Carboxy-terminal domain RNA polymerase II polypeptide A small phosphatase 2
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Carboxy-terminal domain RNA polymerase II polypeptide A small phosphatase 2

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Diseases associated with CTDSP2 include Acute Tympanitis and Myringitis Bullosa Hemorrhagica. Among its related pathways are Signaling by BMP and Metabolism of proteins.

Category
Others
Catalog number
BAT-009858
Synonyms
Nuclear LIM interactor-interacting factor 2
Sequence
ILDNSPASYVFHTENAVPVQ
Storage
Common storage 2-8°C, long time storage -20°C.
1. The role of microRNA-26b in human adipocyte differentiation and proliferation
Guixian Song, Guangfeng Xu, Chenbo Ji, Chunmei Shi, Yahui Shen, Ling Chen, Lijun Zhu, Lei Yang, Yaping Zhao, Xirong Guo Gene. 2014 Jan 10;533(2):481-7. doi: 10.1016/j.gene.2013.10.011. Epub 2013 Oct 17.
Recent findings indicate that microRNAs (miRNAs) are involved in the regulatory network of adipogenesis and obesity. Thus far, only a few human miRNAs are known to function as adipogenic regulators, fanning interest in studies on the functional role of miRNAs during adipogenesis in humans. In a previous study, we used a microarray to assess miRNA expression during human preadipocyte differentiation. We found that expression of the miR-26b was increased in mature adipocytes. MiR-26b is an intronic miRNA located in the intron of CTDSP1 (carboxy terminal domain, RNA polymerase II, polypeptide A, small phosphatase 1). Target prediction and Renilla luciferase analyses revealed the phosphatase and tensin homolog gene (PTEN) as a putative target gene. In this study, we found that miR-26b was gradually upregulated during adipocyte differentiation. To understand the roles of miR-26b in adipogenesis, we adopted a loss-of-function approach to silence miR-26b stably in human preadipocytes. We found that miR-26b inhibition effectively suppressed adipocyte differentiation, as evidenced by decreased lipid droplets and the ability of miR-26b to decrease mRNA levels of adipocyte-specific molecular markers and triglyceride accumulation. Furthermore, the cell growth assay revealed that miR-26b inhibition promoted proliferation. Nevertheless, it had no effect on apoptosis. Taken together, these data indicate that miR-26b may be involved in adipogenesis and could be targeted for therapeutic intervention in obesity.
2. Arabidopsis SCP1-like small phosphatases differentially dephosphorylate RNA polymerase II C-terminal domain
Yue Feng, Jae Sook Kang, Sewon Kim, Dae Jin Yun, Sang Yeol Lee, Jeong Dong Bahk, Hisashi Koiwa Biochem Biophys Res Commun. 2010 Jun 25;397(2):355-60. doi: 10.1016/j.bbrc.2010.05.130. Epub 2010 May 27.
RNA polymerase II carboxyl-terminal domain (pol II CTD) phosphatases that can dephosphorylate both Ser2-PO(4) and Ser5-PO(4) of CTD have been identified in animals and yeasts, however, only Ser5-PO(4)-specific CTD phosphatases have been identified in plants. Among predicted Arabidopsis SCP1-like small phosphatases (SSP), SSP4, SSP4b, and SSP5 form a unique group with long N-terminal extensions. While SSPs' expression showed similar tissue-specificities, SSP4 and SSP4b were localized exclusively in the nuclei, whereas SSP5 accumulated in both nuclei and cytoplasm. Detailed characterization of SSP activities using various peptides and full-length Arabidopsis pol II CTD substrates established that SSP4 and SSP4b could dephosphorylate both Ser2-PO(4) and Ser5-PO(4) of CTD, whereas SSP5 dephosphorylated only Ser5-PO(4). These results indicate that Arabidopsis SSP gene family encodes active CTD phosphatases like animal SCP1 family proteins, with distinct substrate specificities.
3. Retroviral cyclin enhances cyclin-dependent kinase-8 activity
Joel Rovnak, Connie D Brewster, Sandra L Quackenbush J Virol. 2012 May;86(10):5742-51. doi: 10.1128/JVI.07006-11. Epub 2012 Feb 29.
Alterations in the functional levels of cyclin-dependent kinase-8 (CDK8) or its partner, cyclin C, have been clearly associated with cancers, including colon cancer, melanoma, and osteosarcoma. Walleye dermal sarcoma virus encodes a retroviral cyclin (RV-cyclin) that localizes to interchromatin granule clusters and binds CDK8. It also binds to the Aα subunit (PR65) of protein phosphatase 2A (PP2A). Binding to the Aα subunit excludes the regulatory B subunit, but not the catalytic C subunit, in a manner similar to that of T antigens of the small DNA tumor viruses. The expression of the RV-cyclin enhances the activity of immune affinity-purified CDK8 in vitro for RNA polymerase II carboxy-terminal domain (CTD) and histone H3 substrates. PP2A also enhances CDK8 kinase activity in vitro for the CTD but not for histone H3. The PP2A enhancement of CDK8 is independent of RV-cyclin expression and likely plays a role in the normal regulation of CDK8. The manipulation of endogenous PP2A activity by inhibition, amendment, or depletion confirmed its role in CDK8 activation by triggering CDK8 autophosphorylation. Although RV-cyclin and PP2A both enhance CDK8 activity, their actions are uncoupled and additive in kinase reactions. PP2A may be recruited to CDK8 in the Mediator complex by a specific PP2A B subunit or additionally by the RV-cyclin in infected cells, but the RV-cyclin appears to activate CDK8 directly and in a manner independent of its physical association with PP2A.
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