The circadian E3 ligase complex SCFFBXL3+CRY targets TLK2

Stephanie Papp Correia; Alanna B. Chan; Megan Vaughan; Norjin Zolboot; Valerie Perea; Anne Laure Huber; Anna Kriebs; James J. Moresco; John R. Yates; Katja A. Lamia

doi:10.1038/s41598-018-36618-3

The circadian E3 ligase complex SCF^FBXL3+CRY targets TLK2

Stephanie Papp Correia, Alanna B. Chan, Megan Vaughan, Norjin Zolboot, Valerie Perea, Anne Laure Huber, Anna Kriebs, James J. Moresco, John R. Yates, Katja A. Lamia

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

20 Scopus citations

Abstract

We recently demonstrated that the circadian clock component CRY2 is an essential cofactor in the SCF^FBXL3-mediated ubiquitination of c-MYC. Because our demonstration that CRY2 recruits phosphorylated substrates to SCF^FBXL3 was unexpected, we investigated the scope of this role by searching for additional substrates of FBXL3 that require CRY1 or CRY2 as cofactors. Here, we describe an affinity purification mass spectrometry (APMS) screen through which we identified more than one hundred potential substrates of SCF^FBXL3+CRY1/2, including the cell cycle regulated Tousled-like kinase, TLK2. Both CRY1 and CRY2 recruit TLK2 to SCF^FBXL3, and TLK2 kinase activity is required for this interaction. Overexpression or genetic deletion of CRY1 and/or CRY2 decreases or enhances TLK2 protein abundance, respectively. These findings reinforce the idea that CRYs function as co-factors for SCF^FBXL3, provide a resource of potential substrates, and establish a molecular connection between the circadian and cell cycle oscillators via CRY-modulated turnover of TLK2.

Original language	English (US)
Article number	198
Journal	Scientific reports
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-36618-3
State	Published - Dec 1 2019
Externally published	Yes

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@article{051088de080f4af281ef9f6e52a01c35,

title = "The circadian E3 ligase complex SCFFBXL3+CRY targets TLK2",

abstract = "We recently demonstrated that the circadian clock component CRY2 is an essential cofactor in the SCFFBXL3-mediated ubiquitination of c-MYC. Because our demonstration that CRY2 recruits phosphorylated substrates to SCFFBXL3 was unexpected, we investigated the scope of this role by searching for additional substrates of FBXL3 that require CRY1 or CRY2 as cofactors. Here, we describe an affinity purification mass spectrometry (APMS) screen through which we identified more than one hundred potential substrates of SCFFBXL3+CRY1/2, including the cell cycle regulated Tousled-like kinase, TLK2. Both CRY1 and CRY2 recruit TLK2 to SCFFBXL3, and TLK2 kinase activity is required for this interaction. Overexpression or genetic deletion of CRY1 and/or CRY2 decreases or enhances TLK2 protein abundance, respectively. These findings reinforce the idea that CRYs function as co-factors for SCFFBXL3, provide a resource of potential substrates, and establish a molecular connection between the circadian and cell cycle oscillators via CRY-modulated turnover of TLK2.",

author = "Correia, {Stephanie Papp} and Chan, {Alanna B.} and Megan Vaughan and Norjin Zolboot and Valerie Perea and Huber, {Anne Laure} and Anna Kriebs and Moresco, {James J.} and Yates, {John R.} and Lamia, {Katja A.}",

note = "Funding Information: This work was supported by NIH grants DK097164, CA211187, and DK112927 (to K.A.L.) and 8 P41 GM103533 (to J.R.Y. III), a Searle scholars award from the Kinship Foundation (to K.A.L.), and by fellowships from the American Heart Association (16PRE3041001 to S.P.C.) and the Scripps{\textquoteright} Structure and Function Summer Institute (SFSI) funding for V.P. (NSF/DBI-1359160). We thank Drs Luke Wiseman and Justine Lebeau for help with mitochondrial fractionation and Drs. Eros Lazzerini-Denchi, David Sabatini, and Ben Turk for helpful discussions and sharing valuable reagents. Publisher Copyright: {\textcopyright} 2019, The Author(s).",

year = "2019",

month = dec,

day = "1",

doi = "10.1038/s41598-018-36618-3",

language = "English (US)",

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T1 - The circadian E3 ligase complex SCFFBXL3+CRY targets TLK2

AU - Correia, Stephanie Papp

AU - Chan, Alanna B.

AU - Vaughan, Megan

AU - Zolboot, Norjin

AU - Perea, Valerie

AU - Huber, Anne Laure

AU - Kriebs, Anna

AU - Moresco, James J.

AU - Yates, John R.

AU - Lamia, Katja A.

N1 - Funding Information: This work was supported by NIH grants DK097164, CA211187, and DK112927 (to K.A.L.) and 8 P41 GM103533 (to J.R.Y. III), a Searle scholars award from the Kinship Foundation (to K.A.L.), and by fellowships from the American Heart Association (16PRE3041001 to S.P.C.) and the Scripps’ Structure and Function Summer Institute (SFSI) funding for V.P. (NSF/DBI-1359160). We thank Drs Luke Wiseman and Justine Lebeau for help with mitochondrial fractionation and Drs. Eros Lazzerini-Denchi, David Sabatini, and Ben Turk for helpful discussions and sharing valuable reagents. Publisher Copyright: © 2019, The Author(s).

PY - 2019/12/1

Y1 - 2019/12/1

N2 - We recently demonstrated that the circadian clock component CRY2 is an essential cofactor in the SCFFBXL3-mediated ubiquitination of c-MYC. Because our demonstration that CRY2 recruits phosphorylated substrates to SCFFBXL3 was unexpected, we investigated the scope of this role by searching for additional substrates of FBXL3 that require CRY1 or CRY2 as cofactors. Here, we describe an affinity purification mass spectrometry (APMS) screen through which we identified more than one hundred potential substrates of SCFFBXL3+CRY1/2, including the cell cycle regulated Tousled-like kinase, TLK2. Both CRY1 and CRY2 recruit TLK2 to SCFFBXL3, and TLK2 kinase activity is required for this interaction. Overexpression or genetic deletion of CRY1 and/or CRY2 decreases or enhances TLK2 protein abundance, respectively. These findings reinforce the idea that CRYs function as co-factors for SCFFBXL3, provide a resource of potential substrates, and establish a molecular connection between the circadian and cell cycle oscillators via CRY-modulated turnover of TLK2.

AB - We recently demonstrated that the circadian clock component CRY2 is an essential cofactor in the SCFFBXL3-mediated ubiquitination of c-MYC. Because our demonstration that CRY2 recruits phosphorylated substrates to SCFFBXL3 was unexpected, we investigated the scope of this role by searching for additional substrates of FBXL3 that require CRY1 or CRY2 as cofactors. Here, we describe an affinity purification mass spectrometry (APMS) screen through which we identified more than one hundred potential substrates of SCFFBXL3+CRY1/2, including the cell cycle regulated Tousled-like kinase, TLK2. Both CRY1 and CRY2 recruit TLK2 to SCFFBXL3, and TLK2 kinase activity is required for this interaction. Overexpression or genetic deletion of CRY1 and/or CRY2 decreases or enhances TLK2 protein abundance, respectively. These findings reinforce the idea that CRYs function as co-factors for SCFFBXL3, provide a resource of potential substrates, and establish a molecular connection between the circadian and cell cycle oscillators via CRY-modulated turnover of TLK2.

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JO - Scientific reports

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ER -

The circadian E3 ligase complex SCF^FBXL3+CRY targets TLK2

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