UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of the human immunodeficiency virus type 1 (HIV-1) Env glycoprotein is stringently regulated in infected cells. The majority of the glycoprotein does not reach the cell surface but rather is retained in the endoplasmic reticulum or a cis-Golgi compartment and subsequently degraded. We here report that Env of various HIV-1 isolates is ubiquitinated at the extracellular domain of gp41 and that Env expression could be increased by lactacystin, a specific proteasome inhibitor, suggesting that the ubiquitin/proteasome system is involved in control of expression and degradation.
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PMID:Ubiquitination of the human immunodeficiency virus type 1 env glycoprotein. 1079 17

Antigenic peptides derived from viral proteins by multiple proteolytic cleavages are bound by MHC class I molecules and recognized by CTL. Processing predominantly takes place in the cytosol of infected cells by the action of proteasomes. To identify other proteases involved in the endogenous generation of viral epitopes, specifically those derived from proteins routed to the secretory pathway, we investigated presentation of the HIV-1 ENV 10-mer epitope 318RGPGRAFVTI327 (p18) to specific CTL in the presence of diverse protease inhibitors. Both metalloproteinase and proteasome inhibitors decreased CTL recognition of the p18 epitope expressed from either native gp160 or from a chimera based on the hepatitis B virus secretory core protein as carrier protein. Processing of this epitope from both native ENV and the hepatitis B virus secretory core chimeric protein appeared to proceed by a TAP-dependent pathway that involved sequential cleavage by proteasomes and metallo-endopeptidases; however, other protease activities could replace the function of the lactacystin-sensitive proteasomes. By contrast, in a second TAP-independent pathway we detected no contribution of metallopeptidases for processing the ENV epitope from the chimeric protein. These results show that, in the classical TAP-dependent MHC class I pathway, endogenous Ag processing of viral proteins to yield the p18 10-mer epitope requires metallo-endopeptidases in addition to proteasomes.
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PMID:Sequential cleavage by metallopeptidases and proteasomes is involved in processing HIV-1 ENV epitope for endogenous MHC class I antigen presentation. 1079 63

Human immunodeficiency virus type-1 (HIV-1) integrase catalyzes the irreversible insertion of the viral genome into host chromosomal DNA. We have developed a mammalian expression system for the synthesis of authentic HIV-1 integrase in the absence of other viral proteins. Integrase, which bears a N-terminal phenylalanine, was found to be a short-lived protein in human embryo kidney 293T cells. The degradation of integrase could be suppressed by proteasome inhibitors. N-terminal phenylalanine is recognized as a degradation signal by a ubiquitin-proteasome proteolytic system known as the N-end rule pathway. The replacement of N-terminal phenylalanine with methionine, valine, or glycine, which are stabilizing residues in the N-end rule, resulted in metabolically stabilized integrase proteins (half-life of N-terminal Met-integrase was at least 3 h). Conversely, the substitution of N-terminal phenylalanine with other destabilizing residues retained the metabolic instability of integrase. These findings indicate that the HIV-1 integrase is a physiological substrate of the N-end rule. We discuss a possible functional similarity to the better understood turnover of the bacteriophage Mu transposase and functions of integrase instability to the maintenance and integrity of the host cell genome.
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PMID:Degradation of HIV-1 integrase by the N-end rule pathway. 1089 19

A consistent relationship has been established between the development of Kaposi's sarcoma (KS) and human herpes virus-8 (HHV8) infection. HHV8-encoded v-cyclin, through its complexing with cyclin-dependent kinase 6, contributes to the phosphorylation and proteasome-mediated degradation of p27(Kip1). On the other hand, down-regulation of p27(Kip1) expression seems to facilitate metastatic dissemination in a variety of human neoplasms. Although the neoplastic nature of KS remains controversial, it has been repeatedly demonstrated that in some patients KS may behave as a malignant neoplasm and follow an ominous course, especially in HIV-positive patients and when associated with extracutaneous involvement. To determine whether decreased p27(Kip1) levels are also related to more aggressive behaviour in KS, it was decided to investigate p27(Kip1) immunoreactivity in KS biopsy specimens and its possible changes in relation to cutaneous versus extracutaneous involvement and HIV serological status. Forty-nine cases of KS (29 AIDS-related and 21 classical) corresponding to 30 cutaneous biopsy specimens (ten macules, seven plaques, and 13 tumours) and 19 extracutaneous biopsy specimens were immunostained to determine the expression of p27(Kip1) and the proliferation marker Ki-67 antigen. The mean percentages of p27(Kip1)-positive cells were significantly higher in biopsy specimens from skin lesions (77.8+/-21.1) than in those from extracutaneous locations (42.0+/-26.0). Amongst cutaneous lesions, p27(Kip1) expression was significantly higher in macules (83.8+/-18.5) and plaques (91.4+/-6.4) than in tumours (65.8+/-22.6). Ki-67 immunoreactivity showed no correlation with any of the variables studied. These results lend support to the hypothesis that decreased levels of p27(Kip1), which may have been brought about by HHV8 infection, play a role in KS progression through its various histopathological stages, to its eventual extracutaneous spread.
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PMID:Decreased immunoreactivity for cell-cycle regulator p27(Kip1) in Kaposi's sarcoma correlates with higher stage and extracutaneous involvement. 1091 13

Hypoxia activates a number of gene products through degradation of the transcriptional coactivator cAMP response element binding protein (CREB). Other transcriptional regulators (e.g., beta-catenin and NF-kappa B) are controlled through phosphorylation-targeted proteasomal degradation, and thus, we hypothesized a similar degradative pathway for CREB. Differential display analysis of mRNA derived from hypoxic epithelia revealed a specific and time-dependent repression of protein phosphatase 1 (PP1), a serine phosphatase important in CREB dephosphorylation. Subsequent studies identified a previously unappreciated proteasomal-targeting motif within the primary structure of CREB (DSVTDS), which functions as a substrate for PP1. Ambient hypoxia resulted in temporally sequential CREB serine phosphorylation, ubiquitination, and degradation (in vitro and in vivo). HIV-tat peptide-facilitated loading of intact epithelia with phosphopeptides corresponding to this proteasome targeting motif resulted in inhibition of CREB ubiquitination. Further studies revealed that PP1 inhibitors mimicked hypoxia-induced gene expression, whereas proteasome inhibitors reversed the hypoxic phenotype. Thus, hypoxia establishes conditions that target CREB to proteasomal degradation. These studies may provide unique insight into a general mechanism of transcriptional regulation by hypoxia.
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PMID:Phosphorylation-dependent targeting of cAMP response element binding protein to the ubiquitin/proteasome pathway in hypoxia. 1103 95

Retrovirus assembly and maturation involve folding and transport of viral proteins to the virus assembly site followed by subsequent proteolytic cleavage of the Gag polyprotein within the nascent virion. We report that inhibiting proteasomes severely decreases the budding, maturation, and infectivity of HIV. Although processing of the Env glycoproteins is not changed, proteasome inhibitors inhibit processing of Gag polyprotein by the viral protease without affecting the activity of the HIV-1 viral protease itself, as demonstrated by in vitro processing of HIV-1 Gag polyprotein Pr55. Furthermore, this effect occurs independently of the virus release function of the HIV-1 accessory protein Vpu and is not limited to HIV-1, as proteasome inhibitors also reduce virus release and Gag processing of HIV-2. Electron microscopy analysis revealed ultrastructural changes in budding virions similar to mutants in the late assembly domain of p6(gag), a C-terminal domain of Pr55 required for efficient virus maturation and release. Proteasome inhibition reduced the level of free ubiquitin in HIV-1-infected cells and prevented monoubiquitination of p6(gag). Consistent with this, viruses with mutations in PR or p6(gag) were resistant to detrimental effects mediated by proteasome inhibitors. These results indicate the requirement for an active proteasome/ubiquitin system in release and maturation of infectious HIV particles and provide a potential pharmaceutical strategy for interfering with retrovirus replication.
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PMID:Proteasome inhibition interferes with gag polyprotein processing, release, and maturation of HIV-1 and HIV-2. 1108 48

Retroviral Gag polyproteins have specific regions, commonly referred to as late assembly (L) domains, which are required for the efficient separation of assembled virions from the host cell. The L domain of HIV-1 is in the C-terminal p6(gag) domain and contains an essential P(T/S)AP core motif that is widely conserved among lentiviruses. In contrast, the L domains of oncoretroviruses such as Rous sarcoma virus (RSV) have a more N-terminal location and a PPxY core motif. In the present study, we used chimeric Gag constructs to probe for L domain activity, and observed that the unrelated L domains of RSV and HIV-1 both induced the appearance of Gag-ubiquitin conjugates in virus-like particles (VLP). Furthermore, a single-amino acid substitution that abolished the activity of the RSV L domain in VLP release also abrogated its ability to induce Gag ubiquitination. Particularly robust Gag ubiquitination and enhancement of VLP release were observed in the presence of the candidate L domain of Ebola virus, which contains overlapping P(T/S)AP and PPxY motifs. The release defect of a minimal Gag construct could also be corrected through the attachment of a peptide that serves as a physiological docking site for the ubiquitin ligase Nedd4. Furthermore, VLP formation by a full-length Gag polyprotein was sensitive to lactacystin, which depletes the levels of free ubiquitin through inhibition of the proteasome. Our findings suggest that the engagement of the ubiquitin conjugation machinery by L domains plays a crucial role in the release of a diverse group of enveloped viruses.
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PMID:A role for ubiquitin ligase recruitment in retrovirus release. 1108 48

Our previous biochemical studies of HIV-1 and MuLV virions isolated and identified mature Gag products, HIV-1 p6(Gag) and MuLV p12(Gag), that were conjugated to a single ubiquitin. To study the importance of the monoubiquitination of Gag, a series of lysine to arginine mutants were constructed that eliminated ubiquitination at one or both of the lysines in HIV-1(NL4-3) p6(Gag) and both lysines in Moloney MuLV p12(Gag). HPLC and immunoblot analysis of the HIV-1 mutants demonstrated that either of the lysines in p6(Gag), K27 or K33, could be monoubiquitinated. However, infectivity assays showed that monoubiquitination of HIV-1 p6(Gag) or MuLV p12(Gag) is not required for viral replication in vitro. Pulse-chase radiolabeling of HIV-1-producing cells revealed that monoubiquitination of p6(Gag) does not affect the short-term release of virus from the cell, the maturation of Pr55(Gag), or the sensitivity of these processes to proteasome inhibitors. Experiments with protease-deficient HIV-1 showed that Pr55(Gag) can be monoubiquitinated, suggesting that p6(Gag) is first modified as a domain within Gag. Examination of the proteins inside an HIV-1 mutant found that free ubiquitin was incorporated into the virions in the absence of the lysines in p6(Gag), showing that the ubiquitin inside the virus is not initially brought in as a p6(Gag) conjugate. Although our results establish that monoubiquitination of p6(Gag) and p12(Gag) is not required for viral replication in vitro, this modification may be a by-product of interactions between Gag and cellular proteins during assembly and budding.
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PMID:Ubiquitination of HIV-1 and MuLV Gag. 1111 87

Cytosolic degradation of endogenously synthesized proteins by the proteasome and translocation of processed peptides to the endoplasmic reticulum by the transporters associated with antigen presentation constitutes the classical route for antigen presentation by MHC class I proteins. We have previously defined an alternative pathway in the secretory route involving proteolytic maturation of precursor proproteins for chimeric hepatitis B virus secretory core protein HBe containing a class I epitope at its carboxy-terminus. We extend those results by demonstrating that intracellular delivery of the trans-Golgi network protease furin increases both proteolytic maturation and antigen presentation of the chimeric HBe proteins. An additional class I epitope from the HIV envelope gp160 protein was inserted into this COOH-terminal region of two different chimeric HBe proteins. This epitope was also presented to CTL in a transporter-independent manner involving furin, and protein maturation and antigen presentation were also enhanced by furin over-expression. Presentation of this second epitope was restricted by a different class I allele, thus suggesting that antigen presentation by this new pathway may apply to any antigenic epitope and class I molecule. These results define the furin proteolytic maturation pathway of HBe in the secretory route as a general antigen processing route for MHC class I presentation.
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PMID:Generation of MHC class I peptide antigens by protein processing in the secretory route by furin. 1120 52

The HBV X protein (HBx) is implicated in infection and development of hepatocellular carcinoma. HBx has a pleiotropic effect on cells, suggesting multiple targets in the virus-host cell interaction. We employed the cytoplasmic-based two-hybrid screen and identified the HIV Tat-binding protein 1 (Tbp1) as a novel HBx interacting protein. Tbp1 interacts in vivo with HBx both in yeast and in animal cells. This interaction maps to the functionally important ATP-binding motif of Tbp1. Furthermore, HBx and Tbp1 interaction is functionally significant and regulates HBV transcription. Tbp1 homologues, such as Sug1, are known members of the proteasome 19S regulatory cap particle and have also been implicated in transcription coactivation. Remarkably, Tbp1 and Sug1 interact with multiple viral effector proteins including HIV Tat, SV40 large T antigen, and adenovirus E1A, establishing these proteins as important targets of the viral oncogenes.
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PMID:HBV X protein targets HIV Tat-binding protein 1. 1131 67

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