Cytokine-mediated induction of human immunodeficiency virus (HIV) expression and cell death in chronically infected U1 cells: do tumor necrosis factor alpha and gamma interferon selectively kill HIV-infected cells?

Infection with several DNA or RNA viruses induces a state of increased sensitivity to cell lysis mediated by tumor necrosis factor (TNF), particularly in the presence of gamma interferon (IFN-gamma). Infection of human cells with the human immunodeficiency virus (HIV) may induce a similar phenomenon. However, TNF and IFN-gamma are known upregulators of HIV replication, raising the question of the potential role of these cytokines in the selective elimination of cells infected with this virus. The present study demonstrates that chronically infected U1 cells were killed with much greater efficiency by costimulation with TNF-alpha and IFN-gamma than their uninfected parental cell line U937. However, synergistic induction of viral expression also occurred in U1 cells as a consequence of treatment with the two cytokines. Cell death in U1 cells was not caused by the massive production of virions, in that costimulation with glucocorticoid hormones and TNF-alpha or IFN-gamma resulted in high levels of virion production without cytopathicity. To investigate the nature of the selective cytotoxic effect observed in U1 cells costimulated with TNF-alpha plus IFN-gamma, a panel of uninfected cell clones was generated by limiting dilution of U937 cells and tested for response to TNF-alpha and/or IFN-gamma. In contrast to the uncloned bulk parental U937 cell line, most uninfected cell clones showed a very high susceptibility to being killed by TNF-alpha and IFN-gamma. Similar findings were obtained when both infected U1 cells and several uninfected U937 cell clones were costimulated with an anti-Fas monoclonal antibody in the presence of IFN-gamma, although, unlike cells stimulated with TNF-alpha, cells treated with anti-Fas antibody did not express virus. Therefore, the increased susceptibility to cytokine-mediated lysis observed in cell lines infected with HIV is likely due to the selection of preexisting cell clones rather than viral infection.

Involvement of PKC-alpha in PDGF-mediated mitogenic signaling in human mesangial cells

Platelet-derived growth factor (PDGF) is a potent mitogen for a variety of cells. The calcium/phospholipid-dependent protein kinase C (PKC) represents a major signal transduction pathway for many growth stimuli including PDGF. Various isoforms of PKC are differentially expressed in the same or in different cells and tissues, and diverse stimuli may selectively activate one or more PKC isoforms. We studied the effect of PDGF on DNA synthesis and on the activity of PKC in human mesangial cells and vascular pericytes in the glomerular microvascular bed. PKC activity was measured as the amount of phosphorylated myelin basic protein-derived peptide substrate in the absence and presence of an inhibitor, a peptide spanning the pseudosubstrate region of PKC. PDGF (15 ng/ml) stimulated PKC activity within 5 min, and the effect was sustained for 60 min. Pretreatment of mesangial cells with 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), an inhibitor of PKC, abolished the stimulation of PKC and DNA synthesis in response to PDGF. This effect of H-7 was specific, because H-7 did not inhibit the tyrosine phosphorylation of the PDGF receptor in vivo when added to the cells or the in vitro kinase activity in the PDGF beta-receptor immunoprecipitates. Utilizing isotype-specific antibodies against PKC-alpha, -beta, or -gamma for immunoprecipitation of PDGF-treated mesangial cell extracts, followed by assay of PKC activity, we demonstrated the activation of PKC-alpha only. Northern blot analysis of mRNA prepared from mesangial cells also revealed two transcripts, 3.7 kb and 1.8 kb, that hybridized with cDNA specific for PKC-alpha.(ABSTRACT TRUNCATED AT 250 WORDS)

Simvastatin inhibits PDGF-induced DNA synthesis in human glomerular mesangial cells

Inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A-(HMGCoA) reductase ameliorate glomerular pathology and renal dysfunction in different models of glomerular disease. This effect has generally been attributed to a decrease in the circulating levels of cholesterol. Focal or diffuse mesangial cell proliferation is a common feature of glomerular pathology. There is now evidence from studies in vitro and in vivo that platelet-derived growth factor (PDGF) is an important mediator of glomerular hypercellularity. The activity of HMGCoA reductase has previously been shown to be a requirement for cell growth. In the present study, we examined the effect of simvastatin, and HMGCoA reductase inhibitor, on PDGF-induced DNA synthesis and PDGF B chain gene expression in human glomerular mesangial cells. In addition, we investigated the effect of simvastatin on phospholipase C (PLC) and protein kinase C (PKC) activation stimulated by PDGF. We demonstrate that treatment of the cells with simvastatin completely inhibits PDGF-induced DNA synthesis. This inhibition is reversed by mevalonate but not by cholesterol or farnesol, two major metabolites of the mevalonate pathway. On the other hand inhibition of HMGCoA reductase does not influence PDGF-induced activation of PLC and PKC, or PDGF B chain gene expression. These data suggest that simvastatin acts at a late step in the PDGF mitogenic pathway without interfering with other early cellular responses elicited by this growth factor. These studies also raise the possibility that the ameliorative effect of HMGCoA reductase inhibitors on glomerular pathology may be mediated, at least in part, by a direct cellular effect.

Glucocorticoids synergize with tumor necrosis factor alpha in the induction of HIV expression from a chronically infected promonocytic cell line

In this study we have investigated the effects of glucocorticoids (GCs) on the expression of human immunodeficiency virus (HIV) in a chronically infected promonocytic cell line, U1. Although no increase in virus production was observed in U1 cells stimulated with physiological concentrations of GC alone, costimulation with dexamethasone plus tumor necrosis factor alpha (TNF-alpha) synergistically enhanced TNF-alpha-dependent HIV expression. Molecular analysis demonstrated that GCs plus TNF-alpha resulted in an accumulation of steady state HIV RNA secondary to either an increase in transcription or an increase in message stability. These findings may be of physiological relevance because GCs are used in the treatment of certain disorders associated with HIV infection and TNF-alpha levels have been reported to be elevated in the plasma and cerebrospinal fluid of certain HIV-infected individuals.

Interferon gamma induces the expression of human immunodeficiency virus in persistently infected promonocytic cells (U1) and redirects the production of virions to intracytoplasmic vacuoles in phorbol myristate acetate-differentiated U1 cells

Interferon gamma (IFN-gamma), a lymphokine that exerts multiple immunoregulatory effects, has been found to be elevated in the plasma, cerebrospinal fluid, and lymph nodes of human immunodeficiency virus (HIV)-infected individuals and has shown variable effects on HIV replication in acutely infected cells. In the present study, we have demonstrated that IFN-gamma is a potent modulator of HIV expression in persistently infected U1 promonocytic cells in which virus production is characterized by a constitutive state of relative latency. Direct stimulation of U1 cells with IFN-gamma (10-1,000 U/ml) activated HIV expression, as measured by reverse transcriptase (RT) activity in the culture supernatant and increased levels of cell-associated viral protein and mRNAs. These effects on virus expression were not accounted for by the induction of endogenous TNF-alpha secretion, as previously described in U1 cells stimulated with phorbol myristate acetate (PMA). At the ultrastructural level, the stimulatory activity of IFN-gamma was correlated with HIV particle production in intracytoplasmic vacuoles along with the differentiation of U1 into macrophage-like cells. Furthermore, costimulation of U1 cells with IFN-gamma and PMA significantly increased the accumulation of vacuole-associated HIV concomitant with decreasing membrane-associated particles and RT activity production, as compared with cells stimulated with PMA alone. No evidence of spontaneous secretion of intracellular vacuole-associated virus was obtained by kinetic analysis of the RT activity released in the supernatants throughout the culture period unless cells were deliberately disrupted. These findings suggest that vacuole-associated virions likely represent a relatively stable intracellular reservoir of HIV, as previously described in primary macrophages infected in vitro or in infected macrophages in the brains of patients with acquired immune deficiency syndrome. The reduced levels of RT activity observed in the culture supernatants of U1 cells stimulated with PMA in the presence of IFN-gamma were not indicative of a suppressive effect of IFN-gamma on PMA-induced expression of HIV proteins and mRNAs, either directly or mediated by the release of IFN-alpha/beta. This study suggests that IFN-gamma may play an important role as an inducer of HIV expression in infected mononuclear phagocytes.

Allergen- and bacterial antigen-specific T-cell clones established from atopic donors show a different profile of cytokine production

We have established a large panel of T-cell clones (TCCs) specific for Dermatophagoides pteronyssinus and Lolium perenne group I grass pollen allergens (total, 61) and for tetanus toxoid and protein purified derivative bacterial antigens (total, 38) from the peripheral blood of two atopic individuals and then analyzed their ability to produce interleukin 4 (IL-4), IL-5, and interferon gamma (IFN-gamma). Upon stimulation with phorbol 12-myristate 13-acetate plus anti-CD3 antibody, the great majority of TCCs specific for bacterial components was able to produce both IL-4 and IFN-gamma, whereas most D. pteronyssinus- and L. perenne group I-specific TCCs produced IL-4, but no, or limited, IFN-gamma. Moreover, the mean amounts of IL-4 and IFN-gamma released by allergen-specific TCCs were significantly higher and lower, respectively, than the mean amounts produced by TCCs specific for bacterial components. Under the same experimental conditions, virtually all allergen-specific TCCs, but only one-third of tested TCCs specific for bacterial components, expressed IL-5 RNA and secreted IL-5 in their supernatants. Eighteen TCCs (nine specific for allergens and nine specific for bacterial components) were also assessed for their ability to induce IgE synthesis by autologous B cells in response to stimulation with the specific antigen. Under these experimental conditions, all allergen-specific TCCs, but only one-third of TCCs specific for bacterial components that produced IL-4 but no, or little, IFN-gamma induced the synthesis of detectable amounts of IgE. The demonstration that most allergen-specific helper T cells in atopic individuals are able to produce high amounts of IL-4 (and IL-5), but no IFN-gamma, may explain why allergens induce production of IgE antibodies and increase eosinophils.

Accumulation of Th-2-like helper T cells in the conjunctiva of patients with vernal conjunctivitis

A total number of 132 T cell clones (TCC) were obtained by PHA-stimulation of single T cells from mononuclear cell suspensions of conjunctival flogistic infiltrates of three patients with vernal conjunctivitis (VC). The phenotype and functional properties of these TCC were compared with those of 122 TCC contemporarily established from PB mononuclear cell suspensions of the same patients, 120 TCC established from lymph nodes of three patients with nonspecific hyperplastic lymphoadenitis and 159 TCC established from thyroid lymphocyte infiltrates of three patients with Graves' disease. The great majority of conjunctival TCC displayed the CD4+ CD8- phenotype (CD4/CD8 ratios ranging from 6.1 to 7.0), whereas the mean CD4/CD8 ratios for control TCC ranged from 0.9 to 2.4. After stimulation with either PHA or PMA plus anti-CD3 mAb, conjunctival TCC differed from control TCC for their ability to produce cytokines. In particular, a large number of conjunctival TCC produced IL-4, but no, or limited amounts of, IFN-gamma, whereas no difference was observed between conjunctival and control TCC with regard to the production of IL-2. The failure of IFN-gamma production by conjunctival TCC was apparently not caused by delay or block in cytokine production, but actually reflected the lack of IFN-gamma transcription. Virtually all conjunctival TCC able to produce IL-4, but not IFN-gamma, as well as most of those producing both cytokines, provided helper function for IgE synthesis in allogeneic normal B cells. The accumulation in the conjunctiva of patients with vernal conjunctivitis of CD4+ T cells that, apart from the production of IL-2, resembles murine Th2 cells for their profile of cytokine production and helper function suggests a possible role for these cells in the pathogenesis of the disease.

Accumulation of Th-2-like helper T cells in the conjunctiva of patients with vernal conjunctivitis

A total number of 132 T cell clones (TCC) were obtained by PHA-stimulation of single T cells from mononuclear cell suspensions of conjunctival flogistic infiltrates of three patients with vernal conjunctivitis (VC). The phenotype and functional properties of these TCC were compared with those of 122 TCC contemporarily established from PB mononuclear cell suspensions of the same patients, 120 TCC established from lymph nodes of three patients with nonspecific hyperplastic lymphoadenitis and 159 TCC established from thyroid lymphocyte infiltrates of three patients with Graves' disease. The great majority of conjunctival TCC displayed the CD4+ CD8- phenotype (CD4/CD8 ratios ranging from 6.1 to 7.0), whereas the mean CD4/CD8 ratios for control TCC ranged from 0.9 to 2.4. After stimulation with either PHA or PMA plus anti-CD3 mAb, conjunctival TCC differed from control TCC for their ability to produce cytokines. In particular, a large number of conjunctival TCC produced IL-4, but no, or limited amounts of, IFN-gamma, whereas no difference was observed between conjunctival and control TCC with regard to the production of IL-2. The failure of IFN-gamma production by conjunctival TCC was apparently not caused by delay or block in cytokine production, but actually reflected the lack of IFN-gamma transcription. Virtually all conjunctival TCC able to produce IL-4, but not IFN-gamma, as well as most of those producing both cytokines, provided helper function for IgE synthesis in allogeneic normal B cells. The accumulation in the conjunctiva of patients with vernal conjunctivitis of CD4+ T cells that, apart from the production of IL-2, resembles murine Th2 cells for their profile of cytokine production and helper function suggests a possible role for these cells in the pathogenesis of the disease.

In vitro infection with HIV of antigen-specific T cell clones derived from HIV-seronegative individuals. Effects on cytokine production and helper function

Three human T cell clones (TCC) specific for purified protein derivative of Mycobacterium tuberculosis were incubated in the presence of polybrene and phytohemagglutinin with irradiated mononuclear cells from one individual exhibiting seropositivity for human immunodeficiency virus (HIV) and high levels of circulating p24 antigen. After three weeks, TCC showed HIV integration in their DNA, as shown by polymerase chain reaction analysis and Southern blot technique. All the three HIV-infected TCC maintained their ability to recognize the specific antigen, even if their proliferative ability was reduced. The ability of the HIV-infected TCC to produce IL-2, IL-4 and IFN-gamma in response to phorbol myristate acetate plus anti-CD3 monoclonal antibody was decreased, whereas their ability to produce TNF-alpha was unaffected or even enhanced. Two out of the three HIV-infected TCC showed the ability to provide helper function for polyclonal immunoglobulin production when cocultured with autologous B cells in the absence of any stimulant. These data suggest that in vitro infection of normal human TCC may provide a useful model for the study of immunological alterations induced by HIV.

Noncognate contact-dependent B cell activation can promote IL-4-dependent in vitro human IgE synthesis

We have previously shown that IL-4 is an essential mediator for the synthesis of human IgE in vitro. In this study we demonstrate that prior physical contact with T cells is required by B cells to synthesize IgE in response to IL-4. Both autologous and allogeneic freshly prepared T cells were consistently able to support IL-4-dependent IgE synthesis, provided that they were added to B cells together with, or before, the addition of IL-4. In addition, most CD4+, as well as a proportion of CD8+, PHA-induced T cell clones (TCC) established from two HLA-DR incompatible donors, supported, in the presence of exogenous IL-4, the synthesis of IgE in B cells from the majority of individuals tested including both donors of cloned T cells. An alloreactive TCC able to produce IL-4 in response to HLA-DR4+ B cells and to induce HLA-DR4+ B cells to synthesize IgE, acquired the ability to support IgE synthesis by B cells lacking the appropriate alloantigen provided that exogenous IL-4 was added. Although the ability of freshly prepared T cells to support IgE synthesis was consistently abrogated by fixation with paraformaldehyde (PF), such a treatment variably affected the IgE-inducing ability of TCC. Preactivation with anti-CD3 before treatment with PF maintained or even enhanced the ability of TCC to support IL-4-dependent IgE synthesis. More importantly, preactivation with anti-CD3, followed by fixation with PF, enabled TCC, apparently devoid of IgE-inducing activity in unfixed condition, to support IL-4-dependent IgE synthesis. Taken together these data suggest that at least two signals are involved in the triggering of human B cells to IgE production: the first is delivered by a T-B cell contact and the second by IL-4. The physical signal delivered by T cells does not necessarily consist of cognate interaction. Non-cognate contact-dependent induction of B cells to IgE synthesis in response to IL-4 appears to be related to molecule(s) distinct from the TCR/CD3 complex, but fully expressed on the membrane of TCR/CD3-activated T cells.

Noncognate contact-dependent B cell activation can promote IL-4-dependent in vitro human IgE synthesis

We have previously shown that IL-4 is an essential mediator for the synthesis of human IgE in vitro. In this study we demonstrate that prior physical contact with T cells is required by B cells to synthesize IgE in response to IL-4. Both autologous and allogeneic freshly prepared T cells were consistently able to support IL-4-dependent IgE synthesis, provided that they were added to B cells together with, or before, the addition of IL-4. In addition, most CD4+, as well as a proportion of CD8+, PHA-induced T cell clones (TCC) established from two HLA-DR incompatible donors, supported, in the presence of exogenous IL-4, the synthesis of IgE in B cells from the majority of individuals tested including both donors of cloned T cells. An alloreactive TCC able to produce IL-4 in response to HLA-DR4+ B cells and to induce HLA-DR4+ B cells to synthesize IgE, acquired the ability to support IgE synthesis by B cells lacking the appropriate alloantigen provided that exogenous IL-4 was added. Although the ability of freshly prepared T cells to support IgE synthesis was consistently abrogated by fixation with paraformaldehyde (PF), such a treatment variably affected the IgE-inducing ability of TCC. Preactivation with anti-CD3 before treatment with PF maintained or even enhanced the ability of TCC to support IL-4-dependent IgE synthesis. More importantly, preactivation with anti-CD3, followed by fixation with PF, enabled TCC, apparently devoid of IgE-inducing activity in unfixed condition, to support IL-4-dependent IgE synthesis. Taken together these data suggest that at least two signals are involved in the triggering of human B cells to IgE production: the first is delivered by a T-B cell contact and the second by IL-4. The physical signal delivered by T cells does not necessarily consist of cognate interaction. Non-cognate contact-dependent induction of B cells to IgE synthesis in response to IL-4 appears to be related to molecule(s) distinct from the TCR/CD3 complex, but fully expressed on the membrane of TCR/CD3-activated T cells.

Role for T cells, IL-2 and IL-6 in the IL-4-dependent in vitro human IgE synthesis

The role of T cells and monocytes, as well as that of cytokines, such as IL-1, IL-2 and IL-6, on the IL-4-dependent in vitro human IgE synthesis was investigated. Recombinant IL-4, IL-4-containing T-cell clone supernatants and different combinations of recombinant cytokines failed to induce highly purified B cells to synthesize IgE. IL-4-dependent IgE synthesis was restored by addition to purified B cells of either untreated or mitomycin C-treated autologous T lymphocytes. Addition to purified B cells of autologous monocytes did not restore the IgE response, but usually it exerted a potentiating effect on the synthesis of IgE induced by IL-4 in the presence of suboptimal concentrations of T cells. The activity of T cells apparently preceded that of IL-4 and required a physical contact with B cells. The presence in culture of IL-2 also appeared to be necessary for the T-cell and IL-4-dependent IgE synthesis. Even though not essential, IL-6 was able to potentiate IgE synthesis in most experiments, whereas IL-1 did not display any modulatory effect.

Role of interleukins in induction and regulation of human IgE

The studies on human IgE synthesis here summarized provide further insight into the cellular and molecular mechanisms involved in IgE regulation, as well as in the alterations responsible for IgE disregulation in some pathological conditions. They have clearly demonstrated that IL-4 is the essential factor for the induction of human IgE synthesis, since no substantial IgE production in vitro could be obtained in the absence of this lymphokine. Another T cell-derived lymphokine, IFN gamma, negatively regulates the IgE synthesis induced by IL-4. These two lymphokines can be produced by different T helper cells, as shown in mice, but they can also be the product of the same T cell clones. In such a case, the possibility that a given clone provides helper function for IgE seems to be dependent on the balance between the amounts of the two lymphokines produced. The IgE helper activity of rIL-4 appeared to be dependent on the presence in culture of appropriate concentrations of T lymphocytes, suggesting that T-B cell contact or other interleukins, such as IL-2 and IL-6, are needed in IL-4-dependent IgE synthesis. Finally, alterations of one or more of these regulatory mechanisms may play a crucial role in the pathogenesis of diseases characterized by a hyperproduction of IgE.

Increased production of IgE protein and IgE antibodies specific for fungal antigens in patients with the acquired immunodeficiency syndrome

Levels of IgE protein and IgE antibodies specific for 8 different allergenic extracts were measured in the serum of a large series of patients infected by the human immunodeficiency virus (HIV) and in HIV-seronegative subjects belonging to the same risk groups (intravenous drug-users, homosexual men and hemophiliacs). The proportion of subjects showing elevated IgE levels was higher among HIV-infected patients with group IV disease than among HIV-infected patients with group II-III diseases or seronegative individuals. In addition, many HIV-infected patients with elevated IgE levels showed the presence in their serum of IgE antibodies specific for fungal antigens.