Cyclin-Dependent Kinases Are Regulators and Effectors of Oscillations Driven by a Transcription Factor Network

Kovacs, Laura A. Simmons; Mayhew, Michael B.; Orlando, David A.; Jin, Yuliang; Li, Qingyun; Huang, Chunxia; Reed, Steven I.; Mukherjee, Sayan; Haase, Steven B.

doi:10.1016/j.molcel.2011.12.033

Cited by 65 publications

(79 citation statements)

References 34 publications

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“…Together, these data corroborate previous evidence that the CDK system is the regulator and effector of an oscillating transcription factor network. 9,10 Our data extend these findings at the protein/phosphoprotein level.…”

Section: Resultssupporting

confidence: 83%

Silencing of CDK2, but not CDK1, separates mitogenic from anti-apoptotic signaling, sensitizing p53 defective cells for synthetic lethality

Nekova

Kneitz²,

Einsele

et al. 2016

Cell Cycle

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Small molecule inhibitors targeting CDK1/CDK2 have been clinically proven effective against a variety of tumors, albeit at the cost of profound off target toxicities. To separate potential therapeutic from toxic effects, we selectively knocked down CDK1 or CDK2 in p53 mutated HACAT cells by siRNA silencing. Using dynamic, cell cycle wide proteome arrays, we observed minor changes in overall abundance of proteins critically involved in cell cycle transition despite profound G 2 /M or G 1 /S arrest, respectively. Employing phospho site specific analyses, we identified uncoupled mitogenic, yet pro-apoptotic signaling from counter balancing anti-apoptotic activity in CDK2 disrupted cells. Moreover, a crucial role of CDK2 activity in early serum response was observed, extending well-established roles of CDKs outside their cell cycle regulating functions. In contrast, disruption of CDK1 only marginally affected phosphorylation events of crucial signaling nodes prior to G 2 /S transition. The data presented here suggest that the temporal separation of pro-and anti-apoptotic pathways by selective inhibition of CDK2 disrupts coherent signaling modules and may synergize with anti-proliferative drugs, averting toxic side effects from CDK1 inhibition.

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Section: Resultssupporting

confidence: 83%

Silencing of CDK2, but not CDK1, separates mitogenic from anti-apoptotic signaling, sensitizing p53 defective cells for synthetic lethality

Nekova

Kneitz²,

Einsele

et al. 2016

Cell Cycle

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show abstract

“…It is important to compare our results with experimental results supporting the GTO model [Orlando et al, 2008, Simmons Kovacs et al, 2012, Bristow et al, 2014]. …”

Section: Resultsmentioning

confidence: 96%

“…The absence of a second Start gene pulse argues against GTO models requiring no cyclin-Cdk activity at all [Lee et al., 2002, Simmons Kovacs et al, 2012]. However, some GTO models are hybrid models, which incorporate the Start cyclin CLN3 [Simon et al., 2001, Orlando et al, 2008], and CLN3 is not present in clnΔ* and clnΔ*clbΔ* cells.…”

Section: Resultsmentioning

confidence: 99%

“…2 D right) could drive the global cell cycle transcription program without CDK-APC/C regulation. Evidence for such a CDK-APC/C-independent global transcriptional oscillator (GTO) has been reported in yeast cells; hundreds of genes oscillate in mutant strains with crippled CDK-APC/C oscillations [Orlando et al, 2008, Simmons Kovacs et al, 2012, Bristow et al, 2014]. …”

Section: Introductionmentioning

confidence: 99%

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The CDK-APC/C Oscillator Predominantly Entrains Periodic Cell-Cycle Transcription

Rahi

Pecani

Ondračka

et al. 2016

Cell

144

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Throughout cell cycle progression, the expression of multiple transcripts oscillate, and whether these are under the centralized control of the CDK-APC/C proteins or can be driven by a de-centralized transcription factor (TF) cascade is a fundamental question for understanding cell cycle regulation. In budding yeast, we find that the transcription of nearly all genes, as assessed by RNA-seq or fluorescence microscopy in single cells, is dictated by CDK-APC/C. Three exceptional genes are transcribed in a pulsatile pattern in a variety of CDK-APC/C arrests. Pursuing one of these transcripts, the SIC1 inhibitor of B-type cyclins, we use a combination of mathematical modeling and experimentation to provide evidence that, counter-intuitively, Sic1 provides a failsafe mechanism promoting nuclear division when levels of mitotic cyclins are low.

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“…3 Such temporal regulation of gene expression has been well characterized during cell cycle progression. 4 In S. cerevisiae, the CDK Cdc28 (also known as Cdk1) is necessary and sufficient for cell cycle regulation by phosphorylating a large number of substrates to coordinate cell cycle events. 5 Specifically, Cdc28 phosphorylates Whi5 in late G1, leading to dissociation of Whi5 from the transcription factor complex SBF (Swi4/6-dependent cell-cycle box binding factor).…”

Section: The Cell Cycle Rallies the Transcription Cyclementioning

confidence: 99%

The cell cycle rallies the transcription cycle

Chymkowitch

Enserink

2013

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Cyclin-Dependent Kinases Are Regulators and Effectors of Oscillations Driven by a Transcription Factor Network

Cited by 65 publications

References 34 publications

Silencing of CDK2, but not CDK1, separates mitogenic from anti-apoptotic signaling, sensitizing p53 defective cells for synthetic lethality

Silencing of CDK2, but not CDK1, separates mitogenic from anti-apoptotic signaling, sensitizing p53 defective cells for synthetic lethality

The CDK-APC/C Oscillator Predominantly Entrains Periodic Cell-Cycle Transcription

The cell cycle rallies the transcription cycle

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