Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A T cell clone (ACH-2) derived from T cells infected with HIV-1 was found to produce HIV-1 in response to stimulation with a monokine-enriched supernatant prepared by culturing human monocyte/macrophages with bacterial LPS (LPS-MO SN). Monokine induction of ACH-2 cells resulted in augmented virus production reflected by an increase in reverse transcriptase activity and in the synthesis of all major viral proteins. Examination of the cells by indirect immunofluorescence revealed that 10 to 15% of uninduced cells constitutively expressed HIV proteins, whereas 100% showed positive immunofluorescence in response to LPS-MO SN. This induction of virus by LPS-MO SN resulted in approximately a 100-fold increase of infectious virus production over uninduced ACH-2 cells. LPS alone could not induce HIV-1 expression, whereas LPS-MO SN resulted in the greatest virus expression. Cell separation studies confirmed the source of the inducing factor(s) to be cells bearing the mature monocyte/macrophage marker, Leu M3. Biochemical fractionation of the LPS-MO SN suggested that one or more factors, having apparent Mr of approximately 45 kDa, were involved in this induction. Absorption of the LPS-MO SN with immunoaffinity gels specific for human TNF-alpha was shown to completely remove the HIV inducing activity for the ACH-2 cell line.
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PMID:Monokine regulation of human immunodeficiency virus-1 expression in a chronically infected human T cell clone. 246 7

We have previously described model systems for cytokine-induced regulation of chronically HIV-infected promonocyte and T cell clones. Using these systems, we have shown that monokines contained in supernatants from LPS-stimulated human monocyte/macrophages (MO) up-regulate HIV expression, reflected by an increase in reverse transcriptase activity, viral RNA levels, and expressed viral proteins. Current studies were designed to determine whether viral Ag can interact with MO and secondarily affect HIV1 expression by stimulating monokine production. We found that certain herpes-group viruses, including CMV and EBV, augment HIV1 expression by inducing monokine production, whereas others, such as HSV1, HSV2, varicella-zoster virus, and human herpes virus 6 were unable to function in this capacity. The HSV1 and HSV2 Ag which failed to stimulate monokine production did not interfere with MO stimulation by CMV Ag, suggesting that failure to induce HIV expression was not attributable to MO suppression. When nonherpes group viruses were tested, we found that human adenovirus, hepatitis B virus, and vaccinia virus all failed to stimulate the production of monokines capable of activating HIV in the chronically infected cell lines. In contrast, HIV1 can augment its own expression by inducing the secretion of monokines which up-regulate HIV expression in the infected cells. The viral Ag-induced MO supernatants capable of up-regulating HIV expression did so in a dose-dependent manner, whereas viral Ag alone produced no significant change. Monokine production mediated by viral Ag was not attributable to contaminating endotoxin. These studies provide a model to determine whether other opportunistic infections may induce the expression of HIV by indirect mechanisms, such as the stimulation of cytokine production.
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PMID:Viral antigen stimulation of the production of human monokines capable of regulating HIV1 expression. 254 45

The effects of cysteamine (2-aminoethanethiol, MEA) and its disulfide, cystamine, on the human immunodeficiency virus (HIV-1) expression in chronically infected promonocytic cells (U1), T cell line (ACH-2), and peripheral blood monocyte-derived macrophages (MDM) were investigated. U1 and ACH-2 cells constitutively express low levels of virus, which is increased by the addition of tumor necrosis factor (TNF-alpha), interleukin 6 (IL-6), granulocyte-macrophage-colony-stimulating factor (GM-CSF), and other inducers. Cystamine, in noncytotoxic doses, suppressed in a concentration-dependent fashion the induction of HIV-1 expression mediated by TNF-alpha, IL-6, GM-CSF, and monokine-enriched monocyte culture supernatants in both U1 and ACH-2 cells as determined by HIV-1 reverse transcriptase (RT) activity. Similarly, HIV-1 expression was substantially reduced in the cystamine-treated primary MDM cultures compared with the untreated control cultures. The addition of cystamine into HIV-1 chronically infected MDM (12 days after infection was established) also suppressed 80-90% of RT activity in comparison to the untreated controls. HIV-1 (Bal) infected MDM cultures (without cystamine treatment) demonstrated giant syncytium formation, whereas cystamine-treated cultures lacked the giant syncytia induced by HIV-1 infection. Cystamine also inhibited LPS-induced TNF production in MDM. In contrast to cystamine, cysteamine showed no significant effects on either the monokine-induced HIV-1 expression in U1 or ACH-2 or acute and chronic HIV-1 infection in MDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cystamine inhibits HIV type 1 replication in cells of monocyte/macrophage and T cell lineages. 763 61

Polypeptide 48 is a 48,000 MW protein, originally isolated from conditioned media of some human leukaemic cell lines, that induces differentiation and cytolytic activity in HL-60 promyelocytic leukaemia cells and activates human peripheral blood monocytes to secrete interleukin-1 (IL-1) and tumour necrosis factor-alpha (TNF-alpha). In the present study we examined the effects of p48 on the accumulation of a series of monokine transcripts, including TNF-alpha, IL-1 alpha, IL-1 beta and IL-6, in human peripheral blood monocytes and the myeloid/monocyte cell lines HL-60 and U937. Using reverse transcriptase polymerase chain reaction (RT-PCR) and Northern blot analysis, p48 was found to induce accumulation of TNF-alpha, IL-1 alpha and IL-1 beta mRNA in peripheral blood monocytes, HL-60 and U937 cells. IL-6 mRNA was found to be increased in p48-stimulated peripheral blood monocytes but not HL-60 or U937. Thus, the secretion of IL-1 and TNF-alpha by p48-stimulated monocytic cells was associated with up-regulation of cytokine mRNA, suggesting that p48 leads to increased transcription or mRNA stability in these cells. As U937 and HL-60 are likely to represent premonocyte stages of haemopoietic differentiation, it is possible that the effect of p48 on IL-6 mRNA, in contrast to its effect on TNF and IL-1, requires cells to be at a later differentiation step.
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PMID:Up-regulation of cytokine mRNA in human monocytes and myeloid cell lines by the differentiation/activation factor p48. 855 86

The ACH-2 cell clone derived from a human T-cell line and chronically infected with human immunodeficiency virus 1 (HIV-1) and the U1 cell clone derived from a human promonocyte cell line and also chronically infected with HIV-1 produce HIV-1 in a response to stimulation with monokine-enriched supernatants prepared from highly purified populations of peripheral blood-derived human monocytes. Monokine-mediated expression of HIV-1 in these cell lines resulted in augmented virus production reflected by increases in reverse transcriptase (RT) activity, production of p24 antigen, and synthesis of major viral proteins. Examination of the cells by electron microscopy revealed numerous HIV-1 virions in the cells treated with the supernatants. This stimulation of virus production by monokine-enriched supernatants resulted in approximately 100-fold increases in RT activity and p24 antigen expression in comparison with those in untreated U1 and ACH-2 cells. Absorption of monokine-enriched supernatants with rabbit anti-tumor necrosis factor alpha antibody removed most, but not all, of the induced HIV-1 RT activity and p24 antigen expression in U1 and ACH-2 cell lines, suggesting that tumor necrosis factor alpha in the monokine-enriched supernatants is a major factor in the induction of HIV-1 expression in these cells.
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PMID:Monokine-mediated increase in human immunodeficiency virus type 1 expression in chronically infected promonocyte- and T-cell-derived lines. 855 95

Disparate findings have been reported as to whether human immunodeficiency virus (HIV) affects cytokine production by macrophages (MA). We investigated production of different cytokines and of macrophage inflammatory protein (MIP)-1alpha by HIV-1Ba-L- or HIV-1Ada-infected blood-derived MA. Relative to controls, only MIP-1alpha levels increased twofold to > 10-fold in supernatants 2 to 3 weeks postinfection (PI), at the time of maximum virus production; levels of the other chemokines (RANTES, interleukin (IL)-8) and cytokines (IL-1alpha, IL-3, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF, tumor necrosis factor (TNF)-alpha, transforming growth factor (TGF)-beta1) investigated were not affected. MIP-1alpha mRNA signal assessed by reverse transcriptase-polymerase chain reaction (RT-PCR) was, however, only occasionally greater in cells from infected cultures relative to controls. MIP-1alpha levels in supernatants remained in the same range as in control cultures when more than 10 mmol/L Zidovudine was added 24 hours PI, which indicates involvement of virus replication in the effect. Anti-MIP-1alpha antibody labeling identified a 10% to 25% subset of MA, strongly expressing HLA-DR and CD4, and also stained by anti-IL-6 and anti-TNF-alpha antibodies. Two weeks PI, dual staining showed that the majority of the 5% to 20% cells that were p24+ belonged to the MIP-1alpha+ population, which may define a MA subset capable to better sustain HIV replication. MIP-1alpha induced by HIV replication in MA might play a role in the pathophysiology of HIV infection; in impaired hematopoiesis; or as a CD4+ and CD8+ lymphocyte chemoattractant, by recruiting either or both HIV-susceptible and cytotoxic T lymphocytes to virus replication sites.
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PMID:Macrophage inflammatory protein-1alpha is induced by human immunodeficiency virus infection of monocyte-derived macrophages. 863 52

IL-10, an immunoregulatory cytokine produced by T cells and monocytes, inhibits the expression of inflammatory and hemopoietic cytokines as well as its own expression. To evaluate the regulation of IL-10 production by T cells and monocytes, we measured IL-10 levels by ELISA in supernatants of PHA-stimulated PBMC following depletion of either T cells or monocytes. IL-10 production was significantly down-regulated in both T cell- and monocyte-depleted PBMC compared with undepleted PBMC, and IL-10 production could be restored by the addition of monocyte-conditioned medium (supernatant of PHA-stimulated, T cell-depleted PBMC), suggesting that IL-10 production by T cells is regulated by a monokine(s) produced by activated monocytes. To further clarify the monokine(s) responsible for IL-10 induction, we stimulated monocyte-depleted PBMC, purified CD4+, and CD8+ T cells with PHA and measured IL-10 production by ELISA and semiquantitative reverse transcriptase-PCR following monokine(s) addition. Addition of IL-6 and IL-12 enhanced IL-10 production in monocyte-depleted PBMC in a dose-dependent and additive manner. Furthermore, anti-IL-6 and anti-IL-12 Abs neutralized the IL-10-inductive effect of monocyte-conditioned medium. Similarly, IL-12 and IL-6 induced IL-10 production by purified CD4+ and CD8+ T cells. With respect to regulation of IL-10 produced by monocytes, TNF-alpha was found to induce IL-10 production by resting as well as by LPS-stimulated purified monocytes/macrophages. Taken together, these findings suggest that IL-10 production by human T cells and monocytes is differentially regulated. IL-12 and/or IL-6 can induce the expression of IL-10 by PHA-stimulated T cells, whereas TNF-alpha induces IL-10 production by monocytes. Since IL-10 inhibits the production of IL-6, IL-12, and TNF-alpha, these results may indicate a potential mechanism of negative feedback regulation of the immune response.
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PMID:IL-10 production is enhanced in human T cells by IL-12 and IL-6 and in monocytes by tumor necrosis factor-alpha. 868 5

Recruitment of lymphocytes is a prominent feature of allergic inflammation. However, the mechanisms by which lymphocytes are attracted to such sites are not understood. Recently, cDNAs encoding a lymphocyte-specific chemokine, lymphotactin (Ltn), were isolated from mouse pro-T cell and human CD8+ T cell libraries, leading us to hypothesize that mast cells might also produce Ltn. Using the reverse transcriptase-PCR and Northern blot analysis, we found that the Ltn gene is inducible in C1.MC/C57.1 and murine bone marrow-cultured mast cells (BMCMC) by Fc(epsilon)RI aggregation. Activation of a human mast cell (HMC-1) or basophil cell line (KU812) similarly led to transcription of Ltn. Fc(epsilon)RI aggregation-dependent Ltn mRNA expression was detected by 1 to 2 h, maximal at 6 h, independent of de novo protein synthesis, and was inhibited by cyclosporin A and dexamethasone. Compared with macrophage inflammatory protein alpha (MIP-1alpha), Fc(epsilon)RI-dependent Ltn and MIP-1alpha mRNA levels were up-regulated by IL-4, but not IFN-gamma, although higher levels of IL-4 (100 and 1000 U/ml) inhibited Ltn expression only; and TGF-beta preferentially enhanced Fc(epsilon)RI-dependent Ltn mRNA levels, suggesting that Ltn and MIP-1alpha have shared and unique regulatory mechanisms. A rabbit polyclonal Ab against a synthetic peptide was developed for use in immunoblot analysis and detected a 15-kDa Ltn protein within mast cell pellets and in the supernatants of mast cells following Fc(epsilon)RI aggregation. Ltn is thus expressed in mast cells and may contribute to the recruitment of lymphocytes to areas of allergic inflammation.
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PMID:Lymphotactin gene expression in mast cells following Fc(epsilon) receptor I aggregation: modulation by TGF-beta, IL-4, dexamethasone, and cyclosporin A. 901 79

Recently, interferon-gamma-inducing-factor (IGIF) has been described as a novel monokine that is a more potent interferon-gamma (IFN-gamma) inducer than IL-12. By cloning IGIF from affected tissue and studying IGIF gene expression, we describe for the first time a close association of this cytokine with an autoimmune disease. The non-obese diabetic (NOD) mouse spontaneously develops autoimmune insulitis and diabetes which can be accelerated and synchronized by a single injection of cyclophosphamide. IGIF mRNA was demonstrated by reverse transcriptase PCR in NOD mouse pancreas during early stages of insulitis. Levels of IGIF mRNA increased rapidly after cyclophosphamide treatment and preceded a rise in IFN-gamma mRNA, and subsequently diabetes. Interestingly, these kinetics mimick that of IL-12p40 mRNA, resulting in a close correlation of individual mRNA levels. Cloning of the IGIF cDNA from pancreas RNA followed by sequencing revealed identity with the IGIF sequence cloned from Kupffer cells and in vivo preactivated macrophages. When extending our study to macrophages of the spleen we observed that NOD mouse macrophages responded to cyclophosphamide with IGIF gene expression while macrophages from Balb/c mice treated in parallel did not. The IGIF gene position is located within the Idd2 interval on mouse chromosome 9 and therefore it is a candidate for the Idd2 susceptible gene. We conclude that IGIF expression is abnormally regulated in autoimmune NOD mice and closely associated with diabetes development.
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PMID:Active stage of autoimmune diabetes is associated with the expression of a novel cytokine, IGIF, which is located near Idd2. 902 80

A common feature of some parasitic infections and allergic and atopic skin diseases is the involvement of Th2 lymphocytes and the dermal appearance of eosinophils (Eos). Because Th2 lymphocytes apparently do not release Eo attractants, we addressed the question of whether the Th2 cytokine IL-4 induces its production in dermal fibroblasts. We therefore stimulated fibroblasts with IL-4. HPLC investigation of supernatants revealed a single Eo chemotactic protein, which was purified to homogeneity giving a single 13-kDa band upon SDS-PAGE analyses. Peptide mapping with subsequent amino acid sequencing revealed an Eo-selective chemotaxin, which consists of a mixture of N-terminally truncated and O-glycosylated forms of the chemokine eotaxin. Other chemokines such as RANTES, MCP-3, MCP-4, or MIP-1alpha were not detected as Eo chemotaxins under these conditions. Using reverse transcriptase-PCR techniques, we found that IL-4 dose and time dependently induces eotaxin mRNA in dermal fibroblasts. Stimulation with IL-4 and TNF-alpha caused a 10- to 20-fold increase of the release of three biochemically different eotaxin forms, each consisting of a mixture of N-terminally truncated and O-glycosylated variants having the same backbone amino acid sequence but different specific activities. Our findings support the hypothesis that eosinophil recruitment seen in IL-4-mediated skin reactions, at least in part, may be due to Th2 cytokine-mediated induction of eotaxin in dermal fibroblasts.
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PMID:IL-4 induces eotaxin: a possible mechanism of selective eosinophil recruitment in helminth infection and atopy. 955 56


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