SUMO modification is involved in the maintenance of heterochromatin stability in fission yeast

Jin A. Shin; Shik Choi Eun; Soo Kim Hyun; Jenny C.Y. Ho; Felicity Z. Watts; Dai Park Sang; Yeun Kyu Jang

doi:10.1016/j.molcel.2005.08.021

SUMO modification is involved in the maintenance of heterochromatin stability in fission yeast

Jin A. Shin, Shik Choi Eun, Soo Kim Hyun, Jenny C.Y. Ho, Felicity Z. Watts, Dai Park Sang, Yeun Kyu Jang

Department of Systems Biology

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

63 Citations (Scopus)

Abstract

Several studies have suggested that SUMO may participate in the regulation of heterochromatin, but direct evidence is lacking. Here, we present a direct link between sumoylation and heterochromatin stability. SUMO deletion impaired silencing at heterochromatic regions and induced histone H3 Lys4 methylation, a hallmark of active chromatin in fission yeast. Our findings showed that the SUMO-conjugating enzyme Hus5/Ubc9 interacted with the conserved heterochromatin proteins Swi6, Chp2 (a paralog of Swi6), and Clr4 (H3 Lys9 methyltransferase). Moreover, chromatin immunoprecipitation (ChIP) revealed that Hus5 was highly enriched in heterochromatic regions in a heterochromatin-dependent manner, suggesting a direct role of Hus5 in heterochromatin formation. We also found that Swi6, Chp2, and Clr4 themselves can be sumoylated in vivo and defective sumoylation of Swi6 or Chp2 compromised silencing. These results indicate that Hus5 associates with heterochromatin through interactions with heterochromatin proteins and modifies substrates whose sumoylations are required for heterochromatin stability, including heterochromatin proteins themselves.

Original language	English
Pages (from-to)	817-828
Number of pages	12
Journal	Molecular Cell
Volume	19
Issue number	6
DOIs	https://doi.org/10.1016/j.molcel.2005.08.021
Publication status	Published - 2005 Sept 16

Bibliographical note

Funding Information:
We thank Drs. G. Thon, A. Cohen, T. Carr, and K. Ekwall for S. pombe strains and plasmids. In addition, we would like to express many thanks to two anonymous reviewers for their invaluable comments on improvement of our paper. This work was supported by the National Cancer Center Research Grants (0210110 and 0510050) to Y.K.J.

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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10.1016/j.molcel.2005.08.021

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title = "SUMO modification is involved in the maintenance of heterochromatin stability in fission yeast",

abstract = "Several studies have suggested that SUMO may participate in the regulation of heterochromatin, but direct evidence is lacking. Here, we present a direct link between sumoylation and heterochromatin stability. SUMO deletion impaired silencing at heterochromatic regions and induced histone H3 Lys4 methylation, a hallmark of active chromatin in fission yeast. Our findings showed that the SUMO-conjugating enzyme Hus5/Ubc9 interacted with the conserved heterochromatin proteins Swi6, Chp2 (a paralog of Swi6), and Clr4 (H3 Lys9 methyltransferase). Moreover, chromatin immunoprecipitation (ChIP) revealed that Hus5 was highly enriched in heterochromatic regions in a heterochromatin-dependent manner, suggesting a direct role of Hus5 in heterochromatin formation. We also found that Swi6, Chp2, and Clr4 themselves can be sumoylated in vivo and defective sumoylation of Swi6 or Chp2 compromised silencing. These results indicate that Hus5 associates with heterochromatin through interactions with heterochromatin proteins and modifies substrates whose sumoylations are required for heterochromatin stability, including heterochromatin proteins themselves.",

author = "Shin, {Jin A.} and Eun, {Shik Choi} and Hyun, {Soo Kim} and Ho, {Jenny C.Y.} and Watts, {Felicity Z.} and Sang, {Dai Park} and Jang, {Yeun Kyu}",

note = "Funding Information: We thank Drs. G. Thon, A. Cohen, T. Carr, and K. Ekwall for S. pombe strains and plasmids. In addition, we would like to express many thanks to two anonymous reviewers for their invaluable comments on improvement of our paper. This work was supported by the National Cancer Center Research Grants (0210110 and 0510050) to Y.K.J. ",

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AU - Shin, Jin A.

AU - Eun, Shik Choi

AU - Hyun, Soo Kim

AU - Ho, Jenny C.Y.

AU - Watts, Felicity Z.

AU - Sang, Dai Park

AU - Jang, Yeun Kyu

N1 - Funding Information: We thank Drs. G. Thon, A. Cohen, T. Carr, and K. Ekwall for S. pombe strains and plasmids. In addition, we would like to express many thanks to two anonymous reviewers for their invaluable comments on improvement of our paper. This work was supported by the National Cancer Center Research Grants (0210110 and 0510050) to Y.K.J.

PY - 2005/9/16

Y1 - 2005/9/16

N2 - Several studies have suggested that SUMO may participate in the regulation of heterochromatin, but direct evidence is lacking. Here, we present a direct link between sumoylation and heterochromatin stability. SUMO deletion impaired silencing at heterochromatic regions and induced histone H3 Lys4 methylation, a hallmark of active chromatin in fission yeast. Our findings showed that the SUMO-conjugating enzyme Hus5/Ubc9 interacted with the conserved heterochromatin proteins Swi6, Chp2 (a paralog of Swi6), and Clr4 (H3 Lys9 methyltransferase). Moreover, chromatin immunoprecipitation (ChIP) revealed that Hus5 was highly enriched in heterochromatic regions in a heterochromatin-dependent manner, suggesting a direct role of Hus5 in heterochromatin formation. We also found that Swi6, Chp2, and Clr4 themselves can be sumoylated in vivo and defective sumoylation of Swi6 or Chp2 compromised silencing. These results indicate that Hus5 associates with heterochromatin through interactions with heterochromatin proteins and modifies substrates whose sumoylations are required for heterochromatin stability, including heterochromatin proteins themselves.

AB - Several studies have suggested that SUMO may participate in the regulation of heterochromatin, but direct evidence is lacking. Here, we present a direct link between sumoylation and heterochromatin stability. SUMO deletion impaired silencing at heterochromatic regions and induced histone H3 Lys4 methylation, a hallmark of active chromatin in fission yeast. Our findings showed that the SUMO-conjugating enzyme Hus5/Ubc9 interacted with the conserved heterochromatin proteins Swi6, Chp2 (a paralog of Swi6), and Clr4 (H3 Lys9 methyltransferase). Moreover, chromatin immunoprecipitation (ChIP) revealed that Hus5 was highly enriched in heterochromatic regions in a heterochromatin-dependent manner, suggesting a direct role of Hus5 in heterochromatin formation. We also found that Swi6, Chp2, and Clr4 themselves can be sumoylated in vivo and defective sumoylation of Swi6 or Chp2 compromised silencing. These results indicate that Hus5 associates with heterochromatin through interactions with heterochromatin proteins and modifies substrates whose sumoylations are required for heterochromatin stability, including heterochromatin proteins themselves.

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SUMO modification is involved in the maintenance of heterochromatin stability in fission yeast

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

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