Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
 28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In recent studies, the nuclear domain 10 (ND10) components PML and hDaxx were identified as cellular restriction factors that inhibit the initiation of human cytomegalovirus (HCMV) replication. The antiviral function of ND10, however, is antagonized by the IE1 protein, which induces ND10 disruption. Here we show that IE1 not only de-SUMOylates PML immediately upon infection but also directly targets Sp100. IE1 expression alone was sufficient to downregulate endogenous Sp100 independently of the presence of PML. Moreover, cotransfection experiments revealed that IE1 negatively interferes with the SUMOylation of all Sp100 isoforms. The modulation of Sp100 at immediate-early (IE) times of infection, indeed, seemed to have an in vivo relevance for HCMV replication, since knockdown of Sp100 resulted in more cells initiating the viral gene expression program. In addition, we observed that Sp100 was degraded in a proteasome-dependent manner at late times postinfection, suggesting that Sp100 may play an additional antiviral role during the late phase. Infection experiments conducted with Sp100 knockdown human foreskin fibroblasts (HFFs) confirmed this hypothesis: depletion of Sp100 resulted in augmented release of progeny virus particles compared to that from control cells. Consistent with this observation, we noted increased amounts of viral late gene products in the absence of Sp100. Importantly, this elevated late gene expression was not dependent on enhanced viral IE gene expression. Taken together, our data provide evidence that Sp100 is the first ND10-related factor identified that not only possesses the potential to restrict the initial stage of infection but also inhibits HCMV replication during the late phase.
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PMID:Evidence for a dual antiviral role of the major nuclear domain 10 component Sp100 during the immediate-early and late phases of the human cytomegalovirus replication cycle. 2173 36

Sumoylation modulates many proteins implicated in apoptosis such as Fas, TNFR1, Daxx, p53 and its regulator MDM2. Some of these proteins, such as DRP-1, are involved in the intrinsic apoptosis pathway. The intrinsic pathway is regulated at the mitochondrial level by the Bcl-2 family of proteins. The small-molecule inhibitor BH3I-2' binds to the hydrophobic groove of the BH3 domain of anti-apoptotic proteins Bcl-xL and Bcl-2. Following treatment with this inhibitor in various experimental conditions, we observed decreased levels of detergent-soluble SUMO-1, an increase in the relative levels of detergent-insoluble sumoylated proteins, or both. Accordingly, immunofluorescence microscopy revealed that the relative numbers and intensities of endogenously or exogenously expressed SUMO-1 foci in the nucleus were increased following BH3I-2' treatment. MG132 caused a large increase in steady-state levels of SUMO-1 and of sumoylated proteins, and this was especially true for detergent-insoluble proteins. The conjugation-incompetent GG-to-AA SUMO-1 mutant, which did not form nuclear foci, was only present in the detergent-soluble lysate fraction and was insensitive to BH3I-2', implying that BH3I-2' specifically affects SUMO in its conjugated form. Finally, BH3I-2' had similar effects on SUMO-2 and SUMO-3 as it had on SUMO-1. In conclusion, BH3I-2' causes an intracellular redistribution of sumoylated proteins, more specifically their targeting to PML and non-PML nuclear bodies in which they may be degraded by the proteasome. Interestingly, knocking down Bcl-2 also altered levels of sumoylated proteins and their presence in detergent-insoluble compartments, confirming the role of Bcl-2 as a modulator of the sumoylation pathway.
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PMID:The Bcl-2/Bcl-xL inhibitor BH3I-2' affects the dynamics and subcellular localization of sumoylated proteins. 2337 57

Proteasomes generally degrade substrates tagged with polyubiquitin chains. In rare cases, however, proteasomes can degrade proteins without prior ubiquitination. For example, the human cytomegalovirus (HCMV) pp71 protein induces the proteasome-dependent, ubiquitin-independent degradation of the retinoblastoma (Rb) and Daxx proteins. These transcriptional corepressors and tumor suppressors inhibit the expression of cellular or viral genes that are required for efficient viral replication. Proteasomes are composed of a 20S catalytic core with or without one or two activator complexes, of which there are four different types. Here, we show that only one of these activators, the 19S regulatory particle that normally participates in ubiquitin-dependent protein degradation, is required for pp71-mediated degradation of Rb and Daxx. We report the unique use of a well-established route of substrate delivery to the proteasome by a viral protein to promote infection.
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PMID:Ubiquitin-independent proteasomal degradation of tumor suppressors by human cytomegalovirus pp71 requires the 19S regulatory particle. 2340 5

The cellular protein IFI16 colocalizes with the herpes simplex virus 1 (HSV-1) ubiquitin ligase ICP0 at early times of infection and is degraded as infection progresses. Here, we report that the factors governing the degradation of IFI16 and its colocalization with ICP0 are distinct from those of promyelocytic leukemia protein (PML), a well-characterized ICP0 substrate. Unlike PML, IFI16 colocalization with ICP0 was dependent on the ICP0 RING finger and did not occur when proteasome activity was inhibited. Expression of ICP0 in the absence of infection did not destabilize IFI16, the degradation occurred efficiently in the absence of ICP0 if infection was progressing efficiently, and IFI16 was relatively stable in wild-type (wt) HSV-1-infected U2OS cells. Therefore, IFI16 stability appears to be regulated by cellular factors in response to active HSV-1 infection rather than directly by ICP0. Because IFI16 is a DNA sensor that becomes associated with viral genomes during the early stages of infection, we investigated its role in the recruitment of PML nuclear body (PML NB) components to viral genomes. Recruitment of PML and hDaxx was less efficient in a proportion of IFI16-depleted cells, and this correlated with improved replication efficiency of ICP0-null mutant HSV-1. Because the absence of interferon regulatory factor 3 (IRF3) does not increase the plaque formation efficiency of ICP0-null mutant HSV-1, we speculate that IFI16 contributes to cell-mediated restriction of HSV-1 in a manner that is separable from its roles in IRF3-mediated interferon induction, but that may be linked to the PML NB response to viral infection.
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PMID:The viral ubiquitin ligase ICP0 is neither sufficient nor necessary for degradation of the cellular DNA sensor IFI16 during herpes simplex virus 1 infection. 2408 55

Proteasomes are large, multisubunit complexes that support normal cellular activities by executing the bulk of protein turnover. During infection, many viruses have been shown to promote viral replication by using proteasomes to degrade cellular factors that restrict viral replication. For example, the human cytomegalovirus (HCMV) pp71 protein induces the proteasomal degradation of Daxx, a cellular transcriptional repressor that can silence viral immediate early (IE) gene expression. We previously showed that this degradation requires both the proteasome catalytic 20S core particle (CP) and the 19S regulatory particle (RP). The 19S RP associates with the 20S CP to facilitate protein degradation but also plays a 20S CP-independent role promoting transcription. Here, we present a nonproteolytic role of the 19S RP in HCMV IE gene expression. We demonstrate that 19S RP subunits are recruited to the major immediate early promoter (MIEP) that directs IE transcription. Depletion of 19S RP subunits generated a defect in RNA polymerase II elongation through the MIE locus during HCMV infection. Our results reveal that HCMV commandeers proteasome components for both proteolytic and nonproteolytic roles to promote HCMV lytic infection. Importance: Proteasome inhibitors decrease or eliminate 20S CP activity and are garnering increasing interest as chemotherapeutics. However, an increasing body of evidence implicates 19S RP subunits in important proteolytic-independent roles during transcription. Thus, pharmacological inhibition of the 20S CP as a means to modulate proteasome function toward therapeutic effect is an incomplete capitalization on the potential of this approach. Here, we provide an additional example of nonproteolytic 19S RP function in promoting HCMV transcription. These data provide a novel system with which to study the roles of different proteasome components during transcription, a rationale for previously described shifts in 19S RP subunit localization during HCMV infection, and a potential therapeutic intervention point at a pre-immediate early stage for the inhibition of HCMV infection.
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PMID:The 19S proteasome activator promotes human cytomegalovirus immediate early gene expression through proteolytic and nonproteolytic mechanisms. 2507 2

When the adenoviral protein E1B55K binds death domain-associated protein (Daxx), the proteasome-dependent degradation of Daxx is initiated, and adenoviral replication is effectively maintained. Here, we show that the cellular levels of Daxx differ between human and mouse cancer cell lines. Specifically, we observed higher cellular Daxx levels and the diminished replication of oncolytic adenovirus in mouse cancer cell lines, suggesting that cellular Daxx levels limit the replication of oncolytic adenoviruses that lack E1B55K in murine cells. Indeed, the replication of oncolytic adenoviruses that lack E1B55K was significantly increased following infection with oncolytic adenovirus expressing Daxx-specific shRNA. Cellular Daxx levels were decreased in mouse cells expressing heat shock protein 25 (HSP25; homolog of human HSP27) following heat shock or stable transfection with HSP25-bearing plasmids. Furthermore, Daxx expression in murine cell lines was primarily regulated at the transcriptional level via HSP25-mediated inhibition of the nuclear translocation of the signal transducer and activator of transcription 3 (stat3) protein, which typically upregulates Daxx transcription. Conversely, human HSP27 enhanced stat3 activity to increase Daxx transcription. Interestingly, human Daxx, but not mouse Daxx, was degraded as normal by ubiquitin-dependent lysosomal degradation; however, HSP27 downregulation induced the ubiquitin-independent proteasomal degradation of Daxx.
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PMID:High levels of Daxx due to low cellular levels of HSP25 in murine cancer cells result in inefficient adenovirus replication. 3161 77


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