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)

Double infection of cells by HHV-6, Epstein-Barr virus (EBV) and by human immunodeficiency virus (HIV-1) can enhance viral effects though genetic transactivation. It remained to be clarified, however, by which mechanism different viruses may enter the same cell. We have shown that HHV-6 infection of immature lymphoid cells rigidifies the cytoplasmic membrane and causes receptor proteins for viruses such as CD4 for HIV-1 and CR2 for EBV to be expressed. In our experiments, HHV-6 infected cells were superinfected by HIV1 and caused enhanced cell death. The mechanisms by which receptors were expressed after HHV-6 infection appears independent of cell membrane rigidification alone and is suppressed by cycloheximide only to a certain extent.
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PMID:Human herpesvirus-6 infection may predispose cells to superinfection by other viruses. 165 48

Incubation of the human T cell lymphotropic virus (HTLV)-IIIB and HTLV-RF strains of human immunodeficiency virus type 1 (HIV-1) with normal seronegative human serum under conditions that allow complement activation resulted in enhancement of infection of the MT2 human T cell line cultured in the presence of low amounts of virus. Infection of MT2 cells was assessed by measuring reverse transcriptase activity in supernatants at day 9 of culture. Complement activation by viral suspensions occurred through the alternative pathway. Opsonization of HTLV-RF viral particles with complement was sufficient to allow a productive infection to occur in cells exposed to suboptimal amounts of virus. Infection of MT2 cells with suboptimal amounts of serum-opsonized HIV-1 was suppressed by blocking the C3dg receptor (CR2, CD21) on MT2 cells with monoclonal anti-CR2 antibody and rabbit F(ab')2 anti-mouse immunoglobulin antibodies. Blocking of the gp120-binding site on CD4 under similar experimental conditions had no inhibitory effect on infection of MT2 cells with opsonized virus. Opsonization of HIV-1 with seronegative serum also resulted in a CR2-mediated enhancement of the infection of normal peripheral blood mononuclear cells and T lymphocytes. These results indicate that complement in the absence of antibody may enhance infection of C3 receptor-bearing T cells with HIV-1, and that the interaction of opsonized virus with the CR2 receptor may result by itself in the infection of target T cells in a CD4- and antibody-independent fashion.
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PMID:Complement mediates human immunodeficiency virus type 1 infection of a human T cell line in a CD4- and antibody-independent fashion. 182 39

We have previously shown that expression of the adenovirus E1A 12S or 13S products in NIH 3T3 fibroblasts induces susceptibility to the cytotoxic actions of tumor necrosis factor alpha (TNF alpha). A large number of studies have mapped the multiple biological functions of the 12S and 13S products to three highly conserved regions (CR) within the E1A sequence. Here we used plasmids coding for E1A deletion and point mutants in these regions to generate target cell lines for TNF alpha cytotoxicity assays to determine which regions and functions are necessary for the induction of TNF alpha sensitivity. Expression of CR1 was required for the induction of TNF alpha sensitivity. This finding did not reflect a requirement for transforming or transcriptional repression activity, since some mutants that were defective in both of these properties were able to induce TNF alpha sensitivity. CR2 transformation-defective point mutants, but not a CR2/3 region deletion mutant, were also able to induce sensitivity. In addition, NIH 3T3 cells expressing the retroviral transcription activators tat from human immunodeficiency virus type 1 and tax from human T-lymphotropic virus type I were not sensitive to TNF alpha. However, the possibility that E1A-mediated transcriptional activation can augment the induction of TNF alpha sensitivity is not excluded. Comparison of data from previous biological studies with the TNF alpha cytotoxicity assays presented here suggested that the mechanism by which E1A induces sensitivity to TNF alpha in NIH 3T3 cells is independent of many of the known E1A biological functions, including transformation in cooperation with ras, immortalization, induction of DNA synthesis in quiescent cells, and transcriptional repression. A novel E1A-mediated effect may be involved, although our data do not exclude the possibility that sensitization to TNF alpha is mediated through E1A binding to cellular proteins.
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PMID:Induction of sensitivity to the cytotoxic action of tumor necrosis factor alpha by adenovirus E1A is independent of transformation and transcriptional activation. 214 40

Plasma from two rhesus macaques (Macaca mulatta) experimentally infected with the simian immunodeficiency virus (SIV; isolate SIVmac251) enhanced SIVmac infection of a human CD4+ lymphoblastoid cell line, MT-2. Prechallenge plasma samples from these animals and serum from SIV-negative macaques did not enhance infection. Compared with controls, infection enhancement was characterized by the rapid appearance of syncytium formation (3 to 4 days sooner), reverse transcriptase release (10-fold increase), and cytopathic effect (60% cell killing). Enhancement of activity was dependent on the presence of diluted, fresh SIV-negative macaque serum as a source of complement. A requirement for complement was shown by the absence of enhancement in heat-inactivated serum and by dose-dependent inhibition of enhancement in the presence of polyclonal antibody to monkey complement component C3. Monoclonal antibody to CD4 (OKT4a) blocked enhancement completely, while monoclonal antibody to the human complement component C3d receptor CR2 (OKB7) reduced enhancement by greater than 50%, indicating a requirement for CD4 and CR2 in mediating this phenomenon. SIV infection-enhancing activity appeared in macaques soon after experimental inoculation (28 days). The titer increased over time and peaked just prior to the death of both macaques from opportunistic infections and lymphoma. In vitro SIV infection enhancement is nearly identical to the in vitro complement-mediated, antibody-dependent enhancing (C'-ADE) activity observed in human immunodeficiency virus-positive human sera (Robinson et al., Lancet i:790-794, 1988; Robinson et al., J. Acq. Immun. Def. Synd. 2:33-42, 1989). These observations validate the macaque-SIV model for studies of C'-ADE.
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PMID:Antibody-dependent enhancement of simian immunodeficiency virus (SIV) infection in vitro by plasma from SIV-infected rhesus macaques. 215 8

Plasma from four rhesus macaques (Macaca mulatta), of which two were experimentally infected with the simian immunodeficiency virus (SIV) isolate SIVmac251, one with isolate SIVsmF236, and another with a SIVsmF236 molecular clone, SIVsmH-4, enhanced SIVmac infection of MT-2 cells. In addition to SIV-positive plasma, infection-enhancement required complement, CD4, and CR2. Titers of infection-enhancing antibodies appeared to correlate with disease progression. The MT-2/SIVmac251 system should be useful in future studies of complement-mediated, antibody-dependent enhancement of macaque and sooty mangabey SIV isolates.
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PMID:Antibody-dependent enhancement of SIV infection: further characterization and cross reactivity between macaque and sooty mangabey isolates. 223 84

Major advances in our understanding of the role of the neutrophil in host defense against periodontal organisms have been made through studies of localized juvenile periodontitis (LJP). Several lines of evidence suggest that LJP is an infectious process closely associated with Actinobacillus (Haemophilus) actinomycetemomitans as a causative agent, although other organisms may also participate. The immunologic profile of LJP patients suggests that a cell-associated neutrophil locomotory dysfunction is a key underlying immunodeficiency resulting in increased susceptibility to periodontal infection. In addition, LJP patients often exhibit cervical lymphadenopathy and IgG-hypergammaglobulinemia, and a markedly elevated antibody response to the infecting organism, A. actinomycetemcomitans, is found in the serum and crevicular fluid of most patients. Evaluation of the locomotory properties of LJP neutrophils shows that random migration and chemokinesis are normal; however, about 70% of the LJP patients suffer from a defect in chemotaxis, with their neutrophils responding poorly to bacterial chemotactic factors, synthetic chemotactic peptides, and complement fragments (C5a). Depressed chemotaxis of LJP neutrophils is paralleled by their reduced capacity to bind the synthetic chemotactic peptide N-formylmethionylleucylphenylalanine (FMLP), as well as C5a. Furthermore, there is a reduction in the amount of glycoprotein 110, a neutrophil membrane matrix component and differentiation antigen which is associated with FMLP- and possibly also C5a-mediated chemotaxis. Reduction of C5a and of FMLP ligand binding, decreased expression of GP-110, and reduced neutrophil chemotaxis are consistent with a stem cell maturation error in LJP patients. This is further supported by studies demonstrating increased expression of CR2, the C3d/EBV receptor, on peripheral blood neutrophils of LJP patients. CR2 receptors are normally present on immature human neutrophils but are lost during the maturation process. These alterations in neutrophil surface components and their reduced chemotaxis may result from a genetically determined abnormality. Studies demonstrating the familial nature of both the neutrophil chemotactic disorder and the clinical entity represented by localized juvenile periodontitis point to a strong role for genetic determinants in the disease which affect neutrophil surface receptors.
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PMID:1985 Kreshover lecture. Molecular factors influencing neutrophil defects in periodontal disease. 302 65

The binding of viruses to cell surfaces is often mediated by cell surface receptors. The use of soluble receptors, such as intracellular adhesion molecule-1 (ICAM-1) for human rhinovirus (HRV), CD4 for human immunodeficiency virus (HIV), and CR2 for Epstein-Barr virus, for in vivo antiviral therapy is under serious investigation. A number of synthetic compounds that affect HRV attachment and uncoating (termed WIN compounds) are also being studied. However, the mechanism behind the dose-response effect of these agents in preventing infection has not been clearly demonstrated. In addition to simple blocking (by receptors) or inactivation of binding sites (by WIN compounds) on the virus surface, other mechanisms of inhibition have been proposed and demonstrated, including cooperative inactivation of neighboring sites, receptor-induced viral attachment protein (VAP) shedding, virus particle inactivation, and inhibition of multivalent virus binding. We present a simple mathematical model to predict the effect of these molecules on virus infection by incorporating only the blocking or site inactivation step of the blocking molecule and its resulting effect on attachment. The ability of the model to reproduce the response of a virus to a dose of blocking molecules is used to distinguish the role of blockers in inhibiting attachment from the other mechanisms of viral inactivation that have been proposed. The model includes both the reversible attachment of the virus to its cellular receptor and to soluble receptors or synthetic molecules (blockers).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A simple model to predict the effectiveness of molecules that block attachment of human rhinoviruses and other viruses. 776

The present study demonstrates that the C3b receptor CR1 (CD35) and the C3dg/Epstein-Barr virus receptor CR2 (CD21) are expressed by 25% and 70% of normal human thymocytes, respectively. The expression of CR2 extends to both CD1+ and CD1- cells in the thymus. Two subsets of CR2+ thymocytes were defined expressing low and high density of the receptor. The CR2++ subset represented 20% of CR2+ thymocytes and co-expressed the CR1 receptor. CR2++ thymocytes expressed an immature CD1dull, CD3-, CD4dull, CD8-, CD7++ phenotype and included a subpopulation of large cells expressing CD34. Twenty percent of thymocytes expressed the CD21 epitope defined by monoclonal antibody BU32, which is involved in the binding of CD23 to CD21. These observations provide a basis for a role for CD21 in the proliferation and differentiation of thymocytes at early stages of maturation. The functionality of CR1 and CR2 on thymocytes was evidenced by the ability of the receptors to mediate infection of cells with complement-opsonized human immunodeficiency virus (HIV). The results may be relevant to the immunopathogenesis of HIV infection.
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PMID:CR1(CD35) and CR2(CD21) complement C3 receptors are expressed on normal human thymocytes and mediate infection of thymocytes with opsonized human immunodeficiency virus. 795 70

We tested the susceptibility of human purified, normal B lymphocytes to human immunodeficiency virus type 1 (HIV-1) infection, in the presence or absence of complement-sufficient serum and of virus-specific antibodies. Virus replication was detected when cells were infected in the presence of both complement and anti-HIV antibodies (C'-ADE conditions), by day 2 postinfection. Similar results were obtained when B lymphocytes were purified either from peripheral blood (three healthy donors) or from tonsils (four individuals with chronic tonsillitis). HIV infection was shown by polymerase chain reaction (PCR) detection of proviral sequences (gag and pol genes), by p24 antigen synthesis, and by cocultivation assay with MT2 cells. The higher p24 production was obtained when B cells were preactivated for 2 days by phorbol 12-myristate 13-acetate (PMA) before infection and then cultured in the presence of low-molecular weight B-cell growth factor (LMW-BCGF). Expression of virus envelope glycoprotein (gp) 120 could also be detected on a subpopulation of B cells (CD19+, CD22+) by flow cytometry. Blocking experiments with monoclonal antibodies (MoAbs) against CD4, CD21 (complement receptor 2 [CR2]), CD35 (CR1), CD19, and CD5 surface molecules indicated that infection of B cells involves CD4, CD21, and CD35 antigens. Indeed, blocking of CD4 receptor inhibited 10% of p24 production, and blocking of both CD21 and CD35 led to extinction of p24 signal. CR-dependent pathway is thus a major route for C'-ADE of HIV infection in normal B cells. Our results emphasize the importance of studying interactions between HIV and the complement system for better understanding infection mechanisms and the major dysfunctions of B cells in HIV-infected individuals.
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PMID:Complement and virus-specific antibody-dependent infection of normal B lymphocytes by human immunodeficiency virus type 1. 846 67

Transcription of human immunodeficiency virus (HIV) type 1 and other viruses is regulated by the transcription factor NF-kappaB, which interacts with the multifunctional cellular protein p300. p300, originally identified by its ability to bind adenovirus early region 1A (E1A), has also been shown to regulate HIV transcription through its interaction with NF-kappaB. The 13S form of E1A activates HIV gene expression, while the 12S form represses its transcription. In this report, we have investigated whether these divergent effects of E1A are dependent upon common or distinct cellular cofactors, including p300, pRb, and the TATA box-binding protein (TBP). Unlike activation in the absence of E1A, cooperative stimulation of HIV gene expression by 13S E1A and RelA was independent of the ability of E1A to bind p300 but was critically dependent on the E1A CR3 region which associates with TBP. In contrast, inhibition of basal HIV gene expression by the 12S form of E1A was dependent on p300 but not pRb or TBP. Interestingly, mutation of the CR2 region of 12S E1A responsible for pRb binding abolished the repression of HIV transcription stimulated by tumor necrosis factor alpha, suggesting that repression of cytokine-activated transcription involves cofactors different from those used in unstimulated cells. Repression and activation of HIV transcription by different forms of E1A are mediated by distinct sets of cellular cofactors. These findings suggest that E1A has evolved to interact by alternative mechanisms with a transcriptional coactivator and its associated cofactors to differentially modulate cellular and viral gene expression.
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PMID:Distinct domains of adenovirus E1A interact with specific cellular factors to differentially modulate human immunodeficiency virus transcription. 903 32


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