CDK4/6 activity is required during G2 arrest to prevent stress-induced endoreplication

Connor McKenney; Yovel Lendner; Adler Guerrero Zuniga; Niladri Sinha; Benjamin Veresko; Timothy J. Aikin; Sergi Regot

doi:10.1126/science.adi2421

CDK4/6 activity is required during G₂ arrest to prevent stress-induced endoreplication

Connor McKenney, Yovel Lendner, Adler Guerrero Zuniga, Niladri Sinha, Benjamin Veresko, Timothy J. Aikin, Sergi Regot

School of Medicine

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

Abstract

Cell cycle events are coordinated by cyclin-dependent kinases (CDKs) to ensure robust cell division. CDK4/6 and CDK2 regulate the growth 1 (G₁) to synthesis (S) phase transition of the cell cycle by responding to mitogen signaling, promoting E2F transcription and inhibition of the anaphase-promoting complex. We found that this mechanism was still required in G₂-arrested cells to prevent cell cycle exit after the S phase. This mechanism revealed a role for CDK4/6 in maintaining the G₂ state, challenging the notion that the cell cycle is irreversible and that cells do not require mitogens after passing the restriction point. Exit from G₂ occurred during ribotoxic stress and was actively mediated by stress-activated protein kinases. Upon relief of stress, a significant fraction of cells underwent a second round of DNA replication that led to whole-genome doubling.

Original language	English (US)
Journal	Science
Volume	384
Issue number	6695
DOIs	https://doi.org/10.1126/science.adi2421
State	Published - May 3 2024

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title = "CDK4/6 activity is required during G2 arrest to prevent stress-induced endoreplication",

abstract = "Cell cycle events are coordinated by cyclin-dependent kinases (CDKs) to ensure robust cell division. CDK4/6 and CDK2 regulate the growth 1 (G1) to synthesis (S) phase transition of the cell cycle by responding to mitogen signaling, promoting E2F transcription and inhibition of the anaphase-promoting complex. We found that this mechanism was still required in G2-arrested cells to prevent cell cycle exit after the S phase. This mechanism revealed a role for CDK4/6 in maintaining the G2 state, challenging the notion that the cell cycle is irreversible and that cells do not require mitogens after passing the restriction point. Exit from G2 occurred during ribotoxic stress and was actively mediated by stress-activated protein kinases. Upon relief of stress, a significant fraction of cells underwent a second round of DNA replication that led to whole-genome doubling.",

author = "Connor McKenney and Yovel Lendner and Zuniga, {Adler Guerrero} and Niladri Sinha and Benjamin Veresko and Aikin, {Timothy J.} and Sergi Regot",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 the authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original US government works.",

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T1 - CDK4/6 activity is required during G2 arrest to prevent stress-induced endoreplication

AU - McKenney, Connor

AU - Lendner, Yovel

AU - Zuniga, Adler Guerrero

AU - Sinha, Niladri

AU - Veresko, Benjamin

AU - Aikin, Timothy J.

AU - Regot, Sergi

PY - 2024/5/3

Y1 - 2024/5/3

N2 - Cell cycle events are coordinated by cyclin-dependent kinases (CDKs) to ensure robust cell division. CDK4/6 and CDK2 regulate the growth 1 (G1) to synthesis (S) phase transition of the cell cycle by responding to mitogen signaling, promoting E2F transcription and inhibition of the anaphase-promoting complex. We found that this mechanism was still required in G2-arrested cells to prevent cell cycle exit after the S phase. This mechanism revealed a role for CDK4/6 in maintaining the G2 state, challenging the notion that the cell cycle is irreversible and that cells do not require mitogens after passing the restriction point. Exit from G2 occurred during ribotoxic stress and was actively mediated by stress-activated protein kinases. Upon relief of stress, a significant fraction of cells underwent a second round of DNA replication that led to whole-genome doubling.

AB - Cell cycle events are coordinated by cyclin-dependent kinases (CDKs) to ensure robust cell division. CDK4/6 and CDK2 regulate the growth 1 (G1) to synthesis (S) phase transition of the cell cycle by responding to mitogen signaling, promoting E2F transcription and inhibition of the anaphase-promoting complex. We found that this mechanism was still required in G2-arrested cells to prevent cell cycle exit after the S phase. This mechanism revealed a role for CDK4/6 in maintaining the G2 state, challenging the notion that the cell cycle is irreversible and that cells do not require mitogens after passing the restriction point. Exit from G2 occurred during ribotoxic stress and was actively mediated by stress-activated protein kinases. Upon relief of stress, a significant fraction of cells underwent a second round of DNA replication that led to whole-genome doubling.

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CDK4/6 activity is required during G₂ arrest to prevent stress-induced endoreplication

Abstract

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