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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The conjugation of small ubiquitin-like modifiers SUMO-1, SUMO-2 and SUMO-3 onto target proteins requires the concerted action of the specific E1-activating enzyme SAE1/SAE2, the E2-conjugating enzyme Ubc9, and an E3-like SUMO ligase. NMR chemical shift perturbation was used to identify the surface of Ubc9 that interacts with the SUMO ligase RanBP2. Unlike known ubiquitin E2-E3 interactions, RanBP2 binds to the beta-sheet of Ubc9. Mutational disruption of Ubc9-RanBP2 binding affected SUMO-2 but not SUMO-1 conjugation to Sp100 and to a newly identified RanBP2 substrate, PML. RanBP2 contains a binding site specific for SUMO-1 but not SUMO-2, indicating that a Ubc9-SUMO-1 thioester could be recruited to RanBP2 via SUMO-1 in the absence of strong binding between Ubc9 and RanBP2. Thus we show that E2-E3 interactions are not conserved across the ubiquitin-like protein superfamily and identify a RanBP2-dependent mechanism for SUMO paralog-specific conjugation.
Nat Struct Mol Biol 2005 Jan
PMID:Unique binding interactions among Ubc9, SUMO and RanBP2 reveal a mechanism for SUMO paralog selection. 1560 51

Chromosomal rearrangements associated with acute myeloid leukemia (AML) include fusions of the genes encoding the acetyltransferase MOZ or MORF with genes encoding the nuclear receptor coactivator TIF2, p300, or CBP. Here we show that MOZ-TIF2 acts as a dominant inhibitor of the transcriptional activities of CBP-dependent activators such as nuclear receptors and p53. The dominant negative property of MOZ-TIF2 requires the CBP-binding domain (activation domain 1 [AD1]), and coimmunoprecipitation and fluorescent resonance energy transfer experiments show that MOZ-TIF2 interacts with CBP directly in vivo. The CBP-binding domain is also required for the ability of MOZ-TIF2 to extend the proliferative potential of murine bone marrow lineage-negative cells in vitro. We show that MOZ-TIF2 displays an aberrant nuclear distribution and that cells expressing this protein have reduced levels of cellular CBP, leading to depletion of CBP from PML bodies. In summary, our results indicate that disruption of the normal function of CBP and CBP-dependent activators is an important feature of MOZ-TIF2 action in AML.
Mol Cell Biol 2005 Feb
PMID:MOZ-TIF2 inhibits transcription by nuclear receptors and p53 by impairment of CBP function. 1565 27

Nucleolar segregation is observed under some physiological conditions of transcriptional arrest. This process can be mimicked by transcriptional arrest after actinomycin D treatment leading to the segregation of nucleolar components and the formation of unique structures termed nucleolar caps surrounding a central body. These nucleolar caps have been proposed to arise from the segregation of nucleolar components. We show that contrary to prevailing notion, a group of nucleoplasmic proteins, mostly RNA binding proteins, relocalized from the nucleoplasm to a specific nucleolar cap during transcriptional inhibition. For instance, an exclusively nucleoplasmic protein, the splicing factor PSF, localized to nucleolar caps under these conditions. This structure also contained pre-rRNA transcripts, but other caps contained either nucleolar proteins, PML, or Cajal body proteins and in addition nucleolar or Cajal body RNAs. In contrast to the capping of the nucleoplasmic components, nucleolar granular component proteins dispersed into the nucleoplasm, although at least two (p14/ARF and MRP RNA) were retained in the central body. The nucleolar caps are dynamic structures as determined using photobleaching and require energy for their formation. These findings demonstrate that the process of nucleolar segregation and capping involves energy-dependent repositioning of nuclear proteins and RNAs and emphasize the dynamic characteristics of nuclear domain formation in response to cellular stress.
Mol Biol Cell 2005 May
PMID:Dynamic sorting of nuclear components into distinct nucleolar caps during transcriptional inhibition. 1575 27

The Bloom syndrome gene, BLM, encodes a RecQ DNA helicase that when absent from the cell results in genomic instability and cancer predisposition. We show here that BLM is a substrate for small ubiquitin-like modifier (SUMO) modification, with lysines at K317, K331, K334 and K347 being preferred sites of modification. Unlike normal BLM, a double mutant BLM protein with lysine to arginine substitutions at residues 317 and 331 was not modified by SUMO, and it failed to localize efficiently to the PML nuclear bodies. Rather, double mutant BLM protein induced the formation of DNA damage-induced foci (DDI) that contained BRCA1 protein and phosphorylated histone H2AX. Double mutant BLM only partially complemented the genomic instability phenotypes of Bloom syndrome cells as assessed by sister-chromatid exchange and micronuclei formation assays. These results constitute evidence that BLM is a DNA damage sensor that signals the formation of DDI, and they establish SUMO modification as a negative regulator of BLM's signaling function.
Hum Mol Genet 2005 May 15
PMID:Intra-nuclear trafficking of the BLM helicase to DNA damage-induced foci is regulated by SUMO modification. 1582 7

Recently, we identified a patient with an infantile sacrococcygeal teratoma and a constitutional t(12;15)(q13;q25). Here, we show that, as a result of this chromosomal translocation, the SUMO/Sentrin-specific protease 1 gene (SENP1) on chromosome 12 and the embryonic polarity-related mesoderm development gene (MESDC2) on chromosome 15 are disrupted and fused. Both reciprocal SENP1-MESDC2 (SEME) and MESDC2-SENP1 (MESE) fusion genes are transcribed in tumor-derived cells and their open reading frames encode aberrant proteins. As a consequence of this, and in contrast to wild-type (WT) MESDC2, the translocation-associated SEME protein is no longer targeted to the endoplasmatic reticulum, leading to a presumed loss-of-function as a chaperone for the WNT co-receptors LRP5 and/or LRP6. Ultimately, this might lead to abnormal development and/or routing of germ cell tumor precursor cells. SUMO, a post-translational modifier, plays an important role in several cellular key processes and is cleaved from its substrates by WT SENP1. Using a PML desumoylation assay, we found that translocation-associated MESE proteins exhibit desumoylation capacities similar to those observed for WT SENP1. We speculate that spatio-temporal disturbances in desumoylating activities during critical stages of embryonic development might have predisposed the patient. Together, the constitutional t(12;15)(q13;q25) translocation revealed two novel candidate genes for neonatal/infantile GCT development: MESDC2 and SENP1.
Hum Mol Genet 2005 Jul 15
PMID:Fusion of the SUMO/Sentrin-specific protease 1 gene SENP1 and the embryonic polarity-related mesoderm development gene MESDC2 in a patient with an infantile teratoma and a constitutional t(12;15)(q13;q25). 1591 69

Replication protein A (RPA) is a single-stranded-DNA-binding protein composed of three subunits with molecular masses of 70, 32, and 14 kDa. The protein is involved in multiple processes of eukaryotic DNA metabolism, including DNA replication, repair, and recombination. In Xenopus, Xenopus RPA-interacting protein alpha has been identified as a carrier molecule of RPA into the nucleus. In this study, human RPA-interacting protein alpha (hRIPalpha) and five novel splice isoforms (named hRIPalpha, hRIPbeta, hRIPgamma, hRIPdelta1, hRIPdelta2, and hRIPdelta3 according to the lengths of their encoding peptides) were cloned. Among hRIP isoforms, hRIPalpha and hRIPbeta were found to be the major splice isoforms and to show different subcellular localizations. While hRIPalpha localized to the cytoplasm, hRIPbeta was found in the PML nuclear body. Modification of hRIPbeta by sumoylation was found to be required for localization to the PML nuclear body. The results of the present work demonstrate that hRIPbeta transports RPA into the PML nuclear body and releases RPA upon UV irradiation. hRIPbeta thus plays an important role in RPA deposition in PML nuclear bodies and thereby supplements RPA for DNA metabolism.
Mol Cell Biol 2005 Sep
PMID:Sumoylation of the novel protein hRIP{beta} is involved in replication protein A deposition in PML nuclear bodies. 1613 9

Leukemia-associated fusion proteins establish aberrant transcriptional programs, which result in the block of hematopoietic differentiation, a prominent feature of the leukemic phenotype. The dissection of the mechanisms of deregulated transcription by leukemia fusion proteins is therefore critical for the design of tailored antileukemic strategies, aimed at reestablishing the differentiation program of leukemic cells. The acute promyelocytic leukemia (APL)-associated fusion protein PML-retinoic acid receptor (RAR) behaves as an aberrant transcriptional repressor, due to its ability to induce chromatin modifications (histone deacetylation and DNA methylation) and silencing of PML-RAR target genes. Here, we indicate that the ultimate result of PML-RAR action is to impose a heterochromatin-like structure on its target genes, thereby establishing a permanent transcriptional silencing. This effect is mediated by the previously described association of PML-RAR with chromatin-modifying enzymes (histone deacetylases and DNA methyltransferases) and by recruitment of the histone methyltransferase SUV39H1, responsible for trimethylation of lysine 9 of histone H3.
Mol Cell Biol 2006 Feb
PMID:Recruitment of the histone methyltransferase SUV39H1 and its role in the oncogenic properties of the leukemia-associated PML-retinoic acid receptor fusion protein. 1644 42

The Polyomavirus family includes two members, BK virus (BKV) and JC virus (JCV), that naturally infect humans. These viruses are widely distributed among the population worldwide. Primary infection occurs in early childhood and remains for life clinically unapparent in immunocompetent individuals. In the context of severe immunosuppression and other predisposing factors BKV and JCV may reactivate and cause serious illnesses known as Polyomavirus-induced nephropathy and progressive multifocal leukoencephalopathy, respectively. Here we briefly examine the biological and physical characteristics and the lifecycle, namely receptor(s) interaction, mode of entry, intracellular trafficking, viral transcription and replication, and progeny assembly of these two human Polyomaviruses. We also provide an overview of the clinical manifestation of Polyomavirus-induced disorders in affected individuals and discuss the potential involvement of BKV and JCV in human cancer.
Cell Mol Life Sci 2006 Apr
PMID:The human polyomaviruses. 1650 89

The last 15 yr have produced dramatic improvements in the survival rate of patients with acute promyelocytic leukemia (APL). These improvements have been due mainly to the introduction of targeted therapies and improved methods for diagnosing and monitoring this disease. The underlying molecular lesion in APL involves a t(15:17) translocation which leads to the generation of PML-RARalpha fusion transcripts and proteins. The PML-RARalpha fusion transcripts have been shown to be useful markers for establishing the diagnosis and for monitoring the response to treatment. This manuscript describes the application of QZyme reverse-transcription polymerase chain reaction (RT-PCR) to the quantification of PML-RARalpha transcripts as a marker of APL. QZyme is a method for real time detection and quantification of target genes or transcripts. The principle of QZyme analysis is similar to other quantitative PCR systems; however, the mechanism is quite different. QZyme exploits the catalytic activity of DNAzymes (deoxyribozymes), which are oligonucleotides that can bind and cleave nucleic acid substrates. The approach is well suited to monitoring minimal residual disease (MRD) in patients with APL, as a result of its ability to detect low numbers of transcripts and accurately measure differences in concentration over a broad dynamic range. Further, its capacity for duplex analysis has multiple advantages for analysis of clinical specimens. Protocols for duplex, single-tube QZyme RT-PCR assays, which allow simultaneous quantification of PML-RARalpha fusion transcripts (either L-type and V-type, or S-type) and the internal control BCR transcript, are provided. These protocols can be used for analyzing patient RNA specimens and are suitable for clinical trial monitoring. For this type of work, it is recommended that investigators validate the assays to ensure reproducible, accurate, and specific results on the equipment in their own laboratories. Assay validation is critical for real-time quantitative RT-PCR (RQ-PCR) and is often overlooked. A guide to the steps involved in validation and recommendations for acceptance criteria is included in this chapter.
Methods Mol Med 2006
PMID:Diagnosis and monitoring of PML-RARalpha-positive acute promyelocytic leukemia by quantitative RT-PCR. 1650 82

Nuclear spatial positioning plays an important role in the epigenetic regulation of eukaryotic gene expression. Here we show a role for nuclear spatial positioning in regulating episomal transgenes that are delivered by virus-like particles (VLPs). VLPs mediate the delivery of plasmid DNA (pDNA) to cell nuclei but lack viral factors involved in initiating and regulating transcription. By tracking single fluorescently labeled VLPs, coupled with luciferase reporter gene assays, we found that VLPs transported pDNA to cell nuclei efficiently but transgenes were immediately silenced by the cell. An investigation of the nuclear location of fluorescent VLPs revealed that the pDNAs were positioned next to centromeric heterochromatin. The activation of transcription by providing viral factors or inhibiting histone deacetylase activity resulted in the localization to euchromatin regions. Further, the activation of transcription induced the recruitment of PML nuclear bodies (PML-NBs) to the VLPs. This association did not play a role in regulating transgene expression, but PML protein was necessary for the inhibition of transgene expression with alpha interferon (IFN-alpha). These results support a model whereby cells can prevent foreign gene expression at two levels: by positioning transgenes next to centromeric heterochromatin or, if that is overcome, via the type I IFN response facilitated by PML-NB recruitment.
Mol Cell Biol 2006 Apr
PMID:Role for centromeric heterochromatin and PML nuclear bodies in the cellular response to foreign DNA. 1653 4


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