Phosphorylation of histone H3T6 by PKCΒ i controls demethylation at histone H3K4

Eric Metzger, Axel Imhof, Dharmeshkumar Patel, Philip Kahl, Katrin Hoffmeyer, Nicolaus Friedrichs, Judith M. Müller, Holger Greschik, Jutta Kirfel, Sujuan Ji, Natalia Kunowska, Christian Beisenherz-Huss, Thomas Günther, Reinhard Buettner, Roland Schüle

Research output: Contribution to journalArticlepeer-review

225 Scopus citations


Demethylation at distinct lysine residues in histone H3 by lysine-specific demethylase 1 (LSD1) causes either gene repression or activation. As a component of co-repressor complexes, LSD1 contributes to target gene repression by removing mono-and dimethyl marks from lysine 4 of histone H3 (H3K4). In contrast, during androgen receptor (AR)-activated gene expression, LSD1 removes mono-and dimethyl marks from lysine 9 of histone H3 (H3K9). Yet, the mechanisms that control this dual specificity of demethylation are unknown. Here we show that phosphorylation of histone H3 at threonine 6 (H3T6) by protein kinase C beta I (PKCΒ I, also known as PRKCΒ) is the key event that prevents LSD1 from demethylating H3K4 during AR-dependent gene activation. In vitro, histone H3 peptides methylated at lysine 4 and phosphorylated at threonine 6 are no longer LSD1 substrates. In vivo, PKCΒ I co-localizes with AR and LSD1 on target gene promoters and phosphorylates H3T6 after androgen-induced gene expression. RNA interference (RNAi)-mediated knockdown of PKCΒ I abrogates H3T6 phosphorylation, enhances demethylation at H3K4, and inhibits AR-dependent transcription. Activation of PKCΒ I requires androgen-dependent recruitment of the gatekeeper kinase protein kinase C (PKC)-related kinase 1 (PRK1). Notably, increased levels of PKCΒ I and phosphorylated H3T6 (H3T6ph) positively correlate with high Gleason scores of prostate carcinomas, and inhibition of PKCΒ I blocks AR-induced tumour cell proliferation in vitro and cancer progression of tumour xenografts in vivo. Together, our data establish that androgen-dependent kinase signalling leads to the writing of the new chromatin mark H3T6ph, which in consequence prevents removal of active methyl marks from H3K4 during AR-stimulated gene expression.

Original languageEnglish (US)
Pages (from-to)792-796
Number of pages5
Issue number7289
StatePublished - Apr 1 2010

Bibliographical note

Funding Information:
Acknowledgements We thank U. Elsäßer-Beile, K. Alt, U. Wetterauer, W. Schulze-Seelmann, R. Schneider, T. Waldmann, L. Heukamp, J. M. G. Higgins and N. Potier for providing reagents. We are obliged to A. Rieder, F. Pfefferle, L. Walz, L. Spady and J. Lauterwasser for technical assistance. This work was supported by grants of the Deutsche Krebshilfe and the Deutsche Forschungsgemeinschaft (Reinhart Koselleck-Projekt, SFB 746/P2, Schu 688/9-1, Dr. Hans Messner Stiftung, Dr. Oetker-Stiftung and SFB 832/Z1) to R.S. and R.B.


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