Smyd2 controls cytoplasmic lysine methylation of Hsp90 and myofilament organization

Laura T. Donlin; Christian Andresen; Steffen Just; Eugene Rudensky; Christopher T. Pappas; Martina Kruger; Erica Y. Jacobs; Andreas Unger; Anke Zieseniss; Marc Werner Dobenecker; Tobias Voelkel; Brian T. Chait; Carol C. Gregorio; Wolfgang Rottbauer; Alexander Tarakhovsky; Wolfgang A. Linke

doi:10.1101/gad.177758.111

Smyd2 controls cytoplasmic lysine methylation of Hsp90 and myofilament organization

Laura T. Donlin, Christian Andresen, Steffen Just, Eugene Rudensky, Christopher T. Pappas, Martina Kruger, Erica Y. Jacobs, Andreas Unger, Anke Zieseniss, Marc Werner Dobenecker, Tobias Voelkel, Brian T. Chait, Carol C. Gregorio, Wolfgang Rottbauer, Alexander Tarakhovsky, Wolfgang A. Linke

Research output: Contribution to journal › Article › peer-review

136 Scopus citations

Abstract

Protein lysine methylation is one of the most widespread post-translational modifications in the nuclei of eukaryotic cells. Methylated lysines on histones and nonhistone proteins promote the formation of protein complexes that control gene expression and DNA replication and repair. In the cytoplasm, however, the role of lysine methylation in protein complex formation is not well established. Here we report that the cytoplasmic protein chaperone Hsp90 is methylated by the lysine methyltransferase Smyd2 in various cell types. In muscle, Hsp90 methylation contributes to the formation of a protein complex containing Smyd2, Hsp90, and the sarcomeric protein titin. Deficiency in Smyd2 results in the loss of Hsp90 methylation, impaired titin stability, and altered muscle function. Collectively, our data reveal a cytoplasmic protein network that employs lysine methylation for the maintenance and function of skeletal muscle.

Original language	English (US)
Pages (from-to)	114-119
Number of pages	6
Journal	Genes and Development
Volume	26
Issue number	2
DOIs	https://doi.org/10.1101/gad.177758.111
State	Published - Jan 15 2012

Keywords

Hsp90
I-band
Lysine methylation
Sarcomere
Smyd2
Titin

ASJC Scopus subject areas

Genetics
Developmental Biology

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Donlin, L. T., Andresen, C., Just, S., Rudensky, E., Pappas, C. T., Kruger, M., Jacobs, E. Y., Unger, A., Zieseniss, A., Dobenecker, M. W., Voelkel, T., Chait, B. T., Gregorio, C. C., Rottbauer, W., Tarakhovsky, A., & Linke, W. A. (2012). Smyd2 controls cytoplasmic lysine methylation of Hsp90 and myofilament organization. Genes and Development, 26(2), 114-119. https://doi.org/10.1101/gad.177758.111

Donlin, LT, Andresen, C, Just, S, Rudensky, E, Pappas, CT, Kruger, M, Jacobs, EY, Unger, A, Zieseniss, A, Dobenecker, MW, Voelkel, T, Chait, BT, Gregorio, CC, Rottbauer, W, Tarakhovsky, A & Linke, WA 2012, 'Smyd2 controls cytoplasmic lysine methylation of Hsp90 and myofilament organization', Genes and Development, vol. 26, no. 2, pp. 114-119. https://doi.org/10.1101/gad.177758.111

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abstract = "Protein lysine methylation is one of the most widespread post-translational modifications in the nuclei of eukaryotic cells. Methylated lysines on histones and nonhistone proteins promote the formation of protein complexes that control gene expression and DNA replication and repair. In the cytoplasm, however, the role of lysine methylation in protein complex formation is not well established. Here we report that the cytoplasmic protein chaperone Hsp90 is methylated by the lysine methyltransferase Smyd2 in various cell types. In muscle, Hsp90 methylation contributes to the formation of a protein complex containing Smyd2, Hsp90, and the sarcomeric protein titin. Deficiency in Smyd2 results in the loss of Hsp90 methylation, impaired titin stability, and altered muscle function. Collectively, our data reveal a cytoplasmic protein network that employs lysine methylation for the maintenance and function of skeletal muscle.",

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AU - Donlin, Laura T.

AU - Andresen, Christian

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AU - Kruger, Martina

AU - Jacobs, Erica Y.

AU - Unger, Andreas

AU - Zieseniss, Anke

AU - Dobenecker, Marc Werner

AU - Voelkel, Tobias

AU - Chait, Brian T.

AU - Gregorio, Carol C.

AU - Rottbauer, Wolfgang

AU - Tarakhovsky, Alexander

AU - Linke, Wolfgang A.

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N2 - Protein lysine methylation is one of the most widespread post-translational modifications in the nuclei of eukaryotic cells. Methylated lysines on histones and nonhistone proteins promote the formation of protein complexes that control gene expression and DNA replication and repair. In the cytoplasm, however, the role of lysine methylation in protein complex formation is not well established. Here we report that the cytoplasmic protein chaperone Hsp90 is methylated by the lysine methyltransferase Smyd2 in various cell types. In muscle, Hsp90 methylation contributes to the formation of a protein complex containing Smyd2, Hsp90, and the sarcomeric protein titin. Deficiency in Smyd2 results in the loss of Hsp90 methylation, impaired titin stability, and altered muscle function. Collectively, our data reveal a cytoplasmic protein network that employs lysine methylation for the maintenance and function of skeletal muscle.

AB - Protein lysine methylation is one of the most widespread post-translational modifications in the nuclei of eukaryotic cells. Methylated lysines on histones and nonhistone proteins promote the formation of protein complexes that control gene expression and DNA replication and repair. In the cytoplasm, however, the role of lysine methylation in protein complex formation is not well established. Here we report that the cytoplasmic protein chaperone Hsp90 is methylated by the lysine methyltransferase Smyd2 in various cell types. In muscle, Hsp90 methylation contributes to the formation of a protein complex containing Smyd2, Hsp90, and the sarcomeric protein titin. Deficiency in Smyd2 results in the loss of Hsp90 methylation, impaired titin stability, and altered muscle function. Collectively, our data reveal a cytoplasmic protein network that employs lysine methylation for the maintenance and function of skeletal muscle.

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KW - Smyd2

KW - Titin

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Smyd2 controls cytoplasmic lysine methylation of Hsp90 and myofilament organization

Abstract

Keywords

ASJC Scopus subject areas

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