Literature DB >> 18483222

PP2B and PP1alpha cooperatively disrupt 7SK snRNP to release P-TEFb for transcription in response to Ca2+ signaling.

Ruichuan Chen1, Min Liu, Huan Li, Yuhua Xue, Wanichaya N Ramey, Nanhai He, Nanping Ai, Haohong Luo, Ying Zhu, Nan Zhou, Qiang Zhou.   

Abstract

The positive transcription elongation factor b (P-TEFb), consisting of Cdk9 and cyclin T, stimulates RNA polymerase II elongation and cotranscriptional pre-mRNA processing. To accommodate different growth conditions and transcriptional demands, a reservoir of P-TEFb is kept in an inactive state in the multisubunit 7SK snRNP. Under certain stress or disease conditions, P-TEFb is released to activate transcription, although the signaling pathway(s) that controls this is largely unknown. Here, through analyzing the UV- or hexamethylene bisacetamide (HMBA)-induced release of P-TEFb from 7SK snRNP, an essential role for the calcium ion (Ca2+)-calmodulin-protein phosphatase 2B (PP2B) signaling pathway is revealed. However, Ca2+ signaling alone is insufficient, and PP2B must act sequentially and cooperatively with protein phosphatase 1alpha (PP1alpha) to disrupt 7SK snRNP. Activated by UV/HMBA and facilitated by a PP2B-induced conformational change in 7SK snRNP, PP1alpha releases P-TEFb through dephosphorylating phospho-Thr186 in the Cdk9 T-loop. This event is also necessary for the subsequent recruitment of P-TEFb by the bromodomain protein Brd4 to the preinitiation complex, where Cdk9 remains unphosphorylated and inactive until after the synthesis of a short RNA. Thus, through cooperatively dephosphorylating Cdk9 in response to Ca2+ signaling, PP2B and PP1alpha alter the P-TEFb functional equilibrium through releasing P-TEFb from 7SK snRNP for transcription.

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Year:  2008        PMID: 18483222      PMCID: PMC2377190          DOI: 10.1101/gad.1636008

Source DB:  PubMed          Journal:  Genes Dev        ISSN: 0890-9369            Impact factor:   11.361


  38 in total

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3.  The bromodomain protein Brd4 is a positive regulatory component of P-TEFb and stimulates RNA polymerase II-dependent transcription.

Authors:  Moon Kyoo Jang; Kazuki Mochizuki; Meisheng Zhou; Ho-Sang Jeong; John N Brady; Keiko Ozato
Journal:  Mol Cell       Date:  2005-08-19       Impact factor: 17.970

4.  Recruitment of P-TEFb for stimulation of transcriptional elongation by the bromodomain protein Brd4.

Authors:  Zhiyuan Yang; Jasper H N Yik; Ruichuan Chen; Nanhai He; Moon Kyoo Jang; Keiko Ozato; Qiang Zhou
Journal:  Mol Cell       Date:  2005-08-19       Impact factor: 17.970

5.  CDK9 autophosphorylation regulates high-affinity binding of the human immunodeficiency virus type 1 tat-P-TEFb complex to TAR RNA.

Authors:  M E Garber; T P Mayall; E M Suess; J Meisenhelder; N E Thompson; K A Jones
Journal:  Mol Cell Biol       Date:  2000-09       Impact factor: 4.272

6.  Relief of two built-In autoinhibitory mechanisms in P-TEFb is required for assembly of a multicomponent transcription elongation complex at the human immunodeficiency virus type 1 promoter.

Authors:  Y W Fong; Q Zhou
Journal:  Mol Cell Biol       Date:  2000-08       Impact factor: 4.272

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Authors:  Y H Ping; T M Rana
Journal:  J Biol Chem       Date:  1999-03-12       Impact factor: 5.157

9.  Dephosphorylation of CDK9 by protein phosphatase 2A and protein phosphatase-1 in Tat-activated HIV-1 transcription.

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  111 in total

Review 1.  Non-coding RNAs: key regulators of mammalian transcription.

Authors:  Jennifer F Kugel; James A Goodrich
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2.  Expression of a protein phosphatase 1 inhibitor, cdNIPP1, increases CDK9 threonine 186 phosphorylation and inhibits HIV-1 transcription.

Authors:  Tatiana Ammosova; Venkat R K Yedavalli; Xiaomei Niu; Marina Jerebtsova; Aleyde Van Eynde; Monique Beullens; Mathieu Bollen; Kuan-Teh Jeang; Sergei Nekhai
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Review 3.  RNA polymerase II transcription elongation control.

Authors:  Jiannan Guo; David H Price
Journal:  Chem Rev       Date:  2013-08-06       Impact factor: 60.622

4.  HIV-1 Tat assembles a multifunctional transcription elongation complex and stably associates with the 7SK snRNP.

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Journal:  Mol Cell       Date:  2010-05-14       Impact factor: 17.970

5.  Phosphorylation of HEXIM1 at Tyr271 and Tyr274 Promotes Release of P-TEFb from the 7SK snRNP Complex and Enhances Proviral HIV Gene Expression.

Authors:  Uri R Mbonye; Benlian Wang; Giridharan Gokulrangan; Mark R Chance; Jonathan Karn
Journal:  Proteomics       Date:  2015-05-15       Impact factor: 3.984

6.  Phosphatase PPM1A regulates phosphorylation of Thr-186 in the Cdk9 T-loop.

Authors:  Yan Wang; Eugene C Dow; Yao-Yun Liang; Rajesh Ramakrishnan; Hongbing Liu; Tzu-Ling Sung; Xia Lin; Andrew P Rice
Journal:  J Biol Chem       Date:  2008-10-01       Impact factor: 5.157

7.  Characterization of Cdk9 T-loop phosphorylation in resting and activated CD4(+) T lymphocytes.

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8.  Reactivation of latent HIV: do all roads go through P-TEFb?

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Journal:  Future Virol       Date:  2013-07-01       Impact factor: 1.831

9.  Histone cross-talk connects protein phosphatase 1α (PP1α) and histone deacetylase (HDAC) pathways to regulate the functional transition of bromodomain-containing 4 (BRD4) for inducible gene expression.

Authors:  Xiangming Hu; Xiaodong Lu; Runzhong Liu; Nanping Ai; Zhenhua Cao; Yannan Li; Jiangfang Liu; Bin Yu; Kai Liu; Huiping Wang; Chao Zhou; Yu Wang; Aidong Han; Feng Ding; Ruichuan Chen
Journal:  J Biol Chem       Date:  2014-06-17       Impact factor: 5.157

10.  Cyclin-dependent kinase 7 (CDK7)-mediated phosphorylation of the CDK9 activation loop promotes P-TEFb assembly with Tat and proviral HIV reactivation.

Authors:  Uri Mbonye; Benlian Wang; Giridharan Gokulrangan; Wuxian Shi; Sichun Yang; Jonathan Karn
Journal:  J Biol Chem       Date:  2018-05-09       Impact factor: 5.157
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