Chromatin Regulator | Alias |
| KDM5B | CT31; PLU1; PUT1; PLU-1; JARID1B; RBBP2H1A |
External Links: | Wiki GeneCards NCBI UniProt |
Related histone modifications: | H3K4me3;H3K4me2 |
Introduction | |
| Full name: Lysine (K)-specific demethylase 5B
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KDM5B displays a demethylase-containing Jmjc domain, along with PHD domains and an ARID domain. It is highly expressed in breast cancer cells, while its expression is limited in normal tissues, requiring iron and α-ketoglutarate to function. Additionally, KDM5B is involved in processes such as development, differentiation, cell proliferation, transcriptional regulation, and chromatin remodeling (1-5). KDM5B can remove mono-, di- and trimethylation on histone H3K4 (1).
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Function and Interaction | |
| KDM5B regulates the expression of many genes related to development, the cell cycle, signal transduction, and metabolism (3,6-7). KDM5B overexpression can increase the transcription of the androgen receptor, which plays a vital role in prostate cancer development via its JmjC domain (1). KDM5B can cooperate with TFAP2C and Myc in suppressing p21 (cip) (CDKN1A), which acts as an inhibitor during the cell cycle (6). This factor can be recruited by Rb to the promoter of some E2f target genes, enabling it to take part in the Rb pathway (8). KDM5B is an activator, rather than a repressor in the self-renewal network (9). It also plays a role in cell-fate decisions (10). However, KDM5B also acts as a transcriptional repressor, and its interactions with brain factor-1 (BF-1) and paired box 9 (PAX9) can dramatically increase its suppression effect (11-12). KDM5B interacts with class I HDACs, class IIa HDACs and N-CoR in breast cancer cells (4). KDM5B can also interact with TIEG1 (transforming growth factor-β inducible early gene-1) to inhibit tumorigenesis by regulating TGF-β signaling (13).
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Disease Association | |
| KDM5B is upregulated in breast cancer and is involved in regulating cell proliferation by interacting with tumor suppressor genes. KDM5Bis also upregulated in prostate cancer cells (1-2,5,12).
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ChIP-Seq data
ChIP-Seq data of related histone modifications
| Products/Substrates | Species | Cell line | Cell type | Tissue | Data | Download |
Send to Cistrome | Analysis Figures | Reference |
|---|
| H3K4me3 |
Homo sapiens |
H1 |
Embryonic Stem Cell |
Embryo |
GSE41009 ,GSM1006722 |
Bed
Big wiggle |
|
Click Download | 23382218 | | H3K4me2 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE46073 ,GSM1122654 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me2 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE46073 ,GSM1122655 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me3 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE46073 ,GSM1122656 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me2 |
Homo sapiens |
SUM159PT |
Epithelium |
Mammary Gland |
GSE46073 ,GSM1122665 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me3 |
Homo sapiens |
SUM159PT |
Epithelium |
Mammary Gland |
GSE46073 ,GSM1122666 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me3 |
Homo sapiens |
MDA-MB-231 |
Epithelium |
Mammary Gland |
GSE49651 ,GSM1204472 |
Bed
Big wiggle |
|
Click Download | 24885402 | | H3K4me3 |
Homo sapiens |
MDA-MB-231 |
Epithelium |
Mammary Gland |
GSE49651 ,GSM1204473 |
Bed
Big wiggle |
|
Click Download | 24885402 | | H3K4me3 |
Mus musculus |
R1 |
Embryonic Stem Cell |
Embryo |
GSE53087 ,GSM1282137 |
Bed
Big wiggle |
|
Click Download | 24495580 | | H3K4me3 |
Mus musculus |
R1 |
Embryonic Stem Cell |
Embryo |
GSE53087 ,GSM1282139 |
Bed
Big wiggle |
|
Click Download | 24495580 | | H3K4me2 |
Homo sapiens |
HCC2157 |
Epithelium |
Mammary Gland |
GSE46055 ,GSM1402462 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me3 |
Homo sapiens |
HCC2157 |
Epithelium |
Mammary Gland |
GSE46055 ,GSM1402463 |
Bed
Big wiggle |
|
Click Download | 24937458 | | H3K4me3 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE59980 ,GSM1462965 |
Bed
Big wiggle |
|
Click Download | 25122745 | | H3K4me3 |
Mus musculus |
R1 |
Embryonic Stem Cell |
Embryo |
GSE74268 ,GSM1915970 |
Bed
Big wiggle |
|
Click Download | 26628093 | | H3K4me2 |
Homo sapiens |
MDA-MB-231 |
Epithelium |
Mammary Gland |
GSE17001 ,GSM425484 |
Bed
Big wiggle |
|
Click Download | 19581485 | | H3K4me3 |
Homo sapiens |
H1 |
Embryonic Stem Cell |
Embryo |
GSE16256 ,GSM605315 |
Bed
Big wiggle |
|
Click Download | 19829295 | | H3K4me3 |
Homo sapiens |
K562 |
Erythroblast |
Bone Marrow |
GSE28162 ,GSM608165 |
Bed
Big wiggle |
|
Click Download | 21596310 | | H3K4me2 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE31151 ,GSM771029 |
Bed
Big wiggle |
|
Click Download | 23001124 | | H3K4me3 |
Homo sapiens |
K562 |
Erythroblast |
Bone Marrow |
GSE35294 ,GSM865280 |
Bed
Big wiggle |
|
Click Download | 23754963 | | H3K4me3 |
Homo sapiens |
K562 |
Erythroblast |
Bone Marrow |
GSE35294 ,GSM865281 |
Bed
Big wiggle |
|
Click Download | 23754963 | | H3K4me3 |
Homo sapiens |
H1 |
Embryonic Stem Cell |
Embryo |
GSE35375 ,GSM867107 |
Bed
Big wiggle |
|
Click Download | 22374078 | | H3K4me3 |
Homo sapiens |
H1 |
Embryonic Stem Cell |
Embryo |
GSE35375 ,GSM867108 |
Bed
Big wiggle |
|
Click Download | 22374078 | | H3K4me3 |
Mus musculus |
R1 |
Embryonic Stem Cell |
Embryo |
GSE36294 ,GSM886518 |
Bed
Big wiggle |
|
Click Download | 24381111 | | H3K4me3 |
Homo sapiens |
H1 |
Embryonic Stem Cell |
Embryo |
GSE16256 ,GSM906405 |
Bed
Big wiggle |
|
Click Download | 19829295 | | H3K4me3 |
Homo sapiens |
MCF-7 |
Epithelium |
Mammary Gland |
GSE35583 ,GSM945269 |
Bed
Big wiggle |
|
Click Download | 22955617 |
|
| Notice: For bigwiggle or bed file download, if the browser cannot automatically download the file,
users can right click the hyperlink and then click the "Save link as..." button, which will automatically redirect to download dialogue box, or click the "Copy link address" button
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then press the "Send Bed" or "Send Big wiggle" button. For data download by Cistrome, users can follow this tutorial.
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References | |
1. Xiang, Y., Zhu, Z., Han, G., Ye, X., Xu, B., Peng, Z., Ma, Y., Yu, Y., Lin, H., Chen, A.P. et al. (2007) JARID1B is a histone H3 lysine 4 demethylase up-regulated in prostate cancer. P Natl Acad Sci USA, 104, 19226-19231.
2. Lu, P.J., Sundquist, K., Baeckstrom, D., Poulsom, R., Hanby, A., Meier-Ewert, S., Jones, T., Mitchell, M., Pitha-Rowe, P., Freemont, P. et al. (1999) A novel gene (PLU-1) containing highly conserved putative DNA chromatin binding motifs is specifically up-regulated in breast cancer. J Biol Chem, 274, 15633-15645.
3. Scibetta, A.G., Santangelo, S., Coleman, J., Hall, D., Chaplin, T., Copier, J., Catchpole, S., Burchell, J. and Taylor-Papadimitriou, J. (2007) Functional analysis of the transcription repressor PLU-1/JARID1B. Mol Cell Biol, 27, 7220-7235.
4. Barrett, A., Santangelo, S., Tan, K., Catchpole, S., Roberts, K., Spencer-Dene, B., Hall, D., Scibetta, A., Burchell, J., Verdin, E. et al. (2007) Breast cancer associated transcriptional repressor PLU-1/JARID1B interacts directly with histone deacetylases. Int J Cancer, 121, 265-275.
5. Catchpole, S., Spencer-Dene, B., Hall, D., Santangelo, S., Rosewell, I., Guenatri, M., Beatson, R., Scibetta, A.G., Burchell, J.M. and Taylor-Papadimitriou, J. (2011) PLU-1/JARID1B/KDM5B is required for embryonic survival and contributes to cell proliferation in the mammary gland and in ER+ breast cancer cells. International Journal of Oncology, 38, 1267-1277.
6. Wong, P.P., Miranda, F., Chan, K.Y.V., Berlato, C., Hurst, H.C. and Scibetta, A.G. (2012) Histone Demethylase KDM5B Collaborates with TFAP2C and Myc To Repress the Cell Cycle Inhibitor p21(cip) (CDKN1A). Mol Cell Biol, 32, 1633-1644.
7. Schmitz, S.U., Albert, M., Malatesta, M., Morey, L., Johansen, J.V., Bak, M., Tommerup, N., Abarrategui, I. and Helin, K. (2011) Jarid1b targets genes regulating development and is involved in neural differentiation. Embo Journal, 30, 4586-4600.
8. Nijwening, J.H., Geutjes, E.J., Bernards, R. and Beijersbergen, R.L. (2011) The Histone Demethylase Jarid1b (Kdm5b) Is a Novel Component of the Rb Pathway and Associates with E2f-Target Genes in MEFs during Senescence. PLoS One, 6.
9. Xie, L.Q., Pelz, C., Wang, W.S., Bashar, A., Varlamova, O., Shadle, S. and Impey, S. (2011) KDM5B regulates embryonic stem cell self-renewal and represses cryptic intragenic transcription. Embo Journal, 30, 1473-1484.
10. Dey, B.K., Stalker, L., Schnerch, A., Bhatia, M., Taylor-Papidimitriou, J. and Wynder, C. (2008) The histone demethylase KDM5b/JARID1b plays a role in cell fate decisions by blocking terminal differentiation. Mol Cell Biol, 28, 5312-5327.
11. Tan, K., Shaw, A.L., Madsen, B., Jensen, K., Taylor-Papadimitriou, J. and Freemont, P.S. (2003) Human PLU-1 has transcriptional repression properties and interacts with the developmental transcription factors BF-1 and PAX9. J Biol Chem, 278, 20507-20513.
12. Yamane, K., Tateishi, K., Klose, R.J., Fang, J., Fabrizio, L.A., Erdjument-Bromage, H., Taylor-Papadimitriou, J., Tempst, P. and Zhang, Y. (2007) PLU-1 is an H3K4 dernethylase involved in transcriptional repression and breast cancer cell proliferation. Mol Cell, 25, 801-812.
13. Kim, J., Shin, S., Subramaniam, M., Bruinsma, E., Kim, T.D., Hawse, J.R., Spelsberg, T.C. and Janknecht, R. (2010) Histone demethylase JARID1B/KDM5B is a corepressor of TIEG1/KLF10. Biochem Bioph Res Co, 401, 412-416.
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