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

Proteolysis system was examined in influenza-virus-infected mice after a 5-day course of therapeutic or preventive treatments with the proteolysis inhibitor epsilon-aminocaproic acid (E-ACA). The mice were infected with nonadapted influenza virus A/Hong Kong/1/68 (H3N2). E-ACA was shown to exert a pathogenetic action expressed by a marked tendency to normalization of elevated alkaline protease activity in damaged lung tissue and in the blood of infected animals. E-ACA induced a long-lasting high level activity of acidic proteases in the blood which correlated with increased protection of animals against influenza virus infection. It may be suggested that acidic proteases are involved in the preventive action of E-ACA and are a factor of resistance to virus infection.
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PMID:Action of epsilon-aminocaproic acid on the proteolysis system during experimental influenza in mice. 290 23

Infection of target cells with cytopathic viruses inhibits IFN induction of cytolytic resistance to NK cell-mediated cytolysis [IFN-mediated cytoprotection (IFN-MCP)]. It has been thought that the virally induced inhibition of IFN-MCP is secondary to the shutdown of cellular macromolecular synthesis that accompanies cytopathic virus infections. Group C, adenovirus serotype 5 (Ad5) infection inhibits both IFN-MCP and cellular protein synthesis. This study determined if the Ad5-induced inhibition of IFN-MCP was independent of adenovirus (Ad) infection and secondary only to the expression of the Ad early region 1A gene (E1A). To test this hypothesis, 4-h NK cytolysis assays were performed on IFN-gamma-treated human cells infected with an Ad5 E1A deletion mutant, dl343, or transfected with the Ad5 E1A gene. IFN-MCP was not inhibited by infection with dl343, despite the production of large amounts of both early (E1B, p55) and late (hexon) Ad proteins. In contrast to E1A-negative, parental cell lines, IFN-MCP was blocked in Ad5 E1A-transfected epithelial and fibroblastic cell lines. Genetic mapping studies within the E1A gene demonstrated that expression of only the first exon of E1A was sufficient to inhibit IFN-MCP. DNA sequence homology of E1A genes between different Ad groups (group A, Ad12; group C, Ad5) is limited almost entirely to three conserved regions located within the first exon of E1A. Because IFN-MCP was also blocked in Ad12 E1A-transfected cell lines, expression of one or more of the E1A-conserved regions may be necessary to inhibit IFN-MCP. In summary, the expression of E1A gene products inhibited IFN-MCP independently of virus infection. E1A's inhibition of IFN-MCP has the net effect of promoting the selective NK cell-mediated clearance of Ad-infected or Ad-transformed human cells.
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PMID:Adenovirus E1A inhibits IFN-induced resistance to cytolysis by natural killer cells. 768 16

During measles virus (MV) infection, lymphopenia and immune suppression are observed in humans, yet the mechanisms underlying these effects remain unknown except that membrane cofactor protein (MCP, CD46) acts as a receptor for MV, accelerating entry of the virus into host cells. CD46 is a complement regulator, the role of which is to protect host cells from the autologous complement system. Thus, it encompasses complement-related and MV-mediated immune modulation. In this review, I discuss the structural and functional differences between CD46 on lymphocytes and on granulocytes, which partly explain the higher susceptibility of lymphocytes to MV than other blood cells to clarify the mechanisms of MV-mediated lymphopenia and immune suppression, and help resolve the T cell immunity dysfunction secondary to virus infection including HIV.
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PMID:CD46, a complement regulatory protein/measles virus receptor, and its relation to hematological disorders. 885 67

Lymphoproliferation, chronic B-cell activation resulting in hypergammaglobulinemia, and profound immunodeficiency are prominent features of retrovirus-induced murine acquired immunodeficiency syndrome (murine AIDS). Here we demonstrate that in murine AIDS the ATP-dependent and ubiquitin-dependent proteolytic system is strongly affected, at least in the lymph nodes of infected mice. Solid-phase immunochemical assays show that the ubiquitin-conjugate pools increase by about threefold 10 weeks after infection, then decline slightly 15 weeks after infection to a twofold increase. Accumulation of ubiquitin conjugates is accompanied by induction of the ubiquitin-conjugating pathway, involving several carrier-protein isozymes (E2), mainly 14-kDa E2 and 17-kDa E2. Furthermore, accumulation of ubiquitin conjugates and induction of the conjugating system are coincident with an increase in the proteolytic activity supported by the 26S proteolytic complex. However, 15 weeks after infection, when the conjugation rate and levels of ubiquitin conjugates decrease, proteasome activity returns to values similar to those of the control, suggesting that a higher proteosomal activity is no longer needed. The concerted induction of the ubiquitin-conjugating and proteolytic systems in murine AIDS apparently does not involve the breakdown of viral products nor is it supported by virus-coded events, but probably arises as a cellular response to viral infection.
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PMID:Up-regulation of the ubiquitin-conjugating and proteolytic systems in murine acquired immunodeficiency syndrome. 924 13

CTLs play an essential role in the protection to influenza virus infection. Virus specific CTLs recognize the complex of class I molecule and epitope peptide derived from viral proteins on surfaces of virus infected cells. In these 10 years great progress has been made in understanding of the process of epitope peptide production and the structure of the peptide. It has been clearly shown that proteasome and TAP are involved in the class I restricted antigen processing and epitope peptides have motifs depending on class I allele. In this article topics concerning CTL epitopes of influenza viruses are described; especially prediction and identification of epitopes are mainly discussed.
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PMID:[Antigenic epitopes of influenza virus specific CTL]. 936 Mar 89

The I kappaB alpha protein is a key molecular target involved in the control of NF-kappaB/Rel transcription factors during viral infection or inflammatory reactions. This NF-kappaB-inhibitory factor is regulated by posttranslational phosphorylation and ubiquitination of its amino-terminal signal response domain that targets I kappaB alpha for rapid proteolysis by the 26S proteasome. In an attempt to identify regulators of the I kappaB alpha inhibitory activity, we undertook a yeast two-hybrid genetic screen, using the amino-terminal end of I kappaB alpha as bait, and identified 12 independent interacting clones. Sequence analysis identified some of these cDNA clones as Dlc-1, a sequence encoding a small, 9-kDa human homolog of the outer-arm dynein light-chain protein. In the two-hybrid assay, Dlc-1 also interacted with full-length I kappaB alpha protein but not with N-terminal-deletion-containing versions of I kappaB alpha. I kappaB alpha interacted in vitro with a glutathione S-transferase-Dlc-1 fusion protein, and RelA(p65) did not displace this association, demonstrating that p65 and Dlc-1 contact different protein motifs of I kappaB alpha. Importantly, in HeLa and 293 cells, endogenous and transfected I kappaB alpha coimmunoprecipitated with Myc-tagged or endogenous Dlc-1. Indirect immunofluorescence analyzed by confocal microscopy indicated that Dlc-1 and I kappaB alpha colocalized with both nuclear and cytoplasmic distribution. Furthermore, Dlc-1 and I kappaB alpha were found to associate with the microtubule organizing center, a perinuclear region from which microtubules radiate. Likewise, I kappaB alpha colocalized with alpha-tubulin filaments. Taken together, these results highlight an intriguing interaction between the I kappaB alpha protein and the human homolog of a member of the dynein family of motor proteins and provide a potential link between cytoskeleton dynamics and gene regulation.
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PMID:I kappaB alpha physically interacts with a cytoskeleton-associated protein through its signal response domain. 937 68

Modifications of the cytoskeleton and protein synthesis were investigated in LLC-MK2 cells during infection by FPV/Ulster 73, an avian strain of influenza A virus. During infection, the cytoskeleton and the prosome networks undergo a dramatic reorganization, which seems to be at least temporally differentiated for each cytoskeletal system, i.e. microfilaments (MFs), microtubules (MTs), intermediate filaments (IFs). In order to evaluate the role of the three different cytoskeletal networks during FPV/Ulster infection, studies were carried out on cellular and virus-specific protein synthesis and viral production, using drugs which selectively affect individual cytoskeletal systems. Our data show that the perturbation of the IF system, but not that of the MFs or MTs, seems to have a strong inhibitory effect on virus production and cellular and viral protein synthesis. Furthermore, the dynamics of IFs and prosomes were investigated during viral infection and, at no time, dissociation of the prosome and IF networks was observed. Taken together, these results strongly support the idea that the interactions between the protein synthesis machinery, the cytoskeleton, and the prosomes are all affected by viral infection in a partially coordinated manner.
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PMID:Modification of cytoskeleton and prosome networks in relation to protein synthesis in influenza A virus-infected LLC-MK2 cells. 938 92

Proteasomes generate peptides from intracellular endogenous and viral proteins for presentation by MHC class I molecules. During viral infection, interferon-gamma (IFN-gamma) acts as a cytokine altering the catalytic specificity of proteasomes by inducing the synthesis of the three proteasome subunits, low molecular weight protein (LMP) 2, LMP7 and multicatalytic endopeptidase complex-like 1 (MECL1). LMP2 and LMP7 have been shown to favour the presentation of certain antigenic peptides. These subunits are constitutively expressed in cell lines related to the immune system and IFN-gamma-inducible in other cell lines. Less is known about MECL1. To reveal the extent of constitutive and IFN-gamma-induced expression of MECL1, we studied MECL1 in different cell lines by Northern and Western blotting. The two B cell lines IM9 and Reh showed high constitutive expression of MECL1, only slightly induced by IFN-gamma stimulation. The B cell line Daudi and the monocyte cell line THP-1 expressed MECL1 constitutively at an intermediate level. The MECL1 protein level in the THP-1 cells increased markedly in response to IFN-gamma. In cells unrelated to the immune system, a very low constitutive expression of MECL1 was detected, highly inducible by IFN-gamma. These results indicate that, similar to LMP2 and LMP7, MECL1 is constitutively expressed at high levels only in certain cell lines and can be induced by IFN-gamma in other cell lines. The differential expression of MECL1 may be of importance for which antigenic peptides are presented by different cells as well as by the same cells at different IFN-gamma levels.
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PMID:Constitutive and interferon-gamma-induced expression of the human proteasome subunit multicatalytic endopeptidase complex-like 1. 955 Oct 82

The interferon regulatory factors (IRF) consist of a growing family of related transcription proteins first identified as regulators of the alpha beta interferon (IFN-alpha/beta) gene promoters, as well as the interferon-stimulated response element (ISRE) of some IFN-stimulated genes. IRF-3 was originally identified as a member of the IRF family based on homology with other IRF family members and on binding to the ISRE of the ISG15 promoter. IRF-3 is expressed constitutively in a variety of tissues, and the relative levels of IRF-3 mRNA do not change in virus-infected or IFN-treated cells. In the present study, we demonstrate that following Sendai virus infection, IRF-3 is posttranslationally modified by protein phosphorylation at multiple serine and threonine residues, which are located in the carboxy terminus of IRF-3. A combination of IRF-3 deletion and point mutations localized the inducible phosphorylation sites to the region -ISNSHPLSLTSDQ- between amino acids 395 and 407; point mutation of residues Ser-396 and Ser-398 eliminated virus-induced phosphorylation of IRF-3 protein, although residues Ser-402, Thr-404, and Ser-405 were also targets. Phosphorylation results in the cytoplasm-to-nucleus translocation of IRF-3, DNA binding, and increased transcriptional activation. Substitution of the Ser-Thr sites with the phosphomimetic Asp generated a constitutively active form of IRF-3 that functioned as a very strong activator of promoters containing PRDI-PRDIII or ISRE regulatory elements. Phosphorylation also appears to represent a signal for virus-mediated degradation, since the virus-induced turnover of IRF-3 was prevented by mutation of the IRF-3 Ser-Thr cluster or by proteasome inhibitors. Interestingly, virus infection resulted in the association of IRF-3 with the CREB binding protein (CBP) coactivator, as detected by coimmunoprecipitation with anti-CBP antibody, an interaction mediated by the C-terminal domains of both proteins. Mutation of residues Ser-396 and Ser-398 in IRF-3 abrogated its binding to CBP. These results are discussed in terms of a model in which virus-inducible, C-terminal phosphorylation of IRF-3 alters protein conformation to permit nuclear translocation, association with transcriptional partners, and primary activation of IFN- and IFN-responsive genes.
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PMID:Virus-dependent phosphorylation of the IRF-3 transcription factor regulates nuclear translocation, transactivation potential, and proteasome-mediated degradation. 956 18

The hepatitis B virus X protein plays an important role in the regulation of viral genome expression and has also been implicated in the development of liver cancer associated with chronic viral infection. Several effects have been attributed to X but their biological relevance remains elusive. One of the confusing issues has been so far the uncertainty concerning its cellular location. To gain insight into the mechanism(s) how X exerts its effects, we have analysed its subcellular distribution and its dependency on the cell cycle. We used two complementary approaches namely, immunolocalization using a cell line stably expressing X, and characterization of the dynamics of X location in living cells by means of the reporter gene GFP. Our data clearly define the cytosol as the prime location of X, irrespectively of the cell cycle and show in addition the close attachment of a fraction of X to the nuclear membrane. However, X does not associate with any cytoplasmic vesicles and organelles so far tested. In contrast, our study provides strong evidence for the codistribution of X with the cytosolic fraction of proteasomes. In pulse-chase experiments, X decayed with a half-life of less than 30 min and proteasome-inhibitors did not modify its turnover, suggesting that X colocalization with the proteasome does not simply point to its degradation pathway. The proteolytic processing of the p105 precursor of the p50 subunit of the NF-kappaB transcription factor, which has been shown to be proteasome-dependent, is markedly slow down in the presence of X. These findings suggest that X modulates the processing rate of p105 by acting presumably at the level of the proteasome. Thus, targeting of proteasomes by X might be one of the pathways employed by this viral protein to subvert cellular functions.
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PMID:Cytosol is the prime compartment of hepatitis B virus X protein where it colocalizes with the proteasome. 957 86


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