CDK12 controls G1/S progression by regulating RNAPII processivity at core DNA replication genes

Manavalan, Anil Paul Chirackal; Pilařová, Květa; Kluge, Michael; Bartholomeeusen, Koen; Rájecký, Michal; Oppelt, Jan; Khirsariya, Prashant; Paruch, Kamil; Krejčí, Lumír; Friedel, Caroline C.; Blažek, Dalibor

doi:10.15252/embr.201847592

Cited by 68 publications

(135 citation statements)

References 93 publications

(177 reference statements)

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“…Interestingly, RNAP II transcription is not globally impaired in cells without CDK12/cyclin K complex [13]. Chirackal Manavalan et al have found that the inhibition of CDK12 does not affect Ser2 phosphorylation level as well as global transcription but diminishes RNAP II processivity accompanied by transcript shortening of DNA replication genes, which is consistent with defective transcription elongation [9]. Moreover, CDK12 also plays a role in co-transcriptional processing of genes such as MYC, particularly at its 3 end [41].…”

Section: Cdk12 In Gene Transcriptionmentioning

confidence: 96%

“…In 2010, CDK12 was first demonstrated as a transcription-associated CTD kinase in Drosophila [24]. At present, CDK12 is regarded as a transcription-associated CDK, which phosphorylates the CTD of RNAP II [8,9,24,37]. RNAP II is responsible for RNA synthesis of eukaryotic genes.…”

Section: Cdk12 In Gene Transcriptionmentioning

confidence: 99%

“…In addition, CDK12 and cyclin K are considered to be proteins associated with RNAP II and transcription elongation [24,43]. CDK12 binds cyclin K to form a CDK12/cyclin K complex, which regulates phosphorylation of Ser2 in the CTD of RNAP II and expression of DDR genes, DNA replication genes and DNA repair genes [9,13].…”

Section: Cdk12 In Gene Transcriptionmentioning

confidence: 99%

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CDK12: A Potent Target and Biomarker for Human Cancer Therapy

Liang

et al. 2020

Cells

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Cyclin-dependent kinases (CDKs) are a group of serine/threonine protein kinases and play crucial roles in various cellular processes by regulating cell cycle and gene transcription. Cyclin-dependent kinase 12 (CDK12) is an important transcription-associated CDK. It shows versatile roles in regulating gene transcription, RNA splicing, translation, DNA damage response (DDR), cell cycle progression and cell proliferation. Recently, increasing evidence demonstrates the important role of CDK12 in various human cancers, illustrating it as both a biomarker of cancer and a potential target for cancer therapy. Here, we summarize the current knowledge of CDK12, and review the research advances of CDK12′s biological functions, especially its role in human cancers and as a potential target and biomarker for cancer therapy.

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Section: Cdk12 In Gene Transcriptionmentioning

confidence: 96%

Section: Cdk12 In Gene Transcriptionmentioning

confidence: 99%

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CDK12: A Potent Target and Biomarker for Human Cancer Therapy

Liang

et al. 2020

Cells

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“…Cyclin-dependent kinase 12 (CDK12) modulates transcription by acting on RNA polymerase II. In vitro, CDK12 loss-of-function mutations and CDK12 inhibition (CDK12i) reduced the expression of HR-related genes, including BRCA1, ATR, and Fanconi-anemia pathway genes, due to premature cleavage and polyadenylation [151][152][153], leading to reduced capacity for HR repair [154][155][156]. This mechanism of re-inducing HR underlies the synthetic lethality between CDK12i and PARPi, seen in models of HGSOC [157] and breast cancer [156] and may be effective for PARPi-resistant disease in which HR is restored.…”

Section: Parpi and Cdk12 Inhibitionmentioning

confidence: 99%

PARP Inhibitor Resistance Mechanisms and Implications for Post-Progression Combination Therapies

Lee

Matulonis

2020

Cancers

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The use of PARP inhibitors (PARPi) is growing widely as FDA approvals have shifted its use from the recurrence setting to the frontline setting. In parallel, the population developing PARPi resistance is increasing. Here we review the role of PARP, DNA damage repair, and synthetic lethality. We discuss mechanisms of resistance to PARP inhibition and how this informs on novel combinations to re-sensitize cancer cells to PARPi.

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“…Phosphorylation of pRb at several clusters of sites could inhibit E2F binding, especially at the C-terminal sites such as Ser780, Ser795 and Ser807/811 [26]. The activated RNA polymerase II is then able to bind DNA and start transcription of S-phase genes [27][28][29][30]. The CDK-Rb-E2F pathway is undoubtedly responsible for G1 phase progression and transition to the S phase [25].…”

Section: Introductionmentioning

confidence: 99%

CVB3 VP1 interacts with MAT1 to inhibit cell proliferation by interfering with Cdk-activating kinase complex activity in CVB3-induced acute pancreatitis

Zhang

Zeng

Liu

et al. 2020

Preprint

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Coxsackievirus B3 (CVB3) belongs to the genus Enterovirus of the family Picornaviridae and can cause acute acinar pancreatitis in adults. However, the molecular mechanisms of pathogenesis underlying CVB3-induced acute pancreatitis have remained unclear. In this study, we discovered that CVB3 capsid protein VP1 inhibited pancreatic cell proliferation and exerted strong cytopathic effects on HPAC cells. Through yeast two-hybrid, co-immunoprecipitation, and confocal microscopy, we show that Menage a trois 1 (MAT1), a subunit of the Cdk-Activating Kinase (CAK) complex involved in cell proliferation and transcription, is a novel interaction protein with CVB3 VP1. Moreover, CVB3 VP1 inhibited MAT1 accumulation and localization, thus interfering with its interaction with CDK7. Furthermore, CVB3 VP1 could suppress CAK complex enzymic phosphorylation activity towards RNA Pol II and CDK4/6, direct substrates of CAK. VP1 also suppresses phosphorylation of retinoblastoma protein (pRb), an indirect CAK substrate, especially at phospho-pRb Ser780 and phospho-pRb Ser807/811 residues, which are associated with cell proliferation. Finally, we present evidence using deletion mutants that the C-terminal domain (VP1-D8, 768-859aa) is the minimal VP1 region required for its interaction with MAT1, and furthermore, VP1-D8 alone was sufficient to arrest cells in G1/S phase as observed during CVB3 infection. Taken together, we demonstrate that CVB3 VP1 can inhibit CAK complex assembly and activity through direct interaction with MAT1, to block MAT1-mediated CAK-CDK4/6-Rb signaling, and ultimately suppress cell proliferation in pancreatic cells. These findings substantially extend our basic understanding of CVB3-mediated pancreatitis, providing strong candidates for strategic therapeutic targeting.

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CDK12 controls G1/S progression by regulating RNAPII processivity at core DNA replication genes

Cited by 68 publications

References 93 publications

CDK12: A Potent Target and Biomarker for Human Cancer Therapy

CDK12: A Potent Target and Biomarker for Human Cancer Therapy

PARP Inhibitor Resistance Mechanisms and Implications for Post-Progression Combination Therapies

CVB3 VP1 interacts with MAT1 to inhibit cell proliferation by interfering with Cdk-activating kinase complex activity in CVB3-induced acute pancreatitis

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