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      • Record: found
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      C3G dynamically associates with nuclear speckles and regulates mRNA splicing

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          Abstract

          The first example of a Ras family GTPase and its exchange factor C3G localizing to nuclear speckles and regulating mRNA splicing is presented.

          Abstract

          C3G (Crk SH3 domain binding guanine nucleotide releasing factor) (Rap guanine nucleotide exchange factor 1), essential for mammalian embryonic development, is ubiquitously expressed and undergoes regulated nucleocytoplasmic exchange. Here we show that C3G localizes to SC35-positive nuclear speckles and regulates splicing activity. Reversible association of C3G with speckles was seen on inhibition of transcription and splicing. C3G shows partial colocalization with SC35 and is recruited to a chromatin and RNase-sensitive fraction of speckles. Its presence in speckles is dependent on intact cellular actin cytoskeleton and is lost on expression of the kinase Clk1. Rap1, a substrate of C3G, is also present in nuclear speckles, and inactivation of Rap signaling by expression of GFP-Rap1GAP alters speckle morphology and number. Enhanced association of C3G with speckles is seen on glycogen synthase kinase 3 beta inhibition or differentiation of C2C12 cells to myotubes. CRISPR/Cas9-mediated knockdown of C3G resulted in altered splicing activity of an artificial gene as well as endogenous CD44. C3G knockout clones of C2C12 as well as MDA-MB-231 cells showed reduced protein levels of several splicing factors compared with control cells. Our results identify C3G and Rap1 as novel components of nuclear speckles and a role for C3G in regulating cellular RNA splicing activity.

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          Nuclear speckles: molecular organization, biological function and role in disease

          Lukasz Galganski, Martyna Urbanek, Wlodzimierz J. Krzyzosiak (2017)
          Abstract The nucleoplasm is not homogenous; it consists of many types of nuclear bodies, also known as nuclear domains or nuclear subcompartments. These self-organizing structures gather machinery involved in various nuclear activities. Nuclear speckles (NSs) or splicing speckles, also called interchromatin granule clusters, were discovered as sites for splicing factor storage and modification. Further studies on transcription and mRNA maturation and export revealed a more general role for splicing speckles in RNA metabolism. Here, we discuss the functional implications of the localization of numerous proteins crucial for epigenetic regulation, chromatin organization, DNA repair and RNA modification to nuclear speckles. We highlight recent advances suggesting that NSs facilitate integrated regulation of gene expression. In addition, we consider the influence of abundant regulatory and signaling proteins, i.e. protein kinases and proteins involved in protein ubiquitination, phosphoinositide signaling and nucleoskeletal organization, on pre-mRNA synthesis and maturation. While many of these regulatory proteins act within NSs, direct evidence for mRNA metabolism events occurring in NSs is still lacking. NSs contribute to numerous human diseases, including cancers and viral infections. In addition, recent data have demonstrated close relationships between these structures and the development of neurological disorders.
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            The dynamics of a pre-mRNA splicing factor in living cells.

            T Misteli, Tim Spector, Juan J. Cáceres (1997)
            Pre-mRNA splicing is a predominantly co-transcriptional event which involves a large number of essential splicing factors. Within the mammalian cell nucleus, most splicing factors are concentrated in 20-40 distinct domains called speckles. The function of speckles and the organization of cellular transcription and pre-mRNA splicing in vivo are not well understood. We have investigated the dynamic properties of splicing factors in nuclei of living cells. Here we show that speckles are highly dynamic structures that respond specifically to activation of nearby genes. These dynamic events are dependent on RNA polymerase II transcription, and are sensitive to inhibitors of protein kinases and Ser/Thr phosphatases. When single genes are transcriptionally activated in living cells, splicing factors leave speckles in peripheral extensions and accumulate at the new sites of transcription. We conclude that one function of speckles is to supply splicing factors to active genes. Our observations demonstrate that the interphase nucleus is far more dynamic in nature than previously assumed.
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              Role of the Modular Domains of SR Proteins in Subnuclear Localization and Alternative Splicing Specificity

              Javier F. Cáceres, Tom Misteli, Gavin R. Screaton (1997)
              SR proteins are required for constitutive pre-mRNA splicing and also regulate alternative splice site selection in a concentration-dependent manner. They have a modular structure that consists of one or two RNA-recognition motifs (RRMs) and a COOH-terminal arginine/serine-rich domain (RS domain). We have analyzed the role of the individual domains of these closely related proteins in cellular distribution, subnuclear localization, and regulation of alternative splicing in vivo. We observed striking differences in the localization signals present in several human SR proteins. In contrast to earlier studies of RS domains in the Drosophila suppressor-of-white-apricot (SWAP) and Transformer (Tra) alternative splicing factors, we found that the RS domain of SF2/ASF is neither necessary nor sufficient for targeting to the nuclear speckles. Although this RS domain is a nuclear localization signal, subnuclear targeting to the speckles requires at least two of the three constituent domains of SF2/ASF, which contain additive and redundant signals. In contrast, in two SR proteins that have a single RRM (SC35 and SRp20), the RS domain is both necessary and sufficient as a targeting signal to the speckles. We also show that RRM2 of SF2/ASF plays an important role in alternative splicing specificity: deletion of this domain results in a protein that, although active in alternative splicing, has altered specificity in 5′ splice site selection. These results demonstrate the modularity of SR proteins and the importance of individual domains for their cellular localization and alternative splicing function in vivo.
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                Author and article information

                Contributors
                Tom Misteli: Role: Monitoring Editor
                Journal
                Journal ID (nlm-ta): Mol Biol Cell
                Journal ID (iso-abbrev): Mol. Biol. Cell
                Journal ID (hwp): molbiolcell
                Journal ID (pmc): mbc
                Journal ID (publisher-id): mboc
                Title: Molecular Biology of the Cell
                Publisher: The American Society for Cell Biology
                ISSN (Print): 1059-1524
                ISSN (Electronic): 1939-4586
                Publication date (Print): 01 May 2018
                Volume: 29
                Issue: 9
                Pages: 1111-1124
                Affiliations
                [1]Centre for Cellular and Molecular Biology, Hyderabad 500 007, India
                National Cancer Institute, NIH
                Author notes

                These authors contribution equally.

                No competing interest declared.

                *Address correspondence to: Vegesna Radha ( vradha@ 123456ccmb.res.in ).
                Article
                Publisher ID: E17-07-0442
                DOI: 10.1091/mbc.E17-07-0442
                PMC ID: 5921577
                PubMed ID: 29496966
                SO-VID: f634b4e2-1c00-4173-b53e-1e45eeac5e5e
                Copyright © © 2018 Shakyawar, Muralikrishna, and Radha. “ASCB®,” “The American Society for Cell Biology®,” and “Molecular Biology of the Cell®” are registered trademarks of The American Society for Cell Biology.
                License:

                This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License.

                History
                Date received : 06 July 2017
                Date revision received : 22 February 2018
                Date accepted : 23 February 2018
                Categories
                Subject: Articles
                Subject: Nuclear Functions

                ScienceOpen disciplines: Molecular biology
                Data availability:
                ScienceOpen disciplines: Molecular biology

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