Human immunodeficiency virus gag and pol-specific CD8 T cells in perinatal HIV infection

BACKGROUND

Binding of fluorochrome-conjugated MHC class I tetramers is a powerful means to detect antigen-specific CD8 T lymphocytes. In human immunodeficiency virus (HIV) infection, cellular immune response is essential in curtailing HIV disease progression but gaps persist in our understanding of HIV-specific cells during the disease course. In this study, we evaluated tetramer binding HIV-specific CD8 T cells in HIV-infected children.

METHODS

Fluorescently labeled tetramers for HIV gag and pol were utilized to quantify antigen-specific cells by flow cytometry using a whole blood labeling method in a cohort of 19 HLA-A2+ HIV-infected children (age range 1 month to 17 years).

RESULTS

Fourteen children had detectable gag (median 0.4%) and pol (median 0.1%) binding CD8 T cells, three children had gag binding cells only, and two had neither. Numbers of gag and pol binding cells correlated with each other and each correlated independently with total CD8 T cells and total CD4 T cells.

CONCLUSIONS

HIV gag and pol-specific CD8 T cells are maintained during the chronic phase of HIV infection in children and CD4 lymphocytes appear to be important for sustaining their levels.

Immunophenotypic analysis of HIV-infected children: alterations within the first year of life, changes with disease progression, and longitudinal analyses of lymphocyte subsets

Perinatal infection with human immunodeficiency virus (HIV) results in tremendous activation of the pediatric immune system. An important component of understanding the pathogenesis of this disease is to characterize and quantify antigenic indicators of activation within the peripheral lymphocyte population. We measured T-lymphocyte activation and maturation antigens in a cohort of 112 HIV-infected children treated with antiretroviral therapy according to the current standard of care. Changes in expression of CD95, HLA-DR, and CD45RO were evident in 22 HIV-infected children younger than 1 year of age. A comparison of phenotypic profiles of children in mild, moderate, and severe immune categories revealed perturbations of CD28, CD38, CD45RA, CD45RO, CD95, and HLA-DR. Finally, a novel analysis of 56 HIV-infected children based on the repeated collection of data over time (median of seven observations over 33 months) demonstrated a strong negative correlation between the percentage CD4 and the percentage of CD45RO, CD95, and HLA-DR on both CD4 and CD8 cells. Our data implicate persistent immune activation, beginning within the first year of life, as a major driving force in the pathogenesis of perinatally acquired HIV disease.

Apoptosis in T-lymphocyte subsets in human immunodeficiency virus-infected children measured immediately ex vivo and following in vitro activation

Phosphatidylserine molecules are translocated to the outer plasma membrane of lymphocytes undergoing apoptosis and can be detected by the binding of fluorochrome-conjugated annexin V. Using the annexin V assay, we examined CD4 and CD8 T cells from human immunodeficiency virus (HIV)-infected children for apoptosis upon isolation or following in vitro culture. Immediate ex vivo analysis or overnight culture showed significantly higher levels of apoptosis in CD8 cells than in CD4 cells. Following culture with the activating stimulus phytohemagglutinin or anti-CD3 monoclonal antibody, we observed an increase in the percentage of apoptotic CD4 cells, whereas there was no change in the rate of CD8 cell death. These results demonstrate that in HIV-infected children, CD8 apoptosis may occur at a greater rate than CD4 apoptosis in vivo; greater CD4 depletion may be observed due to more efficient mechanisms for peripheral lymphocyte replacement in the CD8 compartment. Furthermore, our data suggest that CD8 lymphocytes may be maximally activated in vivo, a condition which may lead to the exhaustion of CD8-mediated immunity. These findings clarify the differences between the CD4 and CD8 apoptotic responses to HIV.

CD4 T lymphocytes are primed to express Fas ligand by CD4 cross-linking and to contribute to CD8 T-cell apoptosis via Fas/FasL death signaling pathway

CD4 molecules serve as coreceptors for the T-cell receptor (TCR)/CD3 complex that are engaged coordinately with TCR and facilitate antigen-specific T-cell activation leading to interleukin 2 (IL-2) production and proliferation. However, cross-ligation of CD4 molecules prior to TCR stimulation has been shown to prime CD4 T cells to undergo apoptosis. Although in vivo and in vitro experiments have implicated the involvement of Fas/FasL interaction in this CD4 cross-linking (CD4XL)-induced apoptosis, detailed mechanisms to account for cell death induction have not been elucidated. In the present study, we demonstrate that CD4XL in purified T cells not only led to Fas up-regulation but also primed CD4 T cells to express FasL upon CD3 stimulation and rendered the T cells susceptible to Fas-mediated apoptosis. Notably, in addition to CD4(+) T cells, CD4XL-induced sensitization for apoptosis was observed in CD8(+) T cells as well and was associated with Bcl-x down-modulation. Both CD4 and CD8 T-cell subsets underwent apoptosis following cell-cell contact with FasL(+) CD4 T cells. CD28 costimulation abrogated CD4XL/CD3-induced apoptosis with restoration of IL-2 production and prevented Bcl-x down-modulation. As CD4 molecules are the primary receptors for human immunodeficiency virus 1 (HIV-1), we conclude that HIV-1 envelope mediated CD4XL can lead to the generation of FasL-expressing CD4(+) T cells that can lead to apoptosis of CD4 as well as CD8 T cells. These findings implicate a novel mechanism for CD8 T-cell depletion in HIV disease.

Alterations in apoptosis of cord and adult peripheral blood mononuclear cells induced by in vitro infection with respiratory syncytial virus

Respiratory syncytial virus (RSV), a major cause of morbidity in children, results in severe lower respiratory tract infections. With an in vitro infection system of isolated cord or adult peripheral blood mononuclear cells, addition of virus to cell cultures resulted in significant reductions in cell deaths, as measured by 2 independent assays: quantitation of cells with subdiploid levels of DNA and cells with DNA strand breaks. Decreased cell death was observed in lymphocytes and monocytes of cord and adult samples, with more dramatic effects evident in cells from cord blood. This may be linked to the increased virulence observed in infants with RSV infection. These data suggest that RSV may be equipped with some mechanism to prevent apoptosis, which is a major component of the host defense system used to eliminate virally infected cells.

Immunophenotypic analysis of peripheral blood mononuclear cells undergoing in vitro apoptosis after isolation from human immunodeficiency virus-infected children

Lymphocytes of human immunodeficiency virus (HIV)-infected individuals undergo accelerated apoptosis in vitro, but the subsets of cells affected have not been clearly defined. This study examined the relationship between lymphocyte phenotype and apoptotic cell death in HIV-infected children by flow cytometry. Direct examination of the phenotype of apoptotic lymphocytes was accomplished using a combination of surface antigen labeling performed simultaneously with the Tdt mediated Utp nick end-labeling (TUNEL) assay. In comparison to live cells, apoptotic lymphocytes displayed an overrepresentation of CD45RO and HLA-DR expressing cells, while CD28 and CD95 expressing cells were underrepresented. Lymphocytes expressing CD4, CD8, and CD38 were equally represented in apoptotic and live populations. When percent lymphocyte apoptosis follow- ing culture was examined independently with lymphocyte subsets in fresh blood, apoptosis was negatively correlated with the percentage of CD4 cells, but not with specific CD4 T-cell subsets. Although not correlated with the percentage of total CD8 cells, apoptosis was positively correlated with specific CD8 T-cell subsets expressing CD45RO and CD95 and negatively correlated for CD8 T cells expressing CD45RA. These results provide direct evidence that a population of activated lymphocytes with the memory phenotype lacking the costimulatory molecule CD28 are especially prone to undergo apoptosis. The findings related to CD95 expression in fresh and apoptotic cells implicate Fas-dependent and Fas-independent pathways of apoptosis in HIV disease in children.

Comparison of seven quantitative assays to assess lymphocyte cell death during HIV infection: measurement of induced apoptosis in anti-Fas-treated Jurkat cells and spontaneous apoptosis in peripheral blood mononuclear cells from children infected with HIV

The study of apoptosis in relation to various human disease states, particularly HIV infection, has seen a tremendous increase in activity. In this article, values obtained by seven different assays, designed to quantify apoptosis and applicable to the study of HIV infection, are compared in two cell systems: (1) stimulus-induced apoptosis in Jurkat cells treated with anti-Fas antibody and (2) spontaneous apoptosis in PBMCs isolated from HIV-infected children. The methods used included measurement of cells with subdiploid DNA content, labeling of DNA strand breaks by the TUNEL reaction, annexin V surface labeling for the detection of exposed phosphatidylserine, cytoplasmic antigen labeling with the apoptosis-specific antibody Apo 2.7, detection of changes in flow cytometric light-scattering properties, trypan blue dye exclusion by light microscopy, and detection of changes in cellular chromatin by fluorescence microscopy. These methods produced well-correlated values in the Jurkat system, whereas the same set of methods produced more discrepant values in the PBMC analyses, especially in those patients with low CD4 counts. Specifically, our results showed that the trypan blue test was unacceptable for quantification of apoptosis during HIV infection, whereas TUNEL, of all the methods tested, showed excellent overall correlation in both cell systems, was highly specific, and matched microscopic observation of the cells. Although many of the methods were suited to the study of a homogeneous cell line, caution must be exercised when examining cell death in a heterogeneous cell mixture from an HIV-infected individual.

CD95 expression and apoptosis during pediatric HIV infection: early upregulation of CD95 expression

Pediatric HIV infection is characterized by a progressive decline in CD4 T lymphocytes and faster disease progression than is typically seen in adults. Apoptosis, possibly mediated through the CD95 antigen, has been proposed as a mechanism for cell loss which eventually leads to immune dysfunction. In this study of peripheral blood lymphocytes from HIV-infected children, classified according to CDC immunologic categories, we found that the percentage of CD4 and CD8 T cells expressing CD95 and the percentage of lymphocytes undergoing apoptosis were increased in children with HIV infection and were greater in children from immunologic Category III as compared to those in Category I. Most striking was our observation that an increased percentage of CD95-positive cells appeared as early as 3 months of age, at a time when these children did not have elevated levels of apoptosis. These data demonstrate early upregulation of CD95 expression in HIV-infected infants, an abberation which may have profound implications for the pathogenesis of perinatally acquired HIV disease.

Signals transduced through the CD4 molecule interfere with TCR/CD3-mediated ras activation leading to T cell anergy/apoptosis

It has been previously demonstrated that the occupancy of CD4 molecules by the HIV-1 envelope glycoprotein gp120 results in marked inhibition of T cell receptor-CD3 complex (TCR/CD3) activation-induced IL-2 secretion. To elucidate the mechanism of inhibitory effects of gp160 on T cell signaling, we have investigated the intracellular biochemical events and biological output in response to anti-CD3 mAb activation of purified peripheral blood CD4+ T cells from healthy donors with and without prior exposure to HIV-1 gp160. Pretreatment with gp160 resulted in marked inhibition of tyrosine phosphorylation of p59(fyn), PLC-gamma1, ras activation, and TNF-alpha secretion in anti-CD3 mAb activated CD4+ T cells, and a subset of CD4+ cells underwent activation-induced cell death. The data presented here provide insight into the mechanism by which the interaction of HIV-1 envelope glycoproteins with CD4 molecules may alter TCR/CD3-activation-induced signal transduction resulting in anergy and apoptosis with consequent functional deficiency of CD4+ T cells.

Immunophenotyping of T lymphocytes by three-color flow cytometry in healthy newborns, children, and adults

Reagents are now available which allow simultaneous assessment of three different fluorescence wave-lengths on most commercially available flow cytometers. Such three-color analyses provide more information than single- or dual-color analyses. The present study was undertaken in order to establish age-related differences in lymphocyte subpopulations by simultaneously measuring three surface antigens in newborns, children, and adults. A whole blood method was used to label cells with antibodies conjugated to FITC, PE, and perCP. We found that the percentage of lymphocytes expressing HLA-DR/CD28/CD8, HLA-DR/ CD38/CD8, CD95/CD45RO/CD8, CD95/CD45RO/CD4, CD95/CD4, and CD95/CD8 showed relative increases with age. The percentage of lymphocytes expressing CD28/CD8, CD38/CD8, and CD38/CD4 showed relative decreases with age, while the subset HLA-DR/CD38/ CD4 did not change. Three-color flow cytometry is a powerful tool to more precisely define lymphocyte subsets than the current two-color methods. We present values using a three-color panel in healthy newborns, children, and adults.

Monocytes express Fas ligand upon CD4 cross-linking and induce CD4+ T cells apoptosis: a possible mechanism of bystander cell death in HIV infection

Recent evidence indicates that death of uninfected lymphocytes by apoptosis plays an important role in the immunopathogenesis of HIV infection. We have previously demonstrated that CD4 cross-linking (CD4XL) performed in PBMC results in induction of T cell apoptosis in an accessory cell-dependent manner. In this study, we have investigated the roles of Fas interaction with its ligand (FasL) and of accessory cells in the CD4XL model of T cell apoptosis mediated by the anti-CD4 mAb Leu3a- or HIV-1 envelope protein g120. Here, we provide evidence that CD4XL-induced CD4+ T cell apoptosis is Fas-FasL interaction dependent and that monocytes play a critical role in inducing T cell apoptosis. We show that CD4XL-induced T cell apoptosis is blocked by the addition of soluble Fas or by anti-FasL mAb NOK-1; depletion of monocytes from PBMC, but not of CD19+ cells or CD8+ cells, abrogates CD4XL-induced T cell apoptosis. Conversely, addition of monocytes to purified CD4+ T cells augments CD4XL-induced apoptosis. In purified monocytes, CD4XL results in FasL expression; in purified CD4+ T cells, however, CD4XL upregulates Fas but not FasL expression. These findings underscore the important role of monocytes in HIV disease pathogenesis and firmly support the notion of CD4XL as a potent mechanism for inducing bystander cell death.

Monocytes express Fas ligand upon CD4 cross-linking and induce CD4+ T cells apoptosis: a possible mechanism of bystander cell death in HIV infection

Recent evidence indicates that death of uninfected lymphocytes by apoptosis plays an important role in the immunopathogenesis of HIV infection. We have previously demonstrated that CD4 cross-linking (CD4XL) performed in PBMC results in induction of T cell apoptosis in an accessory cell-dependent manner. In this study, we have investigated the roles of Fas interaction with its ligand (FasL) and of accessory cells in the CD4XL model of T cell apoptosis mediated by the anti-CD4 mAb Leu3a- or HIV-1 envelope protein g120. Here, we provide evidence that CD4XL-induced CD4+ T cell apoptosis is Fas-FasL interaction dependent and that monocytes play a critical role in inducing T cell apoptosis. We show that CD4XL-induced T cell apoptosis is blocked by the addition of soluble Fas or by anti-FasL mAb NOK-1; depletion of monocytes from PBMC, but not of CD19+ cells or CD8+ cells, abrogates CD4XL-induced T cell apoptosis. Conversely, addition of monocytes to purified CD4+ T cells augments CD4XL-induced apoptosis. In purified monocytes, CD4XL results in FasL expression; in purified CD4+ T cells, however, CD4XL upregulates Fas but not FasL expression. These findings underscore the important role of monocytes in HIV disease pathogenesis and firmly support the notion of CD4XL as a potent mechanism for inducing bystander cell death.

Dual role of HIV Tat in regulation of apoptosis in T cells

Apoptosis has been suggested to be one of the major mechanisms of depletion of CD4+ T cells in HIV-1-infected individuals. Remarkably, HIV-1-infected cells appear protected from apoptosis, whereas bystander cells show increased apoptosis in lymph nodes of infected individuals. In this work, we present evidence that the trans-activating protein of HIV-1, Tat, has a dual role in regulation of apoptosis in T cells. While addition of exogenous Tat protein induced apoptosis in uninfected T cells, T cell clones stably expressing the Tat protein were protected from activation-induced apoptosis. The addition of exogenous Tat potentiated anti-CD3 mAb, anti-Fas IgM mAb, and TNF-alpha-induced apoptosis of T cells. Pretreatment of Tat with anti-Tat Ab abrogated Tat-induced apoptosis, but did not affect anti-Fas IgM Ab-induced apoptosis. Endogenously expressed Tat was analyzed in Jurkat T cell clones transfected with either full-length tat gene (101 amino acids), or in control cells containing an empty vector. The Tat101-transfected clones were resistant to anti-CD3-induced apoptosis, when compared with cells transfected with vector alone. Furthermore, cross-linking of CD4 molecules on T cells with gp160 and anti-gp160 Ab showed markedly decreased apoptosis in Tat101 cells compared with that induced in cells transfected with vector alone. Taken together, our results indicate that HIV-1 Tat can regulate apoptosis that may contribute to the immunopathogenesis of AIDS.

Dual role of HIV Tat in regulation of apoptosis in T cells

Apoptosis has been suggested to be one of the major mechanisms of depletion of CD4+ T cells in HIV-1-infected individuals. Remarkably, HIV-1-infected cells appear protected from apoptosis, whereas bystander cells show increased apoptosis in lymph nodes of infected individuals. In this work, we present evidence that the trans-activating protein of HIV-1, Tat, has a dual role in regulation of apoptosis in T cells. While addition of exogenous Tat protein induced apoptosis in uninfected T cells, T cell clones stably expressing the Tat protein were protected from activation-induced apoptosis. The addition of exogenous Tat potentiated anti-CD3 mAb, anti-Fas IgM mAb, and TNF-alpha-induced apoptosis of T cells. Pretreatment of Tat with anti-Tat Ab abrogated Tat-induced apoptosis, but did not affect anti-Fas IgM Ab-induced apoptosis. Endogenously expressed Tat was analyzed in Jurkat T cell clones transfected with either full-length tat gene (101 amino acids), or in control cells containing an empty vector. The Tat101-transfected clones were resistant to anti-CD3-induced apoptosis, when compared with cells transfected with vector alone. Furthermore, cross-linking of CD4 molecules on T cells with gp160 and anti-gp160 Ab showed markedly decreased apoptosis in Tat101 cells compared with that induced in cells transfected with vector alone. Taken together, our results indicate that HIV-1 Tat can regulate apoptosis that may contribute to the immunopathogenesis of AIDS.

IL-2 rescues in vitro lymphocyte apoptosis in patients with HIV infection: correlation with its ability to block culture-induced down-modulation of Bcl-2

IL-2 administration in vivo has been shown to increase CD4+ T cell counts in HIV+ patients. We have previously reported that PBMC from HIV-infected patients undergo marked spontaneous apoptosis in vitro. In this study, we examined the effect of IL-2 added in vitro upon culture-induced apoptosis in PBMC from 80 HIV-infected patients by flow cytometry. IL-2 at concentrations of > or = 10 U/ml significantly reduced spontaneous apoptosis in CD3+ T lymphocytes in patients but not in healthy volunteers. Interestingly, we observed that Bcl-2 expression in patient lymphocytes decreased rapidly upon in vitro culture while that in cells of healthy volunteers was relatively unaffected. The most significant decrease in Bcl-2 expression was noted in the apoptotic cell population. The IL-2-mediated reduction in lymphocyte apoptosis was found to be associated with the blocking of this culture-induced down-modulation of Bcl-2 expression. IL-2 did not induce significant expansion of lymphocytes during the culture period nor did it affect Fas Ag expression in patient cells, which were already expressing Fas maximally. These findings strongly suggest that IL-2 mediates its apoptosis-blocking effects via suppressing down-modulation of Bcl-2. Our findings also provide an experimental basis for the ongoing therapies utilizing this cytokine for slowing HIV disease progression.

IL-2 rescues in vitro lymphocyte apoptosis in patients with HIV infection: correlation with its ability to block culture-induced down-modulation of Bcl-2

IL-2 administration in vivo has been shown to increase CD4+ T cell counts in HIV+ patients. We have previously reported that PBMC from HIV-infected patients undergo marked spontaneous apoptosis in vitro. In this study, we examined the effect of IL-2 added in vitro upon culture-induced apoptosis in PBMC from 80 HIV-infected patients by flow cytometry. IL-2 at concentrations of > or = 10 U/ml significantly reduced spontaneous apoptosis in CD3+ T lymphocytes in patients but not in healthy volunteers. Interestingly, we observed that Bcl-2 expression in patient lymphocytes decreased rapidly upon in vitro culture while that in cells of healthy volunteers was relatively unaffected. The most significant decrease in Bcl-2 expression was noted in the apoptotic cell population. The IL-2-mediated reduction in lymphocyte apoptosis was found to be associated with the blocking of this culture-induced down-modulation of Bcl-2 expression. IL-2 did not induce significant expansion of lymphocytes during the culture period nor did it affect Fas Ag expression in patient cells, which were already expressing Fas maximally. These findings strongly suggest that IL-2 mediates its apoptosis-blocking effects via suppressing down-modulation of Bcl-2. Our findings also provide an experimental basis for the ongoing therapies utilizing this cytokine for slowing HIV disease progression.

HIV-1 gp 120 blocks jacalin-induced proliferative response in CD4+ T cells: jacalin as a useful surrogate marker for qualitative and quantitative deficiency of CD4+ T cells in HIV-1 infection

Jacalin is a plant lectin that induces mitogenic responses selectively in CD4+ T lymphocytes and has been shown to block infection by the human immunodeficiency virus type 1 (HIV-1) in a T lymphoid cell line, but the relationship of jacalin to the HIV envelope glycoprotein gp 120 in its interaction with the CD4 molecule is unclear. Here we demonstrate that pretreatment of normal T cells with native HIV-1 gp 120 impairs their ability to proliferate and secrete IL-2 in response to jacalin. This effect was not observed with deglycosylated gp 120, which fails to bind to CD4 molecule, or with gp 120 that has been premixed with soluble CD4. Flow cytometric studies and Western blotting analysis indicated that gp 120 and jacalin compete with each other in binding to CD4 molecules. In HIV-infected patients, proliferative responses of PBMC in response to jacalin were found to correlate quantitatively with percentages of CD4+ T cells but also showed a qualitative defect in comparison to healthy volunteers based on responses that were correlated for CD4+ T cell numbers. These findings suggest that (i) gp 120 and jacalin compete with each other for CD4 binding and (ii) jacalin might be a useful surrogate marker for quantitative as well as qualitative deficiency of CD4+ T cells in HIV-1 infection.

Inhibition of CD4 cross-linking-induced lymphocytes apoptosis by vesnarinone as a novel immunomodulating agent: vesnarinone inhibits Fas expression and apoptosis by blocking cytokine secretion

Evidence is accumulating that T cells from human immunodeficiency virus type 1 (HIV-1)-infected individuals show accelerated cell death through apoptosis. We have recently demonstrated that the cross-linking of CD4 molecules (CD4XL) results in death of normal peripheral T cells through apoptosis and imbalanced cytokine secretion (ie, induction of tumor necrosis factor-alpha [TNF-alpha] and interferon-gamma [IFN-gamma] in the absence of interleukin-2 [IL-2] or IL-4 secretion). These upregulated cytokines (TNF-alpha/IFN-gamma) largely contributed to upregulation of the apoptosis-inducing cell surface molecule, Fas (APO-1/CD95) and apoptosis induction. The present study investigated the effect of vesnarinone as a novel immunomodulating agent on CD4XL-induced T-cell apoptosis. The addition of vesnarinone to peripheral blood mononuclear cells (PBMC) significantly inhibited CD4XL-induced lymphocyte apoptosis. This apoptosis-inhibitory effect of vesnarinone was associated with the blocking of CD4XL-induced TNF-alpha IFN-gamma secretion and of Fas antigen upregulation. However, vesnarinone did not block effects of exogenously supplemented TNF-alpha/IFN-gamma on Fas induction. These data suggest that vesnarinone inhibits CD4XL-induced TNF-alpha/IFN-gamma secretion, thereby blocking subsequent Fas upregulation and apoptosis induction. Given the potent pathogenic role of imbalanced cytokine secretion observed in HIV-infection, an agent such as vesnarinone may be of therapeutic value in slowing disease progression.

Requirement of p56lck in T-cell receptor/CD3-mediated apoptosis and Fas-ligand induction in Jurkat cells

Interactions of Fas (CD95) and its ligand (Fas-L) has been shown to play a pivotal role in T cells receptor (TCR)/CD3 activation-induced cell death via apoptosis. Although several lines of evidence suggest involvement of protein tyrosine kinase (PTK) activity in this process, the role of src family PTK p561ck (lck) is not known. We report here that, contrary to wild type Jurkat, the lck-deficient mutant JCaM is resistant to anti-CD3-induced apoptosis and fails to express Fas-L mRNA upon anti-CD3 treatment. However, both Jurkat and JCaM were found to constitutively express Fas and were equally sensitive to anti-Fas-mediated apoptosis. If stimulated with PMA plus ionomycin, JCaM expressed Fas-L mRNA and underwent apoptosis. These findings indicate that p56lck is required for TCR/CD3-mediated Fas-L induction but not for the transduction of Fas receptor-mediated death signal.

HIV gp120 inhibits T cell activation by interfering with expression of costimulatory molecules CD40 ligand and CD80 (B71)

One mechanism of the immune suppression in HIV infection has been postulated as being caused by the interaction of HIV envelope glycoprotein gp120 with CD4 molecules. Thus, pretreatment of purified peripheral blood T cells or CD4+ T cell clones with gp120 (or an anti-CD4 mAb) results in inhibition of anti-CD3 mAb-induced proliferative responses. In this study, we have analyzed the role of the interacting pairs of costimulatory molecules, CD28-B71 (CD80) and CD40 ligand (CD40L)-CD40, to elucidate further the mechanism of HIV gp120-induced inhibitory effects on T cell functions. Interactions between CD28-B71 and CD40L-CD40 were found to be essential for the anti-CD3 mAb-induced T cell proliferation, as demonstrated by up-regulation of B71 and CD40L and the ability of anti-B71 and anti-CD40L mAbs to inhibit this response. Pretreatment of CD4+ T cells with gp120 before CD3 ligation with anti-CD3 mAb resulted in failure of up-regulation of CD40L on T cells and B71 on APC. Exogenous addition of anti-CD28 mAb overcame the inhibitory effect of gp120 on anti-CD3 mAb-induced T cell proliferation. We conclude that binding of gp120 to CD4 molecules on T cells may interrupt the sequential cascade of intercellular interaction involving 1) Ag/MHC class II-TCR/CD4, 2) CD40L-CD40, and 3) B71-CD28. These studies indicate that the CD4-gp120 interaction results in dysregulation of expression of costimulatory molecules, CD40L, and B71 expression on T cells and APC, respectively, thereby contributing to the T cell hyporesponsiveness in HIV infection.

HIV gp120 inhibits T cell activation by interfering with expression of costimulatory molecules CD40 ligand and CD80 (B71)

One mechanism of the immune suppression in HIV infection has been postulated as being caused by the interaction of HIV envelope glycoprotein gp120 with CD4 molecules. Thus, pretreatment of purified peripheral blood T cells or CD4+ T cell clones with gp120 (or an anti-CD4 mAb) results in inhibition of anti-CD3 mAb-induced proliferative responses. In this study, we have analyzed the role of the interacting pairs of costimulatory molecules, CD28-B71 (CD80) and CD40 ligand (CD40L)-CD40, to elucidate further the mechanism of HIV gp120-induced inhibitory effects on T cell functions. Interactions between CD28-B71 and CD40L-CD40 were found to be essential for the anti-CD3 mAb-induced T cell proliferation, as demonstrated by up-regulation of B71 and CD40L and the ability of anti-B71 and anti-CD40L mAbs to inhibit this response. Pretreatment of CD4+ T cells with gp120 before CD3 ligation with anti-CD3 mAb resulted in failure of up-regulation of CD40L on T cells and B71 on APC. Exogenous addition of anti-CD28 mAb overcame the inhibitory effect of gp120 on anti-CD3 mAb-induced T cell proliferation. We conclude that binding of gp120 to CD4 molecules on T cells may interrupt the sequential cascade of intercellular interaction involving 1) Ag/MHC class II-TCR/CD4, 2) CD40L-CD40, and 3) B71-CD28. These studies indicate that the CD4-gp120 interaction results in dysregulation of expression of costimulatory molecules, CD40L, and B71 expression on T cells and APC, respectively, thereby contributing to the T cell hyporesponsiveness in HIV infection.

Expression of the Fas antigen in patients infected with human immunodeficiency virus

Lymphocytes from patients with HIV infection have been shown to undergo accelerated apoptosis. Fas antigen is a cell surface protein known to initiate an apoptotic signal. Therefore, we undertook a study to examine the expression of the Fas antigen during HIV infection. Using three color flow cytometry, expression of the Fas antigen on lymphocytes of 23 HIV infected individuals (CDC category 2, CD4 200-499 cells/microL, n = 10; CDC category 3, CD4 < 200 cells/microL, n = 13) and 10 healthy controls was examined. Both CD3+CD4+ and CD3+CD8+ subsets were examined for their expression of this marker. In lymphocytes of healthy controls, 47% of the CD3+CD4+ and 45% of the CD3+CD8+ cells were Fas antigen positive. This percentage was significantly increased in CD4 cells from HIV infected patients belonging to CDC category 3, but was unchanged from normal values in CDC category 2 subjects. The increase in the percentage of CD4+ T cells expressing Fas antigen in patients correlated significantly with the decrease in circulating CD4 T cell count (P < 0.009). In addition, by examining mean fluorescence intensity, we found that the amount of Fas expression per cell was increased threefold in CD3+CD4+ cells and increased twofold in CD3+CD8+ cells in category 3 patients. These results demonstrate that an increase in Fas antigen expression occurs during HIV infection.

Mechanism of apoptosis in peripheral blood mononuclear cells of HIV-infected patients

Lymphocytes from patients with HIV-infection have been shown to undergo accelerated spontaneous apoptosis. Binding of CD4 molecules by HIV envelope protein gp120 and anti-gp120 antibodies can lead to crosslinking of CD4 molecules (CD4XL) in vitro and conceivably in vivo. We have recently shown that CD4XL in vitro, when performed in unfractioned peripheral blood mononuclear cells (PBMC) on normal HIV seronegative donors, is by itself sufficient to induce T cell apoptosis (Blood 82:3392, 1993). To further examine the mechanisms involved in apoptosis, we have examined the expression of Fas antigen (Fas) using 3 color flow cytometry. Fas is a cell surface molecule known to mediate apoptosis-triggering signals. We induced CD4XL in PBMC obtained from normal donors, either by anti-CD4 mAb Leu3a or by HIV-1 envelope protein gp160. PBMC subpopulations were examined for Fas Ag expression and for apoptosis induction by flow cytometry. CD4XL was found to result in increased Fas expression as well as Fas mRNA in lymphocytes and the up-regulated Fas Ag was closely correlated with apoptotic cell death. CD4XL in PBMC also resulted in induction of the cytokines INF-tau and TNF-alpha in the absence of IL-2 and IL-4 secretion. Both these cytokins contributed to Fas Ag up-regulation and antibodies to TNF-alpha and INF-tau abrogated CD4XL-induced Fas up-regulation and T-cell apoptosis. These findings suggest that CD4XL occurring in vivo might play an important role in inducing an abberant cytokine profile (which has been observed in HIV infected individuals) and also in triggering of T-cell apoptosis.

Cross-linking of CD4 molecules upregulates Fas antigen expression in lymphocytes by inducing interferon-gamma and tumor necrosis factor-alpha secretion

We have recently shown that, in unfractioned peripheral blood mononuclear cells (PBMCs), the cross-linking of CD4 molecules (CD4XL) is sufficient to induce T-cell apoptosis. However, the underlying mechanism for the CD4XL-mediated T-cell apoptosis is largely unknown. Several recent studies have shown that Fas antigen (Ag), a cell-surface molecule, mediates apoptosis-triggering signals. We show here that cross-linking of CD4 molecules, induced either by anti-CD4 monoclonal antibody (MoAb) Leu3a or by human immunodeficiency virus-1 (HIV-1) envelope protein gp160, upregulates Fas Ag expression as well as Fas mRNA in normal lymphocytes. Addition of the tyrosine protein kinase inhibitor genistein or of the immunosuppressive agent cyclosporin A abrogated these effects. The upregulation of Fas Ag closely correlated with apoptotic cell death, as determined by flow cytometry. In addition, CD4XL resulted in the induction of interferon-gamma (IFN-gamma) and tumor necrosis factor-alpha (TNF-alpha) in the absence of interleukin-2 (IL-2) and IL-4 secretion in PBMCs. Both INF-gamma and TNF-alpha were found to contribute to Fas Ag upregulation and both anti-IFN-gamma and anti-TNF-alpha antibodies blocked CD4XL-induced Fas Ag upregulation and lymphocyte apoptosis. These findings strongly suggest that aberrant cytokine secretion induced by CD4XL and consequent upregulation of Fas Ag expression might play a critical role in triggering peripheral T-cell apoptosis and thereby contribute to HIV disease pathogenesis.

Use of a flow cytometric assay to quantitate apoptosis in human lymphocytes

Apoptosis is an active process of cellular self-destruction which plays an important physiologic role in the maintenance of homeostasis. This form of cell death has classically been assessed by the appearance of a "ladder-like" banding pattern upon gel electrophoresis of disrupted cells. The electrophoretic method is qualitative but offers no means of quantitation. We have optimized a flow cytometric method which allows quantitation of the apoptotic subset of cells. This assay uses propidium iodide and therefore can be performed on any flow cytometer with a blue-green excitation line. We initially verified the results of this method by using human thymocytes treated with dexamethasone, a known inducer of apoptosis. Gels were run simultaneously with flow cytometric analysis and assessed for the presence or the absence of apoptotic cells. Results obtained with gel electrophoresis correlated well with the flow cytometric method. In further studies, we applied this assay to human PBMC and obtained similar results. In conclusion, this assay is a significant improvement over currently available methodology for the determination of apoptosis. We have found it to be quantitative, reproducible, and applicable to different human cell types. The role of apoptosis in human disease remains to be elucidated and this method offers a convenient means to study this process.

Accelerated apoptosis in peripheral blood mononuclear cells (PBMCs) from human immunodeficiency virus type-1 infected patients and in CD4 cross-linked PBMCs from normal individuals

This study investigates apoptosis as a mechanism for CD4+ T-cell depletion in human immunodeficiency virus type-1 (HIV-1) infection. Although several recent studies have shown that T cells of HIV-infected individuals show enhanced susceptibility to cell death by apoptosis, the mechanisms responsible for apoptosis are largely unknown. By using a flow cytometric technique and by morphology, we have quantitated the percentage of cells undergoing apoptosis in peripheral blood mononuclear cells (PBMCs) from HIV-seronegative donors and from HIV-infected asymptomatic patients. The PBMCs were cultured without any stimulus or with staphylococcus enterotoxin B, anti-T-cell receptor (TCR) alpha beta monoclonal antibody WT-31, or phytohemagglutinin for periods up to 6 days. In addition, we sought to determine whether cross-linking of CD4 followed by various modes of TCR stimulation in vitro could induce apoptosis in normal PBMCs. Here we show that (1) patient PMBCs undergo marked spontaneous apoptosis; (2) stimulation of T cells of patients as well as normal donors results in increased apoptosis; and (3) cross-linking of CD4 molecules is sufficient to induce apoptosis in CD4+ T cells if cross-linking is performed in unfractioned PBMCs, but not if CD4 molecules are cross-linked in purified T-cell preparations. These observations strongly suggest that accelerated cell death through apoptosis plays an important role in the pathogenesis of HIV-1 infection. At the same time, our observations implicate cross-linking of CD4 in vivo as a major contributor to this mechanism of accelerated cell death in HIV infection.

Lipopolysaccharide treatment of rats alters antigen expression and oxidative metabolism in hepatic macrophages and endothelial cells

Endothelial cells and macrophages are located within the hepatic sinusoids. These two cell types play an important role in the clearance of bacterially derived lipopolysaccharide from the portal circulation. Our laboratory has previously demonstrated that treatment of rats with lipopolysaccharide results in the accumulation of macrophages in the liver that display properties of activated mononuclear phagocytes. This study was designed to analyze the effects of lipopolysaccharide on hepatic endothelial cells. Female Sprague-Dawley rats were treated with 5 mg/kg of lipopolysaccharide. Macrophages and endothelial cells were isolated from the rats 48 hr later by in situ perfusion of the liver with collagenase and pronase followed by differential centrifugation and centrifugal elutriation. We found that lipopolysaccharide treatment of rats resulted in an increase in the number of both macrophages and endothelial cells recovered from the liver. Using specific monoclonal antibodies and flow cytometry, both macrophages and endothelial cells were found to express cell surface markers for Ia antigen, leukocyte common antigen, CD4 and the macrophage antigen, ED2. Macrophages expressed greater levels of these markers than endothelial cells. Flow cytometric analysis also revealed considerable subpopulation heterogeneity in the endothelial cells in antigen expression, physical characteristics and functional activity. Treatment of rats with lipopolysaccharide decreased expression of cell surface markers on the macrophages but not on the endothelial cells. This may be due to the distinct origin of these cells. To determine whether endothelial cells, like macrophages, were activated by lipopolysaccharide, we examined their ability to produce reactive oxygen intermediates.(ABSTRACT TRUNCATED AT 250 WORDS)