TRF2 functions as a protein hub and regulates telomere maintenance by recognizing specific peptide motifs

Hyeung Kim; Ok Hee Lee; Huawei Xin; Liuh Yow Chen; Jun Qin; Heekyung Kate Chae; Shiaw Yih Lin; Amin Safari; Dan Liu; Zhou Songyang

doi:10.1038/nsmb.1575

TRF2 functions as a protein hub and regulates telomere maintenance by recognizing specific peptide motifs

Hyeung Kim, Ok Hee Lee, Huawei Xin, Liuh Yow Chen, Jun Qin, Heekyung Kate Chae, Shiaw Yih Lin, Amin Safari, Dan Liu, Zhou Songyang

Systems Biology

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

109 Scopus citations

Abstract

In mammalian cells, the telomeric repeat binding factor (TRF) homology (TRFH) domain-containing telomeric proteins TRF1 and TRF2 associate with a collection of moleculesnecessary for telomere maintenance and cell-cycle progression. However, the specificity and the mechanisms by which TRF2 communicates with different signaling pathways remain largely unknown. Using oriented peptide libraries, we demonstrate that the TRFH domain of human TRF2 recognizes [Y/F]XL peptides with the consensus motif YYHKYRLSPL. Disrupting the interactions between the TRF2 TRFH domain and its targets resulted in telomeric DNA-damage responses. Furthermore, our genome-wide target analysis revealed phosphatase nuclear targeting subunit (PNUTS) and microcephalin 1 (MCPH1) as previously unreported telomere-associated proteins that directly interact with TRF2 via the [Y/F]XL motif. PNUTS and MCPH1 can regulate telomere length and the telomeric DNA-damage response, respectively. Our findings indicate that an array of TRF2 molecules functions as a protein hub and regulates telomeres by recruiting different signaling molecules via a linear sequence code.

Original language	English (US)
Pages (from-to)	372-379
Number of pages	8
Journal	Nature Structural and Molecular Biology
Volume	16
Issue number	4
DOIs	https://doi.org/10.1038/nsmb.1575
State	Published - Apr 2009

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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@article{a2e72eeb6e7c4d4295a5cce1bd6a07c7,

title = "TRF2 functions as a protein hub and regulates telomere maintenance by recognizing specific peptide motifs",

abstract = "In mammalian cells, the telomeric repeat binding factor (TRF) homology (TRFH) domain-containing telomeric proteins TRF1 and TRF2 associate with a collection of moleculesnecessary for telomere maintenance and cell-cycle progression. However, the specificity and the mechanisms by which TRF2 communicates with different signaling pathways remain largely unknown. Using oriented peptide libraries, we demonstrate that the TRFH domain of human TRF2 recognizes [Y/F]XL peptides with the consensus motif YYHKYRLSPL. Disrupting the interactions between the TRF2 TRFH domain and its targets resulted in telomeric DNA-damage responses. Furthermore, our genome-wide target analysis revealed phosphatase nuclear targeting subunit (PNUTS) and microcephalin 1 (MCPH1) as previously unreported telomere-associated proteins that directly interact with TRF2 via the [Y/F]XL motif. PNUTS and MCPH1 can regulate telomere length and the telomeric DNA-damage response, respectively. Our findings indicate that an array of TRF2 molecules functions as a protein hub and regulates telomeres by recruiting different signaling molecules via a linear sequence code.",

author = "Hyeung Kim and Lee, {Ok Hee} and Huawei Xin and Chen, {Liuh Yow} and Jun Qin and Chae, {Heekyung Kate} and Lin, {Shiaw Yih} and Amin Safari and Dan Liu and Zhou Songyang",

note = "Funding Information: We thank S.Y. Jung and Q. He for technical help and M. Lei (University of Michigan) for the GST-TRF2TRFH fusion proteins. We thank J. Pennington and T. Palzkill for peptide synthesis. Work in the laboratories of Z.S. and D.L. is supported by awards from the US National Institutes of Health, the US Department of Defense, American Heart Association, the Welch foundation and the American Cancer Society. Z.S. is funded by the Leukemia and Lymphoma Society.",

year = "2009",

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doi = "10.1038/nsmb.1575",

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AU - Kim, Hyeung

AU - Lee, Ok Hee

AU - Xin, Huawei

AU - Chen, Liuh Yow

AU - Qin, Jun

AU - Chae, Heekyung Kate

AU - Lin, Shiaw Yih

AU - Safari, Amin

AU - Liu, Dan

AU - Songyang, Zhou

N1 - Funding Information: We thank S.Y. Jung and Q. He for technical help and M. Lei (University of Michigan) for the GST-TRF2TRFH fusion proteins. We thank J. Pennington and T. Palzkill for peptide synthesis. Work in the laboratories of Z.S. and D.L. is supported by awards from the US National Institutes of Health, the US Department of Defense, American Heart Association, the Welch foundation and the American Cancer Society. Z.S. is funded by the Leukemia and Lymphoma Society.

PY - 2009/4

Y1 - 2009/4

N2 - In mammalian cells, the telomeric repeat binding factor (TRF) homology (TRFH) domain-containing telomeric proteins TRF1 and TRF2 associate with a collection of moleculesnecessary for telomere maintenance and cell-cycle progression. However, the specificity and the mechanisms by which TRF2 communicates with different signaling pathways remain largely unknown. Using oriented peptide libraries, we demonstrate that the TRFH domain of human TRF2 recognizes [Y/F]XL peptides with the consensus motif YYHKYRLSPL. Disrupting the interactions between the TRF2 TRFH domain and its targets resulted in telomeric DNA-damage responses. Furthermore, our genome-wide target analysis revealed phosphatase nuclear targeting subunit (PNUTS) and microcephalin 1 (MCPH1) as previously unreported telomere-associated proteins that directly interact with TRF2 via the [Y/F]XL motif. PNUTS and MCPH1 can regulate telomere length and the telomeric DNA-damage response, respectively. Our findings indicate that an array of TRF2 molecules functions as a protein hub and regulates telomeres by recruiting different signaling molecules via a linear sequence code.

AB - In mammalian cells, the telomeric repeat binding factor (TRF) homology (TRFH) domain-containing telomeric proteins TRF1 and TRF2 associate with a collection of moleculesnecessary for telomere maintenance and cell-cycle progression. However, the specificity and the mechanisms by which TRF2 communicates with different signaling pathways remain largely unknown. Using oriented peptide libraries, we demonstrate that the TRFH domain of human TRF2 recognizes [Y/F]XL peptides with the consensus motif YYHKYRLSPL. Disrupting the interactions between the TRF2 TRFH domain and its targets resulted in telomeric DNA-damage responses. Furthermore, our genome-wide target analysis revealed phosphatase nuclear targeting subunit (PNUTS) and microcephalin 1 (MCPH1) as previously unreported telomere-associated proteins that directly interact with TRF2 via the [Y/F]XL motif. PNUTS and MCPH1 can regulate telomere length and the telomeric DNA-damage response, respectively. Our findings indicate that an array of TRF2 molecules functions as a protein hub and regulates telomeres by recruiting different signaling molecules via a linear sequence code.

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TRF2 functions as a protein hub and regulates telomere maintenance by recognizing specific peptide motifs

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