 15 (19) :2945-2954
[12]   Tissue-specific and mosaic imprinting defects underlie opposite congenital growth disorders in mice [J].
Freschi, Andrea ;
Hur, Stella K. ;
Valente, Federica Maria ;
Ideraabdullah, Folami Y. ;
Sparago, Angela ;
Gentile, Maria Teresa ;
Oneglia, Andrea ;
Di Nucci, Diego ;
Colucci-D'Amato, Luca ;
Thorvaldsen, Joanne L. ;
Bartolomei, Marisa S. ;
Riccio, Andrea ;
Cerrato, Flavia .
PLOS GENETICS, 2018, 14 (02)
[13]   Extensive investigation of the IGF2/H19 imprinting control region reveals novel OCT4/SOX2 binding site defects associated with specific methylation patterns in Beckwith-Wiedemann syndrome [J].
Habib, Walid Abi ;
Azzi, Salah ;
Brioude, Frederic ;
Steunou, Virginie ;
Thibaud, Nathalie ;
Das Neves, Cristina ;
Le Jule, Marilyne ;
Chantot-Bastaraud, Sandra ;
Keren, Boris ;
Lyonnet, Stanislas ;
Michot, Caroline ;
Rossi, Massimiliano ;
Pasquier, Laurent ;
Gicquel, Christine ;
Rossignol, Sylvie ;
Le Bouc, Yves ;
Netchine, Irene .
HUMAN MOLECULAR GENETICS, 2014, 23 (21) :5763-5773
[14]   CTCF mediates methylation-sensitive enhancer-blocking activity at the H19/Igf2 locus [J].
Hark, AT ;
Schoenherr, CJ ;
Katz, DJ ;
Ingram, RS ;
Levorse, JM ;
Tilghman, SM .
NATURE, 2000, 405 (6785) :486-489
[15]   A novel de novo point mutation of the OCT-binding site in the IGF2/H19-imprinting control region in a Beckwith-Wiedemann syndrome patient [J].
Higashimoto, K. ;
Jozaki, K. ;
Kosho, T. ;
Matsubara, K. ;
Fuke, T. ;
Yamada, D. ;
Yatsuki, H. ;
Maeda, T. ;
Ohtsuka, Y. ;
Nishioka, K. ;
Joh, K. ;
Koseki, H. ;
Ogata, T. ;
Soejima, H. .
CLINICAL GENETICS, 2014, 86 (06) :539-544
[16]   Aberrant methylation of H19-DMR acquired after implantation was dissimilar in soma versus placenta of patients with Beckwith-Wiedemann syndrome [J].
Higashimoto, Ken ;
Nakabayashi, Kazuhiko ;
Yatsuki, Hitomi ;
Yoshinaga, Hokuto ;
Jozaki, Kosuke ;
Okada, Junichiro ;
Watanabe, Yoriko ;
Aoki, Aiko ;
Shiozaki, Arihiro ;
Saito, Shigeru ;
Koide, Kayoko ;
Mukai, Tsunehiro ;
Hata, Kenichiro ;
Soejima, Hidenobu .
AMERICAN JOURNAL OF MEDICAL GENETICS PART A, 2012, 158A (07) :1670-1675
[17]   A dyad oct-binding sequence functions as a maintenance sequence for the unmethylated state within the H19/Igf2-imprinted control region [J].
Hori, N ;
Nakano, H ;
Takeuchi, T ;
Kato, H ;
Hamaguchi, S ;
Oshimura, M ;
Sato, K .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2002, 277 (31) :27960-27967
[18]   Induction of DNA Demethylation Depending on Two Sets of Sox2 and Adjacent Oct3/4 Binding Sites (Sox-Oct Motifs) within the Mouse H19/Insulin-like Growth Factor 2 (Igf2) Imprinted Control Region [J].
Hori, Naohiro ;
Yamane, Mariko ;
Kouno, Kaori ;
Sato, Kenzo .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2012, 287 (52) :44006-44016
[19]   Analysis of H19 methylation in control and abnormal human embryos, sperm and oocytes [J].
Ibala-Romdhane, Samira ;
Al-Khtib, Mohamed ;
Khoueiry, Rita ;
Blachere, Thierry ;
Guerin, Jean-Francois ;
Lefevre, Annick .
EUROPEAN JOURNAL OF HUMAN GENETICS, 2011, 19 (11) :1138-1143
[20]   Tissue-specific insulator function at H19/Igf2 revealed by deletions at the imprinting control region [J].
Ideraabdullah, Folami Y. ;
Thorvaldsen, Joanne L. ;
Myers, Jennifer A. ;
Bartolomei, Marisa S. .
HUMAN MOLECULAR GENETICS, 2014, 23 (23) :6246-6259
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