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: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Nef protein of the type 1 human immunodeficiency virus (HIV-1) plays a key although poorly understood role in accelerating the progression of clinical disease in vivo. Nef exerts several biological effects in vitro, including enhancement of virion infectivity, downregulation of CD4 and major histocompatibility complex class I receptor expression, and modulation of various intracellular signaling pathways. The positive effect of Nef on virion infectivity requires its expression in the producer cell, although its effect is manifested in the subsequent target cell of infection. Prior studies suggest that Nef does not alter viral entry into target cells; nevertheless, it enhances proviral DNA synthesis, arguing for an action of Nef at the level of viral uncoating or reverse transcription. However, these early studies discounting an effect of Nef on virion entry may be confounded by the recent finding that HIV enters cells by both fusion and endocytosis. Using epifluorescence microscopy to monitor green fluorescent protein-Vpr-labeled HIV virion entry into HeLa cells, we find that endocytosis forms a very active pathway for virus uptake. Virions entering via the endocytic pathway do not support productive infection of the host cell, presumably reflecting their inability to escape from the endosomes. Conversely, our studies now demonstrate that HIV Nef significantly enhances CD4- and chemokine receptor-dependent entry of HIV virions into the cytoplasmic compartment of target cells. Mutations in Nef either impairing its ability to downregulate CD4 or disrupting its polyproline helix compromise virion entry into the cytoplasm. We conclude that Nef acts at least in part as a regulator of cytosolic viral entry and that this action contributes to its positive effects on viral infectivity.
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PMID:Human immunodeficiency virus type 1 Nef functions at the level of virus entry by enhancing cytoplasmic delivery of virions. 1122 24

Progressive multifocal leukoencephalopathy (PML) is a demyelinating disease of the central nervous system caused by a reactivation of the polyomavirus JC (JCV) within a setting of immunosuppression. The nature of the immune response that contains replication of this virus is unknown. We have explored JCV-specific cellular immune responses in patients with PML and control subjects. JCV antigen-stimulated peripheral blood mononuclear cells (PBMC) of four human immunodeficiency virus (HIV)-infected patients who were survivors of PML and one HIV-uninfected patient recently diagnosed with PML lysed autologous B-lymphoblastoid cell lines expressing either the JCV T regulatory protein or the VP1 major capsid protein. This lysis was mediated by CD8(+) T lymphocytes and was major histocompatibility complex class I restricted. These cells were therefore cytotoxic T lymphocytes (CTL). JCV-specific CTL could not be detected in PBMC of three HIV-infected PML patients who had progressive neurologic disease and an eventual fatal outcome. These data suggest that the JCV-specific cellular immune response may play a crucial role in the containment of PML. This finding may also prove useful as a favorable prognostic marker in the clinical management of these patients.
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PMID:JC virus-specific cytotoxic T lymphocytes in individuals with progressive multifocal leukoencephalopathy. 1123 76

Nef is a regulatory protein encoded by the genome of both human and simian immunodeficiency virus. Its expression in T cells leads to CD4 and major histocompatibility complex class I modulation and either enhancement or suppression of T cell activation. How this viral protein achieves multiple and at times opposing activities has been unclear. Through direct measurements of Nef and the Nef-GFP fusion protein, we find that these events are mediated by different Nef concentrations. Relative to the intracellular concentration that down-modulates surface CD4, an order of magnitude increase in Nef-GFP expression is required for a comparable modulation of major histocompatibility complex class I, and a further 3-fold increase is necessary to suppress T cell activation.
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PMID:HIV Nef-mediated cellular phenotypes are differentially expressed as a function of intracellular Nef concentrations. 1143 19

Infection by the flavivirus West Nile (WNV) is associated with a virus-specific increase of major histocompatibility complex class I (MHC-I) molecules on the cell surface of diploid vertebrate cells. The increased MHC-I cell surface expression is functional and is associated with increased susceptibility to secondary WNV-immune and alloimmune cytotoxic T cells. WNV-induced up-regulation of cell surface MHC-I expression is associated with NF-kappaB activation and increased transcription of MHC-I mRNA. WNV infection increases luciferase activity of RAWa4 long terminal repeat (LTR) cells, which are transfected stably with a plasmid containing 2 NF-kappaB binding sites, the human immunodeficiency virus LTR linked to a luciferase reporter gene. The NF-kappaB-induced complexes are a p50/p65 heterodimer and another faster migrating species containing p50 homodimers. WNV-induced activation of NF-kappaB and the up-regulation of MHC-I were blocked by the protein kinase C inhibitor H-7 and salicylate, both of which block phosphorylation of inhibitor kappaB.
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PMID:Transcriptional regulation of major histocompatibility complex class I by flavivirus West Nile is dependent on NF-kappaB activation. 1157 8

In this report, three Mamu-A*01(+) rhesus macaques were examined to compare the emergence of simian immunodeficiency virus (SIV)-specific CD8(+) T cells in the intestines and blood in early SIV infection using a major histocompatibility complex class I tetramer complexed with the Gag(181-189) peptide. Fourteen days after intravenous inoculation with SIVmac251, large numbers of SIV Gag(181-189)-specific CD8(+) T cells were detected in the intestinal mucosa (3.1 to 11.5% of CD3(+) CD8(+) lymphocytes) as well as in the blood (3.1 to 13.4%) of all three macaques. By 21 days postinoculation, levels of tetramer-binding cells had dropped in both the intestines and blood. At day 63, however, levels of SIV Gag(181-189)-specific CD8(+) T cells in the intestines had rebounded in all three macaques to levels that were higher (8.6 to 18.7%) than those at day 21. In contrast, percentages of tetramer-binding cells in the peripheral blood remained comparatively stable (2.5 to 4.5%) at this time point. In summary, SIV Gag(181-189)-specific CD8(+) T cells appeared in both the intestinal mucosa and peripheral blood at a comparable rate and magnitude in primary SIV infection. Given that the intestine is a major site of early viral replication as well as the site where most of the total body lymphocyte pool resides, these data indicate that it is also an early and important site of development of antiviral immune responses.
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PMID:Emergence and kinetics of simian immunodeficiency virus-specific CD8(+) T cells in the intestines of macaques during primary infection. 1158 23

The carboxy-terminal region of major histocompatibility complex class I (MHC I) molecules is required for the rapid internalization mediated by Kaposi's sarcoma-associated herpesvirus (KSHV) proteins K3 and K5. The cytoplasmic tail of MHC I contains highly conserved serine phosphorylation sites that have been implicated in intracellular trafficking. Indeed, in vivo labeling experiments reveal a lack of MHC I phosphorylation in K5-transfected HeLa cells. Phosphorylation of the MHC I tail was restored upon mutation of the PHD/LAP domain of K5. However, deletion and mutation studies of the MHC I tail show that both K3 and K5 are able to downregulate MHC I lacking the conserved phosphorylation site. This result suggests that inhibition of phosphorylation reflects, but does not cause, MHC I internalization. Interestingly, K3 and K5 differ from each other, as well as from human immunodeficiency virus nef, with respect to the minimal MHC I tail sequences required for MHC downregulation. These data support the notion that K3 and K5 downregulate MHC I molecules by a distinct molecular mechanism that is different from other viral immune evasion molecules.
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PMID:KSHV-K5 inhibits phosphorylation of the major histocompatibility complex class I cytoplasmic tail. 1160 8

Cytotoxic T-lymphocyte (CTL) responses are thought to control human immunodeficiency virus replication during the acute phase of infection. Understanding the CD8(+) T-cell immune responses early after infection may, therefore, be important to vaccine design. Analyzing these responses in humans is difficult since few patients are diagnosed during early infection. Additionally, patients are infected by a variety of viral subtypes, making it hard to design reagents to measure their acute-phase immune responses. Given the complexities in evaluating acute-phase CD8(+) responses in humans, we analyzed these important immune responses in rhesus macaques expressing a common rhesus macaque major histocompatibility complex class I molecule (Mamu-A*01) for which we had developed a variety of immunological assays. We infected eight Mamu-A*01-positive macaques and five Mamu-A*01-negative macaques with the molecularly cloned virus SIV(mac)239 and determined all of the simian immunodeficiency virus-specific CD8(+) T-cell responses against overlapping peptides spanning the entire virus. We also monitored the evolution of particular CD8(+) T-cell responses by tetramer staining of peripheral lymphocytes as well as lymph node cells in situ. In this first analysis of the entire CD8(+) immune response to autologous virus we show that between 2 and 12 responses are detected during the acute phase in each animal. CTL against the early proteins (Tat, Rev, and Nef) and against regulatory proteins Vif and Vpr dominated the acute phase. Interestingly, CD8(+) responses against Mamu-A*01-restricted epitopes Tat(28-35)SL8 and Gag(181-189)CM9 were immunodominant in the acute phase. After the acute phase, however, this pattern of reactivity changed, and the Mamu-A*01-restricted response against the Gag(181-189)CM9 epitope became dominant. In most of the Mamu-A*01-positive macaques tested, CTL responses against epitopes bound by Mamu-A*01 dominated the CD8(+) cellular immune response.
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PMID:Dominance of CD8 responses specific for epitopes bound by a single major histocompatibility complex class I molecule during the acute phase of viral infection. 1175 76

Although Nef has been proposed to effect the escape of human immunodeficiency virus type 1 (HIV-1) from cytotoxic T lymphocytes (CTL) through downmodulation of major histocompatibility complex class I molecules, little direct data have been presented previously to support this hypothesis. By comparing nef-competent and nef-deleted HIV-1 strains in an in vitro coculture system, we demonstrate that the presence of this viral accessory gene leads to impairment of the ability of HIV-1-specific CTL clones to suppress viral replication. Furthermore, inhibition by genetically modified CTL that do not require major histocompatibility complex class I-presented antigen (expressing the CD4 T-cell receptor [TCR] zeta-chain hybrid receptor) is similar for both nef-competent and -deleted strains, indicating that Nef does not impair the effector functions of CTL but acts at the level of TCR triggering. In contrast, we note that another accessory gene, vpr, does not induce resistance of HIV-1 to suppression by CTL clones. We conclude that Nef (and not Vpr) contributes to functional HIV-1 immune evasion and that this effect is mediated by diminished antigen presentation to CTL.
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PMID:Nef-mediated resistance of human immunodeficiency virus type 1 to antiviral cytotoxic T lymphocytes. 1179 57

Highly active antiretroviral therapy has succeeded in many cases in suppressing virus production in patients infected with human immunodeficiency virus (HIV); however, once treatment is discontinued, virus replication is rekindled. One reservoir capable of harboring HIV in a latent state and igniting renewed infection once therapy is terminated is a resting T cell. Due to the sparsity of T cells latently infected with HIV in vivo, it has been difficult to study viral and cellular interactions during latency. The SCID-hu (Thy/Liv) mouse model of HIV latency, however, provides high percentages of latently infected cells, allowing a detailed analysis of phenotype. Herein we show that latently infected cells appear phenotypically normal. Following cellular stimulation, the virus completes its life cycle and induces phenotypic changes, such as CD4 and major histocompatibility complex class I down-regulation, in the infected cell. In addition, HIV expression following activation did not correlate with expression of the cellular activation marker CD25. The apparently normal phenotype and lack of HIV expression in latently infected cells could prevent recognition by the immune response and contribute to the long-lived nature of this reservoir.
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PMID:Effect of latent human immunodeficiency virus infection on cell surface phenotype. 1179 62

The importance of CD8+ T-cell responses in the control of human immunodeficiency virus type 1 (HIV-1) infection has been demonstrated, yet few studies have been able to correlate these responses with markers of HIV-1 disease progression. This study measured cell-mediated immune responses using peripheral blood mononuclear cells (PBMC) obtained from 27 patients with chronic HIV-1 infection, the majority of whom were off antiretroviral therapy. The ELISPOT assay was used to detect gamma interferon-secreting PBMC after stimulation with overlapping HIV-1 peptides spanning the Gag, Pol, Env, and Nef proteins in addition to the baculovirus-derived p24 and gp160 proteins. All volunteers had responses to at least one HIV-1-specific peptide. All but one of the subjects (96%) responded to the Gag peptide pool, and 86% responded to the Pol and/or Nef peptide pools. The magnitude and the breadth of T-cell responses directed to either the Gag or p24 peptide pools correlated inversely with viral load in plasma (r = -0.60, P < 0.001 and r = -0.52, P < 0.005, respectively) and directly with absolute CD4+ T-cell counts (r = 0.54, P < 0.01 and r = 0.39, P < 0.05, respectively) using the Spearman rank correlation test. Responses to the Pol and integrase peptide pools also correlated with absolute CD4+ T-cell counts (r = 0.45, P < 0.05 and r = 0.49, P < 0.01, respectively). No correlation with markers of disease progression was seen with specific T-cell responses directed toward the Env or Nef peptides. These data serve as strong evidence that major histocompatibility complex class I presentation of Gag peptides is an essential feature for any HIV-1 vaccine designed to elicit optimal CD8+ T-cell responses.
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PMID:Magnitude of functional CD8+ T-cell responses to the gag protein of human immunodeficiency virus type 1 correlates inversely with viral load in plasma. 1183 8


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