Alexander M. Ishov scite author profile

Nuclear domain 10 (ND10), also referred to as nuclear bodies, are discrete interchromosomal accumulations of several proteins including promyelocytic leukemia protein (PML) and Sp100. In this study, we investigated the mechanism of ND10 assembly by identifying proteins that are essential for this process using cells lines that lack individual ND10-associated proteins. We identified the adapter protein Daxx and BML, the RecQ helicase missing in Bloom syndrome, as new ND10-associated proteins. PML, but not BLM or Sp100, was found to be responsible for the proper localization of all other ND10-associated proteins since they are dispersed in PML−/− cells. Introducing PML into this cell line by transient expression or fusion with PML-producing cells recruited ND10-associated proteins into de novo formed ND10 attesting to PMLs essential nature in ND10 formation. In the absence of PML, Daxx is highly enriched in condensed chromatin. Its recruitment to ND10 from condensed chromatin requires a small ubiquitin-related modifier (SUMO-1) modification of PML and reflects the interaction between the COOH-terminal domain of Daxx and PML. The segregation of Daxx from condensed chromatin in the absence of PML to ND10 by increased accumulation of SUMO-1–modified PML suggests the presence of a variable equilibrium between these two nuclear sites. Our findings identify the basic requirements for ND10 formation and suggest a dynamic mechanism for protein recruitment to these nuclear domains controlled by the SUMO-1 modification state of PML.

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BAP1: a novel ubiquitin hydrolase which binds to the BRCA1 RING finger and enhances BRCA1-mediated cell growth suppression

Jensen

et al. 1998

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We have identi®ed a novel protein, BAP1, which binds to the RING ®nger domain of the Breast/Ovarian Cancer Susceptibility Gene product, BRCA1. BAP1 is a nuclearlocalized, ubiquitin carboxy-terminal hydrolase, suggesting that deubiquitinating enzymes may play a role in BRCA1 function. BAP1 binds to the wild-type BRCA1-RING ®nger, but not to germline mutants of the BRCA1-RING ®nger found in breast cancer kindreds. BAP1 and BRCA1 are temporally and spatially coexpressed during murine breast development and remodeling, and show overlapping patterns of subnuclear distribution. BAP1 resides on human chromosome 3p21.3; intragenic homozgyous rearrangements and deletions of BAP1 have been found in lung carcinoma cell lines. BAP1 enhances BRCA1-mediated inhibition of breast cancer cell growth and is the ®rst nuclearlocalized ubiquitin carboxy-terminal hydrolase to be identi®ed. BAP1 may be a new tumor suppressor gene which functions in the BRCA1 growth control pathway.

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The periphery of nuclear domain 10 (ND10) as site of DNA virus deposition.

1996

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Abstract. After DNA viruses enter the nucleus, they initiate a transcriptional cascade which is followed by replication. We investigated whether these processes take place at specific nuclear sites or, as suggested by the mode of entry, randomly throughout the nucleus. Three distinct nuclear domains, nuclear factor-1 sites, coiled bodies, and nuclear domain 10 (ND10), were used as markers to investigate the relative position of DNA virus replication sites. We found that all three nuclear domains had a very high spatial correlation with each other in uninfected cells. After adenoviral infection, nuclear factor 1 and coiled bodies were found associated with some viral replication domains. Simian virus 40 begins replication adjacent to ND10 but adenovirus 5 and herpes simplex type 1 modified ND10s before replication. Adenovirus E4orf 3 gene deletion mutants retain ND10 and begin replication at the peripheries of ND10. The same was found for the herpes simplex virus type 1 immediate early gene 1 mutants. That the deposition and replication of adenovirus 5 and herpesvirus type 1 at ND10 was not a mutant phenotype was confirmed by finding the input wild-type virus juxtaposed to ND10. The transport of viral genomes to ND10 does not require viral gene expression. Thus, the peripheries of ND 10 represent preferred sites where early steps of transcription and replication of at least three DNA virus families take place, suggesting a new set of functional properties for this large nuclear domain. MOST DNA viruses must traverse the cytoplasm to enter the nucleus where they replicate and complete the encapsidation of progeny DNA. Viruses can enter the cell by membrane fusion (the enveloped herpes simplex virus type-1 [HSV-1] 1) (Batterson et al., 1983) and attach to and enter endosomes. The viruses are then either released by acidification of the unenveloped virus, adenovirus 5 (Ad5) (Chardonnet and Dales, 1970) or are enveloped by the cell membrane and enter the nucleus by a fusion and fission process with the nuclear envelope (SV-40) (Maul et al., 1978). The stepwise uncoating of adenovirus during entry into the cell results in a capsid that attaches to the nuclear pore complex (Dales and Chardonnet, 1973;Greber et al., 1993). HSV-1 also loses some of its structural proteins, including the tegument, and releases the viral transactivator Vpl6 before attaching

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Adenovirus replication is coupled with the dynamic properties of the PML nuclear structure.

Doucas¹,

Ishov²,

Romo³

et al. 1996

Genes Dev.

285

325

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Wild-type PML and at least four other novel proteins are localized within discrete nuclear structures known as PODs. We demonstrate here that during adenovirus infection, immediate early viral proteins from the E1 and E4 transcription units associate with the POD, which in turn undergoes a dramatic morphological change. During this process, the auto-antigen Sp-100 and NDP55 but not PML, relocate from the POD to the viral inclusion bodies, the sites of adenovirus DNA replication and late RNA transcription. The E4-ORF3 11-kD protein alone will induce this reorganization and reciprocally, viruses carrying mutations in the E4-domain fail to do so. These same viral mutants are defective in viral replication as well as the accumulation of late viral mRNAs and host cell transcription shutoff. We show that interferon (INF) treatment enhances the expression of PML, reduces or blocks PODs reorganization, and inhibits BrdU incorporation into viral inclusion bodies. In addition, cell lines engineered to overexpress PML prevent PODs from viral-induced reorganization and block or severely delay adenovirns replication. These results suggest that viral replication relies on components of the POD and that the structure is a target of early viral proteins.

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Human Cytomegalovirus Immediate Early Interaction with Host Nuclear Structures: Definition of an Immediate Transcript Environment

1997

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The development of an induced transcript environment was investigated at the supramolecular level through comparative localization of the human cytomegalovirus immediate early (IE) transcripts and specific nuclear domains shortly after infection. Compact aggregates of IE transcripts form only adjacent to nuclear domain 10 (ND10), and the viral protein IE86 accumulates exclusively juxtaposed to the subpopulation of ND10 with transcripts. The stream of transcripts is funneled from ND10 into the spliceosome assembly factor SC35 domain through the accumulation of IE86 protein, which recruits some components of the basal transcription machinery. Concomitantly the IE72 protein binds to ND10 and later disperses them. The domain containing the zinc finger region of IE72 is essential for this dispersal. Positional analysis of proteins IE86 and IE72, IE transcripts, ND10, the spliceosome assembly factor SC35, and basal transcription factors defines spatially and temporally an immediate transcript environment, the basic components of which exist in the cell before viral infection, providing the structural environment for the virus to usurp.

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