Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Human immunodeficiency virus tyoe 1 (HIV-1) Vif counteracts host restriction cytidine deaminase (APOBEC3G) A3G by co-opting the cellular ubiquitin-proteasome machinery. Vif utilizes a viral-specific BC-box to recruit ElonginB-ElonginC and a novel zinc-binding HCCH motif to recruit Cullin5 (Cul5) to form an E3 ubiquitin ligase targeting A3G for polyubiquitination and subsequently proteasomal degradation. To determine the structural requirements in HIV-1 Vif HCCH motif for Cul5 binding and Vif function, we investigated the arrangement of the His and Cys residues, the role of the spacing between them, and the requirement for the conserved residues. Our data demonstrate that exchanging Cys for His and vice versa in the highly conserved Zn-coordinating HCCH motif disrupted Vif function and interaction with Cul5. Moreover, the maintenance of both conserved residues and spacing within the HCCH motif is critical for Vif function. We have identified a "viral Cul5 box" with consensus Hx2YFxCFx4Phix2APhix7-8Cx5H that is required for Cul5 selection and subsequent A3G degradation. This novel motif may represent a potential new target for anti-viral drug development.
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PMID:Characterization of a novel Cullin5 binding domain in HIV-1 Vif. 1786 71

Expression of the feline immunodeficiency virus (FIV) accessory protein OrfA (or Orf2) is critical for efficient viral replication in lymphocytes, both in vitro and in vivo. OrfA has been reported to exhibit functions in common with the human immunodeficiency virus (HIV) and simian immunodeficiency virus (SIV) accessory proteins Vpr and Tat, although the function of OrfA has not been fully explained. Here, we use microarray analysis to characterize how OrfA modulates the gene expression profile of T-lymphocytes. The primary IL-2-dependent T-cell line 104-C1 was transduced to express OrfA. Functional expression of OrfA was demonstrated by trans complementation of the OrfA-defective clone, FIV-34TF10. OrfA-expressing cells had a slightly reduced cell proliferation rate but did not exhibit any significant alteration in cell cycle distribution. Reverse-transcribed RNA from cells expressing green fluorescent protein (GFP) or GFP+OrfA were hybridized to Affymetrix HU133 Plus 2.0 microarray chips representing more than 47,000 genome-wide transcripts. By using two statistical approaches, 461 (Rank Products) and 277 (ANOVA) genes were identified as modulated by OrfA expression. The functional relevance of the differentially expressed genes was explored by Ingenuity Pathway Analysis. The analyses revealed alterations in genes critical for RNA post-transcriptional modifications and protein ubiquitination as the two most significant functional outcomes of OrfA expression. In these two groups, several subunits of the spliceosome, cellular splicing factors and family members of the proteasome-ubiquitination system were identified. These findings provide novel information on the versatile function of OrfA during FIV infection and indicate a fine-tuning mechanism of the cellular environment by OrfA to facilitate efficient FIV replication.
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PMID:Feline immunodeficiency virus OrfA alters gene expression of splicing factors and proteasome-ubiquitination proteins. 1796 12

TRIM5alpha restriction factors protect target cells from retroviruses by blocking infection prior to the accumulation of viral reverse transcription (RT) products. Here, we demonstrate that heat shock perturbed owl monkey TRIMCyp and rhesus TRIM5alpha-mediated restriction of human immunodeficiency virus type 1 (HIV-1) late RT products and 2-long terminal repeat circles. Heat shock partially rescued HIV-1 infection from TRIMCyp restriction, and this rescue became more profound when combined with the presence of the proteasome inhibitor MG132. This indicates that viral RT products rescued from restriction by either heat shock treatment or the presence of MG132 are on a productive pathway, supporting a model in which TRIM5alpha proteins restrict retroviruses in multiple phases that are differentially sensitive to heat shock and proteasome inhibitors.
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PMID:Heat shock perturbs TRIM5alpha restriction of human immunodeficiency virus type 1. 1807 9

APOBEC3G (apolipoprotein B mRNA-editing enzyme catalytic polypeptide-like 3G) was identified as an anti-HIV-1 (human immunodeficiency virus type 1) cellular factor in target CD4 T cells. It is a member of the APOBEC family of cytidine deaminases consisting of APOBEC1, APOBEC2, APOBEC3 (A to H), and AID (activation induced deaminase). During reverse transcription, it deaminates dC to dU in nascent minus-strand viral DNA, resulting in G-to-A hypermutation in the plus strand DNA to inhibit the replication of HIV-1. On the contrary, HIV-1 Vif protein counteracts this enzyme by the ubiquitin-proteasome pathway to enable HIV-1 replicate in target cells. Vif forms an E3 ligase complex with cellular proteins including Cullin5, ElonginB, and ElonginC (Vif-BC-Cul5) and functions as a substrate recognition subunit of the complex to target APOBEC3G for ubiquitin-proteasome dependent degradation in virus-producing cells. APOBEC3G has also been shown to have a broad antiviral activity on a wide variety of viruses which include not only retroviruses such as other lentiviruses, murine leukemia virus (MLV), and human T-cell leukemia virus type 1 (HTLV-1) but also other viruses such as hepatitis B virus (HBV) and adeno-associated virus. Furthermore, other members of the APOBEC family also show a broad antiviral activity, but target virus specificities vary among APOBEC members. On the other hand, viruses have their own mechanisms to escape from APOBEC. These expanding evidences suggest that the APOBEC family of cytidine deaminases plays an important role in antiviral innate immunity and might be a novel target for an antiviral therapy. Here we review the present understanding of APOBEC3 proteins as an antiviral innate immunity and battles between APOBEC3 and viruses.
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PMID:Cytidine deaminases as a weapon against retroviruses and a new target for antiviral therapy. 1833 43

The isolation of human embryonic and somatic stem cells of different types has made it possible to design novel gene and cell replacement therapies. Vectors derived from retro/lentiviruses are used to stably introduce genes into stem cells and their progeny. However, the permissivity to retroviral infection varies among cell types. We previously showed that hematopoietic stem cells are poorly permissive to human immunodeficiency virus (HIV)-derived vectors and that pharmacological inhibition of the proteasome strongly enhances gene transfer. Here we report that the proteasome limits lentiviral gene transfer in all stem cell types tested, including embryonic, mesenchymal, and neural, of both human and mouse origin. Remarkably, this inhibitory activity was sharply reduced upon differentiation of the stem cells, suggesting that it represents a novel feature of the stem cell/immature progenitor phenotype. Proteasome-mediated inhibition was specific for lentiviral vectors and occurred at a postentry infection step. It was not mediated by activation of nuclear factor-kappaB, a major signaling pathway modulated by the proteasome, and did not correlate with high proteasome activity. Interaction of the virion core with cyclophilin A was required to maximize the effect of proteasome inhibitor on the infection pathway. These findings are relevant to uncover new mediators of HIV gene transfer and help in designing more effective protocols for the genetic modification of stem cells. Disclosure of potential conflicts of interest is found at the end of this article.
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PMID:Lentiviral vector gene transfer is limited by the proteasome at postentry steps in various types of stem cells. 1848 23

Many viruses subvert the host ubiquitin-proteasome system to optimize their life cycle. We recently documented such a mechanism for the human immunodeficiency virus type 1 Vpr protein, which promotes cell cycle arrest by recruiting the DCAF1 adaptor of the Cul4A-DDB1 ubiquitin ligase, a finding now confirmed by several groups. Here we examined the impact of Cul4A-DDB1(DCAF1) on Vpr stability. We show that the Vpr(Q65R) mutant, which is defective in DCAF1 binding, undergoes proteasome-mediated degradation at a higher rate than wild-type Vpr. DCAF1 overexpression stabilizes wild-type Vpr and leads to its cytoplasmic accumulation, whereas it has no effect on the Vpr(Q65R) mutant. Conversely, small interfering RNA-mediated silencing of DCAF1 decreases the steady state amount of the viral protein. Stabilization by DCAF1, which is conserved by Vpr species from human immunodeficiency virus type 2 and the SIVmac strain, results in increased G(2) arrest and requires the presence of DDB1, indicating that it occurs through assembly of Vpr with a functional Cul4A-DDB1(DCAF1) complex. Furthermore, in human immunodeficiency virus type 1-infected cells, the Vpr protein, issued from the incoming viral particle, is destabilized under DCAF1 or DDB1 silencing. Together with our previous findings, our data suggest that Cul4A-DDB1(DCAF1) acts at a dual level by providing Vpr with the equipment for the degradation of specific host proteins and by counter-acting its proteasome targeting by another cellular E3 ubiquitin ligase. This protection mechanism may represent an efficient way to optimize the activity of Vpr molecules that are delivered by the incoming virus before neosynthesis takes place. Targeting the Vpr-DCAF1 interaction might therefore present therapeutic interest.
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PMID:Assembly with the Cul4A-DDB1DCAF1 ubiquitin ligase protects HIV-1 Vpr from proteasomal degradation. 1852 71

Human immunodeficiency virus (HIV) virion infectivity factor (Vif) causes the proteasome-mediated destruction of human antiviral protein APOBEC3G by tethering it to a cellular E3 ubiquitin ligase composed of ElonginB, ElonginC, Cullin5, and Rbx2. It has been proposed that HIV Vif hijacks the E3 ligase through two regions within its C-terminal domain: a BC box region that interacts with ElonginC and a novel zinc finger motif that interacts with Cullin5. We have determined the crystal structure of the HIV Vif BC box in complex with human ElonginB and ElonginC. This complex presents direct structural evidence of the recruitment of a human ubiquitin ligase by a viral BC box protein that mimics the conserved interactions of cellular ubiquitin ligases. We further mutated conserved hydrophobic residues in a region downstream of the Vif BC box. These mutations demonstrate that this region, the Vif Cullin box, composes a third E3-ligase recruiting site critical for interaction between Vif and Cullin5. Furthermore, our homology modeling reveals that the Vif Cullin box and zinc finger motif may be positioned adjacent to the N terminus of Cullin5 for interaction with loop regions in the first cullin repeat of Cullin5.
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PMID:Structural insight into the human immunodeficiency virus Vif SOCS box and its role in human E3 ubiquitin ligase assembly. 1856 29

The infiltration of human immunodeficiency virus (HIV)-1, such as by HIV-infected leukocytes, across an injured blood-brain barrier (BBB) is a characteristic pathologic manifestation of HIV-1-associated dementia. HIV-1 gp120 has been implicated as a cause of breakdown of tight junctions between endothelial cells of the BBB, though the disrupting molecular mechanisms are unexplained. This study offers a new explanation for the increased BBB microvascular permeability, due to the degradation of tight junction proteins by the proteasome induced by gp120, and the negative regulation of this process by the scaffold protein, 14-3-3tau. gp120 reduced the amount of zonula occludens (ZO)-1 and ZO-2 in human brain microvascular endothelial cells (HBMECs). The treatment of HBMECs with the proteasome inhibitor, lactacystin, blocked the degradation of ZO-1 and ZO-2, suggesting that these proteins were targeted by gp120 for degradation by the proteasome. gp120 also specifically increased the expression of 14-3-3tau in HBMECs, and its down-regulation by RNAi facilitated the breakdown of tight junction proteins induced by gp120. Our results demonstrate the novel molecular mechanisms of the BBB breakdown by gp120.
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PMID:Human immunodeficiency virus type 1 gp120-mediated disruption of tight junction proteins by induction of proteasome-mediated degradation of zonula occludens-1 and -2 in human brain microvascular endothelial cells. 1856 53

Apolipoprotein B mRNA-editing catalytic polypeptide-like 3G (APOBEC3G, or A3G) and related cytidine deaminases such as apolipoprotein B mRNA-editing catalytic polypeptide-like 3F (APOBEC3F, or A3F) are potent inhibitors of retroviruses. Formation of infectious human immunodeficiency virus (HIV)-1 requires suppression of multiple cytidine deaminases by Vif. HIV-1 Vif suppresses various APOBEC3 proteins through a common mechanism by recruiting Cullin5, ElonginB, and ElonginC E3 ubiquitin ligase to induce target protein polyubiquitination and proteasome-mediated degradation. Domains in Vif that mediate APOBEC3 recognition have not been fully characterized. In the present study, we identified a VxIPLx(4-5)LxPhix(2)YWxL motif in HIV-1 Vif, which is required for efficient interaction between Vif and A3G, Vif-mediated A3G degradation and virion exclusion, and functional suppression of the A3G antiviral activity. Amino acids 52 to 72 of HIV-1 Vif (including the VxIPLx(4-5)LxPhix(2)YWxL motif) alone could mediate interaction with A3G, and this interaction was abolished by mutations of two hydrophobic amino acids in this region. We have also observed that a Vif mutant was ineffective against A3G, yet it retained the ability to interact with Cullin5-E3 ubiquitin complex and A3G, suggesting that interaction with A3G is necessary but not sufficient to inhibit its antiviral function. Unlike the previously identified motif of HIV-1 Vif amino acids 40 to 44, which is only important for A3G suppression, the VxIPLx(4-5)LxPhix(2)YWxL motif is also required for efficient A3F interaction and suppression. On the other hand, another motif, TGERxW, of HIV-1 Vif amino acids 74 to 79 was found to be mainly important for A3F interaction and inhibition. Both the VxIPLx(4-5)LxPhix(2)YWxL and TGERxW motifs are highly conserved among HIV-1, HIV-2, and various simian immunodeficiency virus Vif proteins. Our data suggest that primate lentiviral Vif molecules recognize their autologous APOBEC3 proteins through conserved structural features that represent attractive targets for the development of novel inhibitors.
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PMID:Characterization of conserved motifs in HIV-1 Vif required for APOBEC3G and APOBEC3F interaction. 1861 67

Highly active antiretroviral therapy has been effective in lowering viral loads in the peripheral blood, restoring immune function and reducing the incidence of opportunistic infections and dementia in human immunodeficiency virus (HIV)-infected individuals. However, motor and cognitive deficits and peripheral neuropathy continue, with some studies reporting an increase in prevalence of nervous system disease. The authors developed an accelerated, consistent simian model of HIV infection in which pigtailed macaques are dual inoculated with a neurovirulent simian immunodeficiency virus (SIV) clone and an immunosuppressive SIV strain. Infected animals invariably develop acquired immunodeficiency syndrome (AIDS) and over 90% develop central nervous system disease as well as peripheral nervous system disease with neurodegeneration by 3 months postinoculation. This model provides outstanding opportunities to delineate the pathogenesis of infection, to study the regulation of virus gene expression, and to identify host immune responses throughout the acute, clinically silent and late stages of infection. Using this model, the authors have demonstrated that the virus enters the brain within days after inoculation, that CCL2 (monocyte chemoattractant protein [MCP]-1) plays a major role in recruiting monocytes/macrophages to the brain, and that type I interferons are critical in suppressing early virus replication and inducing viral latency. This model provides a rigorous platform for the testing of potential antiretroviral, immune reconstituting, and/or neuroprotective agents and already has been used to confirm the neuroprotective properties of minocycline, which now is being tested in clinical trials of HIV-infected individuals.
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PMID:The accelerated simian immunodeficiency virus macaque model of human immunodeficiency virus-associated neurological disease: from mechanism to treatment. 1878 Feb 32


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